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LightRAG/dev-start.sh
Raphael MANSUY fe9b8ec02a
tests: stabilize integration tests + skip external services; fix multi-tenant API behavior and idempotency (#4) 
* feat: Implement multi-tenant architecture with tenant and knowledge base models

- Added data models for tenants, knowledge bases, and related configurations.
- Introduced role and permission management for users in the multi-tenant system.
- Created a service layer for managing tenants and knowledge bases, including CRUD operations.
- Developed a tenant-aware instance manager for LightRAG with caching and isolation features.
- Added a migration script to transition existing workspace-based deployments to the new multi-tenant architecture.

* chore: ignore lightrag/api/webui/assets/ directory

* chore: stop tracking lightrag/api/webui/assets (ignore in .gitignore)

* feat: Initialize LightRAG Multi-Tenant Stack with PostgreSQL

- Added README.md for project overview, setup instructions, and architecture details.
- Created docker-compose.yml to define services: PostgreSQL, Redis, LightRAG API, and Web UI.
- Introduced env.example for environment variable configuration.
- Implemented init-postgres.sql for PostgreSQL schema initialization with multi-tenant support.
- Added reproduce_issue.py for testing default tenant access via API.

* feat: Enhance TenantSelector and update related components for improved multi-tenant support

* feat: Enhance testing capabilities and update documentation

- Updated Makefile to include new test commands for various modes (compatibility, isolation, multi-tenant, security, coverage, and dry-run).
- Modified API health check endpoint in Makefile to reflect new port configuration.
- Updated QUICK_START.md and README.md to reflect changes in service URLs and ports.
- Added environment variables for testing modes in env.example.
- Introduced run_all_tests.sh script to automate testing across different modes.
- Created conftest.py for pytest configuration, including database fixtures and mock services.
- Implemented database helper functions for streamlined database operations in tests.
- Added test collection hooks to skip tests based on the current MULTITENANT_MODE.

* feat: Implement multi-tenant support with demo mode enabled by default

- Added multi-tenant configuration to the environment and Docker setup.
- Created pre-configured demo tenants (acme-corp and techstart) for testing.
- Updated API endpoints to support tenant-specific data access.
- Enhanced Makefile commands for better service management and database operations.
- Introduced user-tenant membership system with role-based access control.
- Added comprehensive documentation for multi-tenant setup and usage.
- Fixed issues with document visibility in multi-tenant environments.
- Implemented necessary database migrations for user memberships and legacy support.

* feat(audit): Add final audit report for multi-tenant implementation

- Documented overall assessment, architecture overview, test results, security findings, and recommendations.
- Included detailed findings on critical security issues and architectural concerns.

fix(security): Implement security fixes based on audit findings

- Removed global RAG fallback and enforced strict tenant context.
- Configured super-admin access and required user authentication for tenant access.
- Cleared localStorage on logout and improved error handling in WebUI.

chore(logs): Create task logs for audit and security fixes implementation

- Documented actions, decisions, and next steps for both audit and security fixes.
- Summarized test results and remaining recommendations.

chore(scripts): Enhance development stack management scripts

- Added scripts for cleaning, starting, and stopping the development stack.
- Improved output messages and ensured graceful shutdown of services.

feat(starter): Initialize PostgreSQL with AGE extension support

- Created initialization scripts for PostgreSQL extensions including uuid-ossp, vector, and AGE.
- Ensured successful installation and verification of extensions.

* feat: Implement auto-select for first tenant and KB on initial load in WebUI

- Removed WEBUI_INITIAL_STATE_FIX.md as the issue is resolved.
- Added useTenantInitialization hook to automatically select the first available tenant and KB on app load.
- Integrated the new hook into the Root component of the WebUI.
- Updated RetrievalTesting component to ensure a KB is selected before allowing user interaction.
- Created end-to-end tests for multi-tenant isolation and real service interactions.
- Added scripts for starting, stopping, and cleaning the development stack.
- Enhanced API and tenant routes to support tenant-specific pipeline status initialization.
- Updated constants for backend URL to reflect the correct port.
- Improved error handling and logging in various components.

