Chapter 4: Multi-Agent Program Compatibility
March 21, 2026 ยท View on GitHub
Welcome to Chapter 4: Multi-Agent Program Compatibility. In this part of Superset Terminal Tutorial: Command Center for Parallel Coding Agents, you will build an intuitive mental model first, then move into concrete implementation details and practical production tradeoffs.
Superset is designed to run any terminal-native coding agent, not only one vendor stack.
Supported Patterns
- Claude Code
- OpenAI Codex CLI
- OpenCode
- other CLI agents that run in terminal sessions
Source References
Summary
You now know how Superset functions as a universal orchestrator for heterogeneous agent stacks.
Next: Chapter 5: Monitoring, Diff, and Review Workflow
Source Code Walkthrough
bunfig.toml
The bunfig module in bunfig.toml handles a key part of this chapter's functionality:
[install]
linker = "isolated" # Prevent hoisting from resolving `path-scurry@2` to `lru-cache@6` (missing `LRUCache`), which breaks the `@superset/desktop` postinstall native rebuild.
This module is important because it defines how Superset Terminal Tutorial: Command Center for Parallel Coding Agents implements the patterns covered in this chapter.
.codex/config.toml
The config module in .codex/config.toml handles a key part of this chapter's functionality:
[mcp_servers.superset]
type = "sse"
url = "https://api.superset.sh/api/agent/mcp"
[mcp_servers.expo-mcp]
type = "sse"
url = "https://mcp.expo.dev/mcp"
enabled = false
[mcp_servers.maestro]
command = "maestro"
args = ["mcp"]
[mcp_servers.neon]
type = "sse"
url = "https://mcp.neon.tech/mcp"
[mcp_servers.linear]
type = "sse"
url = "https://mcp.linear.app/mcp"
[mcp_servers.sentry]
type = "sse"
url = "https://mcp.sentry.dev/mcp"
[mcp_servers.desktop-automation]
command = "bun"
args = ["run", "packages/desktop-mcp/src/bin.ts"]
This module is important because it defines how Superset Terminal Tutorial: Command Center for Parallel Coding Agents implements the patterns covered in this chapter.
.mcp.json
The .mcp module in .mcp.json handles a key part of this chapter's functionality:
{
"mcpServers": {
"superset": {
"type": "http",
"url": "https://api.superset.sh/api/agent/mcp"
},
"expo-mcp": {
"type": "http",
"url": "https://mcp.expo.dev/mcp",
"enabled": false
},
"maestro": {
"command": "maestro",
"args": ["mcp"]
},
"neon": {
"type": "http",
"url": "https://mcp.neon.tech/mcp"
},
"linear": {
"type": "http",
"url": "https://mcp.linear.app/mcp"
},
"sentry": {
"type": "http",
"url": "https://mcp.sentry.dev/mcp"
},
"posthog": {
"type": "http",
"url": "https://mcp.posthog.com/mcp"
},
"desktop-automation": {
"command": "bun",
"args": ["run", "packages/desktop-mcp/src/bin.ts"]
}
This module is important because it defines how Superset Terminal Tutorial: Command Center for Parallel Coding Agents implements the patterns covered in this chapter.
How These Components Connect
flowchart TD
A[bunfig]
B[config]
C[.mcp]
A --> B
B --> C