ctx vs tldr MCP Gateway

ctx is an Agentic Development Environment (ADE) that solves the proliferation problem every developer hitting multi-agent workflows faces: you want to run Claude Code on one task, Codex on another, and Cursor on a third — but you end up with three terminal windows, three context streams, and no unified way to review what any of them did. ctx provides one controlled surface for all of them, with containerized disk and network isolation, durable transcripts, and a merge queue system that keeps parallel worktrees from colliding. The security model is where ctx gets interesting for teams. Platform and security teams get a single controlled runtime instead of hoping developers are running agents responsibly. Agents operate with bounded autonomy rather than requiring constant approval — you set the disk and network controls upfront, then let them run. All tasks, sessions, diffs, and artifacts land in one review surface you can search and audit. Shown on Hacker News today and currently free with an open-source GitHub repository (github.com/ctxrs/ctx), ctx is positioning itself as the layer between developers and their AI agents — the place where you actually manage what the agents are doing rather than just talking to them one at a time. With 23 supported CLI agents including Claude Code, Codex, Hermes Agent, and Amp, it's already broad enough to be genuinely useful.

tldr is a local proxy that sits between your AI coding harness and upstream MCP servers, solving one of the most underappreciated problems in agentic workflows: context bloat from tool schema proliferation. When you connect GitHub MCP, filesystem MCP, and a few others, you can easily be sending 24,000+ tokens of tool schemas to the model before any work begins. Instead of passing all those schemas directly, tldr exposes exactly five wrapper tools to the model: search_tools, execute_plan, call_raw, inspect_tool, and get_result. The model learns which underlying tools exist on-demand through search_tools, then calls them through the proxy. GitHub MCP's 24,473-token schema surface compresses to 3,482 tokens — an 86% reduction. Output responses are further compressed through field stripping, a 4,096-token cap, and a 64KB byte limit. This is a genuinely practical solution for power users running multi-MCP setups who've noticed degraded performance as their tool count grows. The tradeoff is one extra hop of indirection, but the token savings pay for themselves in improved model attention and lower API costs.