* feat: Add multi-tenant support with enhanced E2E testing scripts and client functionality

* update client

* Add integration and unit tests for multi-tenant API, models, security, and storage

- Implement integration tests for tenant and knowledge base management endpoints in `test_tenant_api_routes.py`.
- Create unit tests for tenant isolation, model validation, and role permissions in `test_tenant_models.py`.
- Add security tests to enforce role-based permissions and context validation in `test_tenant_security.py`.
- Develop tests for tenant-aware storage operations and context isolation in `test_tenant_storage_phase3.py`.

* feat(e2e): Implement OpenAI model support and database reset functionality

* Add comprehensive test suite for gpt-5-nano compatibility

- Introduced tests for parameter normalization, embeddings, and entity extraction.
- Implemented direct API testing for gpt-5-nano.
- Validated .env configuration loading and OpenAI API connectivity.
- Analyzed reasoning token overhead with various token limits.
- Documented test procedures and expected outcomes in README files.
- Ensured all tests pass for production readiness.

* kg(postgres_impl): ensure AGE extension is loaded in session and configure graph initialization

* dev: add hybrid dev helper scripts, Makefile, docker-compose.dev-db and local development docs

* feat(dev): add dev helper scripts and local development documentation for hybrid setup

* feat(multi-tenant): add detailed specifications and logs for multi-tenant improvements, including UX, backend handling, and ingestion pipeline

* feat(migration): add generated tenant/kb columns, indexes, triggers; drop unused tables; update schema and docs

* test(backward-compat): adapt tests to new StorageNameSpace/TenantService APIs (use concrete dummy storages)

* chore: multi-tenant and UX updates — docs, webui, storage, tenant service adjustments

* tests: stabilize integration tests + skip external services; fix multi-tenant API behavior and idempotency

- gpt5_nano_compatibility: add pytest-asyncio markers, skip when OPENAI key missing, prevent module-level asyncio.run collection, add conftest
- Ollama tests: add server availability check and skip markers; avoid pytest collection warnings by renaming helper classes
- Graph storage tests: rename interactive test functions to avoid pytest collection
- Document & Tenant routes: support external_ids for idempotency; ensure HTTPExceptions are re-raised
- LightRAG core: support external_ids in apipeline_enqueue_documents and idempotent logic
- Tests updated to match API changes (tenant routes & document routes)
- Add logs and scripts for inspection and audit
2025-12-04 16:04:21 +08:00

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#!/bin/bash
# ============================================================================
# LightRAG Hybrid Development Stack
# ============================================================================
# Runs PostgreSQL + Redis in Docker, API + WebUI natively on host
# Uses configuration from .env file at project root
# ============================================================================
set -e
# Colors for beautiful output
RED='\033[0;31m'
GREEN='\033[0;32m'
YELLOW='\033[1;33m'
BLUE='\033[0;34m'
CYAN='\033[0;36m'
MAGENTA='\033[0;35m'
BOLD='\033[1m'
DIM='\033[2m'
NC='\033[0m' # No Color
# Get the directory where this script is located
SCRIPT_DIR="$(cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
PROJECT_ROOT="$SCRIPT_DIR"
ENV_FILE="$PROJECT_ROOT/.env"
COMPOSE_FILE="$PROJECT_ROOT/docker-compose.dev-db.yml"
# PID files for background processes
API_PID_FILE="/tmp/lightrag-dev-api.pid"
WEBUI_PID_FILE="/tmp/lightrag-dev-webui.pid"
# Log files
API_LOG="/tmp/lightrag-dev-api.log"
WEBUI_LOG="/tmp/lightrag-dev-webui.log"
# ============================================================================
# Helper Functions
# ============================================================================
print_banner() {
echo ""
echo -e "${BLUE}╔══════════════════════════════════════════════════════════════════════════╗${NC}"
echo -e "${BLUE}${NC} ${CYAN}${BOLD}⚡ LightRAG Hybrid Development Stack${NC} ${BLUE}${NC}"
echo -e "${BLUE}${NC} ${DIM}PostgreSQL + Redis in Docker │ API + WebUI on Host${NC} ${BLUE}${NC}"
echo -e "${BLUE}╚══════════════════════════════════════════════════════════════════════════╝${NC}"
echo ""
}
print_section() {
echo -e "\n${YELLOW}━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━${NC}"
echo -e "${YELLOW} $1${NC}"
echo -e "${YELLOW}━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━${NC}"
}
print_step() {
echo -e " ${CYAN}${NC} $1"
}
print_success() {
echo -e " ${GREEN}${NC} $1"
}
print_error() {
echo -e " ${RED}${NC} $1"
}
print_warning() {
echo -e " ${YELLOW}${NC} $1"
}
print_info() {
echo -e " ${BLUE}${NC} $1"
}
# Load environment variables from .env file
load_env() {
if [ -f "$ENV_FILE" ]; then
# Export variables from .env, handling comments and empty lines
# Use while-read loop for broader shell compatibility (macOS, etc.)
while IFS='=' read -r key value; do
# Skip empty lines and comments
[[ -z "$key" || "$key" =~ ^[[:space:]]*# ]] && continue
# Trim leading/trailing whitespace from key
key=$(echo "$key" | sed 's/^[[:space:]]*//;s/[[:space:]]*$//')
# Skip if key is empty after trimming
[ -z "$key" ] && continue
# Remove surrounding quotes from value and carriage return
value=$(echo "$value" | sed "s/^['\"]//;s/['\"]$//;s/\r$//")
# Export the variable
export "$key=$value"
done < "$ENV_FILE"
# Extract Redis port from REDIS_URI if set
if [ -n "$REDIS_URI" ]; then
REDIS_PORT=$(echo "$REDIS_URI" | sed -n 's/.*:\([0-9]*\)$/\1/p')
fi
REDIS_PORT=${REDIS_PORT:-16379}
export REDIS_PORT
fi
}
# Check if a command exists
check_command() {
if ! command -v "$1" &> /dev/null; then
print_error "'$1' is not installed or not in PATH"
return 1
fi
return 0
}
# Check if a port is in use
check_port() {
local port=$1
local name=$2
if lsof -Pi :$port -sTCP:LISTEN -t >/dev/null 2>&1; then
print_warning "Port $port ($name) is already in use"
return 1
fi
return 0
}
# Wait for a service to be ready
wait_for_service() {
local url=$1
local name=$2
local max_attempts=${3:-60}
local attempt=1
local log_file=${4:-""}
printf " ${DIM}Waiting for $name"
while [ $attempt -le $max_attempts ]; do
if curl -s "$url" > /dev/null 2>&1; then
echo -e "${NC}"
print_success "$name is ready"
return 0
fi
# Check if process is still running (for API server)
if [ -n "$log_file" ] && [ -f "$log_file" ]; then
if grep -q "ERROR:" "$log_file" 2>/dev/null; then
echo -e "${NC}"
print_error "$name encountered an error during startup"
echo ""
echo -e " ${YELLOW}Recent log entries:${NC}"
tail -20 "$log_file" | head -15
echo ""
return 1
fi
fi
echo -n "."
sleep 1
attempt=$((attempt + 1))
done
echo -e "${NC}"
print_warning "$name may take longer to start"
return 1
}
# Cleanup function
cleanup() {
local exit_code=$?
if [ $exit_code -ne 0 ]; then
echo -e "\n${RED}Script interrupted or failed (exit code: $exit_code)${NC}"
echo -e "${YELLOW}Run './dev-stop.sh' to clean up any started services${NC}"
fi
}
trap cleanup ERR SIGINT SIGTERM
# ============================================================================
# Main Script
# ============================================================================
### Parse args
AUTO_CONFIRM=false
while [[ "$#" -gt 0 ]]; do
case "$1" in
-y|--yes)
AUTO_CONFIRM=true
shift
;;
*)
shift
;;
esac
done
print_banner
# Check for .env file
if [ ! -f "$ENV_FILE" ]; then
print_error ".env file not found at project root!"
echo ""
echo -e " ${YELLOW}Create one from the example:${NC}"
echo -e " cp env.example .env"
echo -e " # Then edit .env with your configuration"
echo ""
exit 1
fi
# Load environment
load_env
# Display key runtime configuration (models / providers) and show partial view of keys
print_section "Configuration Summary"
print_step "LLM (text generation/extraction): ${LLM_BINDING:-<not-set>} / ${LLM_MODEL:-<not-set>}"
print_step "Embeddings (vector/embedding): ${EMBEDDING_BINDING:-<not-set>} / ${EMBEDDING_MODEL:-<not-set>} (${EMBEDDING_DIM:-?} dim)"
mask_key() {
key="$1"
if [ -z "$key" ]; then
echo "<not-set>"
return
fi
# Show first 6 and last 4 characters (if long enough)
if [ ${#key} -le 12 ]; then
echo "${key:0:3}****${key: -3}"
else
echo "${key:0:6}****${key: -4}"
fi
}
print_step "LLM API key: $(mask_key "$LLM_BINDING_API_KEY")"
print_step "Embedding API key: $(mask_key "$EMBEDDING_BINDING_API_KEY")"
# Check ports early and optionally stop/kill conflicting processes or containers
assess_and_handle_ports() {
local ports_to_check=()
# Postgres and Redis will be started by docker compose but still inspect host occupancy
ports_to_check+=("${POSTGRES_PORT:-15432}:postgres")
ports_to_check+=("${REDIS_PORT:-16379}:redis")
ports_to_check+=("${PORT:-9621}:api")
ports_to_check+=("5173:webui")
# Our own dev containers - safe to restart without prompting
local OUR_CONTAINERS="lightrag-dev-postgres|lightrag-dev-redis"
for p in "${ports_to_check[@]}"; do
hostport=${p%%:*}
service=${p##*:}
# Check docker containers that publish this port (macOS compatible - no mapfile)
container_using=""
while IFS= read -r line; do
[ -z "$line" ] && continue
name=$(echo "$line" | awk '{print $1}')
ports=$(echo "$line" | cut -d' ' -f2-)
if echo "$ports" | grep -qE ":${hostport}->|0\.0\.0\.0:${hostport}->"; then
container_using="$name"
break
fi
done < <(docker ps --format '{{.Names}} {{.Ports}}' 2>/dev/null || true)
if [ -n "$container_using" ]; then
# Check if it's one of our own dev containers - safe to auto-restart
if echo "$container_using" | grep -qE "^($OUR_CONTAINERS)$"; then
print_info "Port $hostport ($service): Our dev container '$container_using' is running (will be restarted by docker-compose)"
continue
fi
print_warning "Port $hostport for $service is used by Docker container: $container_using"
if [ "$AUTO_CONFIRM" = true ]; then
print_step "Stopping container $container_using..."
docker stop "$container_using" >/dev/null 2>&1 || true
print_success "Stopped container $container_using"
elif [ -t 1 ] && [ -t 0 ]; then
# Only prompt if both stdout and stdin are terminals (truly interactive)
read -r -p "Stop Docker container '$container_using' using port $hostport? [y/N] " answer </dev/tty
if echo "$answer" | grep -iq "^y"; then
print_step "Stopping container $container_using..."
docker stop "$container_using" >/dev/null 2>&1 || true
print_success "Stopped container $container_using"
else
print_warning "Left container running: $container_using. This may prevent the dev stack from starting correctly."
fi
else
# Non-interactive mode: warn but don't block
print_warning "Non-interactive mode: skipping prompt. Use --yes to auto-stop foreign containers."
fi
continue
fi
# Check native process using port
pid=$(lsof -ti :$hostport -sTCP:LISTEN -P -n 2>/dev/null || true)
if [ -n "$pid" ]; then
pname=$(ps -p "$pid" -o comm= 2>/dev/null || echo "<unknown>")
# Check if this is likely our own dev server (Python process on api/webui ports)
is_our_process=false
if [ "$service" = "api" ] || [ "$service" = "webui" ]; then
# Check if process command line contains lightrag or uvicorn
cmdline=$(ps -p "$pid" -o args= 2>/dev/null || echo "")
if echo "$cmdline" | grep -qiE "lightrag|uvicorn|bun.*dev|vite"; then
is_our_process=true
fi
fi
if [ "$is_our_process" = true ]; then
print_info "Port $hostport ($service): Our previous dev process PID:$pid - will restart"
kill -9 "$pid" 2>/dev/null || true
sleep 1
print_success "Stopped previous $service process"
elif [ "$AUTO_CONFIRM" = true ]; then
print_warning "Port $hostport for $service is used by process PID:$pid ($pname)"
print_step "Killing process $pid on port $hostport..."
kill -9 "$pid" 2>/dev/null || true
print_success "Killed PID $pid"
elif [ -t 1 ] && [ -t 0 ]; then
# Only prompt if both stdout and stdin are terminals (truly interactive)
print_warning "Port $hostport for $service is used by process PID:$pid ($pname)"
read -r -p "Kill process PID $pid ($pname) on port $hostport? [y/N] " answer </dev/tty
if echo "$answer" | grep -iq "^y"; then
print_step "Killing process $pid on port $hostport..."
kill -9 "$pid" 2>/dev/null || true
print_success "Killed PID $pid"
else
print_warning "Left native process $pid running. It may block starting the dev stack."
fi
else
# Non-interactive mode: warn but don't block
print_warning "Port $hostport for $service is used by process PID:$pid ($pname)"
print_warning "Non-interactive mode: skipping prompt. Use --yes to auto-kill processes."
fi
else
print_success "Port $hostport ($service) is free"
fi
done
}
if [ "$AUTO_CONFIRM" = true ]; then
print_section "Startup Policy"
print_info "Auto-confirmation is enabled (will stop conflicting containers/processes)"
fi
# Assess ports before starting services
print_section "Port assessment"
assess_and_handle_ports
# ============================================================================
# Step 1: Prerequisites Check
# ============================================================================
print_section "Step 1/5: Checking Prerequisites"
MISSING_DEPS=0
print_step "Checking required tools..."
if check_command docker; then
print_success "Docker installed"
else
MISSING_DEPS=1
fi
if check_command python3 || check_command python; then
PYTHON_CMD=$(command -v python3 || command -v python)
print_success "Python installed ($PYTHON_CMD)"
else
MISSING_DEPS=1
fi
# Check for bun or npm for WebUI
if check_command bun; then
WEBUI_CMD="bun"
print_success "Bun installed (will use for WebUI)"
elif check_command npm; then
WEBUI_CMD="npm"
print_success "npm installed (will use for WebUI)"
else
print_error "Neither bun nor npm found - required for WebUI"
MISSING_DEPS=1
fi
if [ $MISSING_DEPS -eq 1 ]; then
echo ""
print_error "Missing dependencies. Please install them and try again."
exit 1
fi
# ============================================================================
# Step 2: Start Docker Services (PostgreSQL + Redis)
# ============================================================================
print_section "Step 2/5: Starting Docker Services (PostgreSQL + Redis)"
print_step "Stopping any existing dev containers..."
docker compose -f "$COMPOSE_FILE" down --remove-orphans 2>/dev/null || true
print_step "Starting PostgreSQL and Redis..."
docker compose -f "$COMPOSE_FILE" --env-file "$ENV_FILE" up -d
# Wait for PostgreSQL
print_step "Waiting for PostgreSQL to be ready..."
for i in {1..30}; do
if docker exec lightrag-dev-postgres pg_isready -U "${POSTGRES_USER:-lightrag}" -d "${POSTGRES_DATABASE:-lightrag_multitenant}" > /dev/null 2>&1; then
print_success "PostgreSQL is ready (port ${POSTGRES_PORT:-15432})"
break
fi
if [ $i -eq 30 ]; then
print_error "PostgreSQL failed to start after 30 seconds"
echo ""
echo -e " ${YELLOW}Check logs with:${NC} docker logs lightrag-dev-postgres"
exit 1
fi
sleep 1
done
# Wait for Redis
print_step "Waiting for Redis to be ready..."
for i in {1..15}; do
if docker exec lightrag-dev-redis redis-cli ping > /dev/null 2>&1; then
print_success "Redis is ready (port ${REDIS_PORT:-16379})"
break
fi
if [ $i -eq 15 ]; then
print_error "Redis failed to start"
exit 1
fi
sleep 1
done
# Extra delay to ensure databases are fully initialized
print_step "Ensuring databases are fully initialized..."
sleep 3
print_success "Database services ready"
# ============================================================================
# Step 3: Start API Server
# ============================================================================
print_section "Step 3/5: Starting LightRAG API Server"
API_PORT=${PORT:-9621}
# Check if API port is available
if ! check_port $API_PORT "API Server"; then
print_warning "Stopping existing process on port $API_PORT..."
if [ -f "$API_PID_FILE" ]; then
kill $(cat "$API_PID_FILE") 2>/dev/null || true
rm -f "$API_PID_FILE"
fi
# Also try to kill any process on that port
lsof -ti:$API_PORT | xargs kill -9 2>/dev/null || true
sleep 2
fi
print_step "Starting API server on port $API_PORT..."
# Ensure AUTH credentials are set
export AUTH_USER=${AUTH_USER:-admin}
export AUTH_PASS=${AUTH_PASS:-admin123}
# Start API server in background
cd "$PROJECT_ROOT"
$PYTHON_CMD -m lightrag.api.lightrag_server \
--host 0.0.0.0 \
--port $API_PORT \
> "$API_LOG" 2>&1 &
API_PID=$!
echo $API_PID > "$API_PID_FILE"
print_info "API server starting (PID: $API_PID)"
# Wait for API (with log file monitoring)
if ! wait_for_service "http://localhost:$API_PORT/health" "API Server" 60 "$API_LOG"; then
print_error "API Server failed to start!"
echo ""
echo -e " ${YELLOW}Full logs:${NC} tail -f $API_LOG"
echo ""
echo -e " ${YELLOW}Common issues:${NC}"
echo -e " • Database connection error - wait a few seconds and try again"
echo -e " • Missing LLM_BINDING_API_KEY in .env"
echo -e " • Port 9621 already in use"
echo ""
exit 1
fi
# ============================================================================
# Step 4: Start WebUI
# ============================================================================
print_section "Step 4/5: Starting WebUI Development Server"
WEBUI_PORT=5173
WEBUI_DIR="$PROJECT_ROOT/lightrag_webui"
if [ ! -d "$WEBUI_DIR" ]; then
print_error "WebUI directory not found: $WEBUI_DIR"
exit 1
fi
# Check if WebUI port is available
if ! check_port $WEBUI_PORT "WebUI"; then
print_warning "Stopping existing process on port $WEBUI_PORT..."
if [ -f "$WEBUI_PID_FILE" ]; then
kill $(cat "$WEBUI_PID_FILE") 2>/dev/null || true
rm -f "$WEBUI_PID_FILE"
fi
lsof -ti:$WEBUI_PORT | xargs kill -9 2>/dev/null || true
sleep 2
fi
cd "$WEBUI_DIR"
# Install dependencies if needed
if [ ! -d "node_modules" ]; then
print_step "Installing WebUI dependencies..."
if [ "$WEBUI_CMD" = "bun" ]; then
bun install
else
npm install
fi
fi
print_step "Starting WebUI dev server on port $WEBUI_PORT..."
# Set API base URL for the frontend
export VITE_API_BASE_URL="http://localhost:$API_PORT"
# Start WebUI in background
if [ "$WEBUI_CMD" = "bun" ]; then
bun run dev > "$WEBUI_LOG" 2>&1 &
else
npm run dev-no-bun > "$WEBUI_LOG" 2>&1 &
fi
WEBUI_PID=$!
echo $WEBUI_PID > "$WEBUI_PID_FILE"
print_info "WebUI server starting (PID: $WEBUI_PID)"
# Wait for WebUI
wait_for_service "http://localhost:$WEBUI_PORT" "WebUI" 30
# ============================================================================
# Step 5: Display Summary
# ============================================================================
print_section "Step 5/5: Stack Ready!"
echo ""
echo -e "${GREEN}╔══════════════════════════════════════════════════════════════════════════╗${NC}"
echo -e "${GREEN}${NC} ${BOLD}🎉 LightRAG Development Stack is Running!${NC} ${GREEN}${NC}"
echo -e "${GREEN}╚══════════════════════════════════════════════════════════════════════════╝${NC}"
echo ""
echo -e "${CYAN}${BOLD}📡 Service URLs:${NC}"
echo -e " ┌─────────────────────────────────────────────────────────────────────┐"
echo -e "${BOLD}WebUI${NC} ${BLUE}http://localhost:$WEBUI_PORT${NC}"
echo -e "${BOLD}API Server${NC} ${BLUE}http://localhost:$API_PORT${NC}"
echo -e "${BOLD}API Docs${NC} ${BLUE}http://localhost:$API_PORT/docs${NC}"
echo -e "${BOLD}Health Check${NC} ${BLUE}http://localhost:$API_PORT/health${NC}"
echo -e " └─────────────────────────────────────────────────────────────────────┘"
echo ""
echo -e "${CYAN}${BOLD}🗄️ Database Services (Docker):${NC}"
echo -e " ┌─────────────────────────────────────────────────────────────────────┐"
echo -e "${BOLD}PostgreSQL${NC} localhost:${POSTGRES_PORT:-15432}"
echo -e " │ User: ${POSTGRES_USER:-lightrag} │ DB: ${POSTGRES_DATABASE:-lightrag_multitenant}"
echo -e "${BOLD}Redis${NC} localhost:${REDIS_PORT:-16379}"
echo -e " └─────────────────────────────────────────────────────────────────────┘"
echo ""
echo -e "${CYAN}${BOLD}🔐 Login Credentials:${NC}"
echo -e " ┌─────────────────────────────────────────────────────────────────────┐"
echo -e "${BOLD}Username${NC} ${YELLOW}${AUTH_USER:-admin}${NC}"
echo -e "${BOLD}Password${NC} ${YELLOW}${AUTH_PASS:-admin123}${NC}"
echo -e " └─────────────────────────────────────────────────────────────────────┘"
echo ""
echo -e "${CYAN}${BOLD}📋 Process Info:${NC}"
echo -e " • API Server PID: $API_PID"
echo -e " • WebUI PID: $WEBUI_PID"
echo ""
echo -e "${CYAN}${BOLD}📄 Log Files:${NC}"
echo -e " • API Log: ${DIM}tail -f $API_LOG${NC}"
echo -e " • WebUI Log: ${DIM}tail -f $WEBUI_LOG${NC}"
echo ""
echo -e "${CYAN}${BOLD}🛑 To Stop:${NC}"
echo -e " Run: ${YELLOW}./dev-stop.sh${NC} or ${YELLOW}make dev-stop${NC}"
echo ""
echo -e "${DIM}Configuration loaded from: $ENV_FILE${NC}"
echo ""
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