07 Apr 2026

feedDjango community aggregator: Community blog posts

I've Been the Sole Developer of a Healthcare Membership Platform for 6+ Years. Here's What It Looks Like.

A few years back, a healthcare professional association reached out to me. They regulate and support thousands of practitioners across their region: licensing, insurance, events, the whole deal. Their website couldn't keep up.

What they needed was a platform that could handle member applications, renewals, payments, event registrations, an …

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07 Apr 2026 7:21am GMT

06 Apr 2026

feedDjango community aggregator: Community blog posts

I patched GSD, and why you should patch it too

GSD (Get Shit Done) is one of the best things that's happened to my development workflow. If you haven't heard of it, it's a meta-prompting and context engineering system for Claude Code (and OpenCode). It breaks your work into milestones and phases, spawns fresh subagents with clean contexts for each task, and solves the context rot problem that kills quality in long AI sessions. I wrote about my full setup on my AI toolbox page.

GSD is great out of the box. But I wanted it to be mine.

I've been using GSD daily for weeks now, and over time I kept bumping into the same friction points: the plan review was too shallow, the verification step was too manual, and the UI audit felt incomplete. So I did what any developer would do. I patched it.

This post is about the three patches I made, how they work, why I made them, and how you can build your own. More importantly, it's about why you should be patching your tools. Not just GSD; any tool you use daily.

The philosophy: own your tools

Here's the thing about AI tools right now: we're at a point in time where you can design your own toolbox exactly the way you want it. Not just pick tools, but shape them. Customize them. Make them fit your brain, your workflow, your team.

GSD is open source. Its workflows are markdown files. Its commands are markdown files. Everything is text. That means you can read them, understand them, and rewrite the parts that don't work for you. You don't need to fork the whole project or wait for an upstream PR to get merged. You just… change the files.

The tradeoff is that GSD updates will overwrite your changes. I'll show you how I handle that. But first, let me show you what I changed and why.

What I patched

Three patches, each solving a specific pain point:

Patch Problem Solution
Multi-model adversarial review Stock review is shallow (5-point checklist, single model) 6 independent AI models, 8-dimension adversarial framework
Auto-verify (--auto flag) Verification is fully manual (test every item by hand) Automated playwright + curl checks, human only for subjective items
Cross-AI UI review Single auditor for inherently subjective UI evaluation 6 models independently scoring all 6 UI pillars

Let's go through each one.

Patch 1: Multi-model adversarial review

This was the first patch and the one that started it all.

The stock GSD review runs a single model reviewing its own plans through a 5-point checklist. It's… fine. But after using it for a while, I noticed the reviews were surface-level. They'd catch obvious things (missing tests, unclear task descriptions) but they wouldn't catch architectural blind spots, failure modes, or the kind of problems that bite you in production two weeks later.

So I replaced it with an 8-dimension adversarial review framework, executed by 6 independent AI models in parallel.

The 6 reviewers

All reviewers get the exact same prompt with the project context, phase plans, and requirements. They review independently and don't see each other's output:

These models are all available through Lazer's LiteLLM proxy via OpenCode, except Claude which runs through its own CLI. The key insight here is that opencode run -m <model> lets you invoke any model as a one-shot command, which makes it perfect for this kind of parallel execution.

The 8 review dimensions

Instead of a 5-point checklist, each reviewer evaluates the plan across 8 dimensions:

  1. Goal Alignment: Does it actually solve the stated problem, or does it drift?
  2. Architecture & Design Coherence: Does it fit the existing system, or fight it?
  3. Failure Mode Analysis: What happens when things go wrong?
  4. Dependency & Ordering Risks: Are there hidden sequencing constraints?
  5. Security & Data Integrity: Are new attack surfaces introduced?
  6. Testing & Verification Strategy: Will the tests actually catch regressions?
  7. Operational Readiness: How will you know if it's broken in production?
  8. Missing Pieces: What implicit assumptions need to be explicit?

Each dimension gets a verdict: PASS, FLAG (minor concern), or BLOCK (must fix before execution). With evidence and actionable recommendations, not vague advice.

The review prompt is deliberately adversarial. It tells the reviewer:

You are a senior staff engineer conducting a deep adversarial review. Do not be polite; be precise. Your job is to find what will break, what was forgotten, and what will cause regret in 6 months. Assume the plan authors are competent but blind-spotted.

How it runs

When you run /gsd:review (or /gsd-review in OpenCode), the workflow:

  1. Detects which CLIs are available (opencode and claude)
  2. Gathers the phase context (PROJECT.md, ROADMAP.md, PLAN.md files, REQUIREMENTS.md, etc.)
  3. Builds a structured review prompt and writes it to a temp file
  4. Invokes all 6 reviewers in parallel; each one gets its own bash tool call
# All run simultaneously
opencode run -m lazer/openai/gpt-5.4 "$(cat /tmp/gsd-review-prompt-4.md)" > /tmp/gsd-review-gpt-5.4-4.md
opencode run -m lazer/gemini/gemini-3.1-pro-preview "$(cat /tmp/gsd-review-prompt-4.md)" > /tmp/gsd-review-gemini-pro-4.md
opencode run -m lazer/deepinfra/MiniMaxAI/MiniMax-M2.5 "$(cat /tmp/gsd-review-prompt-4.md)" > /tmp/gsd-review-minimax-4.md
opencode run -m lazer/deepinfra/moonshotai/Kimi-K2.5-Turbo "$(cat /tmp/gsd-review-prompt-4.md)" > /tmp/gsd-review-kimi-4.md
opencode run -m lazer/deepinfra/zai-org/GLM-5 "$(cat /tmp/gsd-review-prompt-4.md)" > /tmp/gsd-review-glm-5-4.md
claude -p --model opus "$(cat /tmp/gsd-review-prompt-4.md)" > /tmp/gsd-review-claude-4.md

Since they run in parallel, total review time is about 1-2 minutes regardless of how many reviewers you have. The original version ran them sequentially, which took ~6 minutes. More on that bug below.

  1. Combines all reviews into a REVIEWS.md file with a consensus summary

The consensus summary is the real gem. It highlights blockers (issues raised by 2+ reviewers), agreed concerns, divergent views, and (most importantly) unique insights where a single reviewer caught something all others missed. Those blind spots are exactly why multi-model review exists.

I don't have a single dramatic "GLM-5 saved the day" story, but the pattern is clear across multiple uses: every review has at least one or two unique insights from a single model. Different models have different biases, different training data, and different ways of reasoning about code. When 5 out of 6 reviewers say PASS and one says BLOCK, that's worth investigating.

After the review, you feed it back into planning:

/gsd:plan-phase 4 --reviews

The planner reads the REVIEWS.md and addresses the concerns. A plan that survives adversarial review from 6 independent AI systems is much more robust than one reviewed by a single model.

Patch 2: Auto-verify with --auto

The stock verify-work workflow is fully manual: you test every single item by hand. The workflow presents each test, you check it manually, report pass or fail. For a phase with 10-15 tests, that's a lot of time spent clicking around and typing "yes" over and over for things that could obviously be automated.

My patch adds an --auto flag. Without it, the workflow is 100% identical to the original. With it, the workflow tries to automate the mechanical checks before falling through to the interactive loop.

Run it like this:

/gsd:verify-work 4 --auto

What --auto does

  1. Checks for playwright-cli. If it's not installed, warns you and offers to continue without it (UI tests become manual). If it is, you get automated browser checks.

  2. Auto-detects the base URL. Scans .env, PROJECT.md, docker-compose.yml, and package.json for common patterns. Presents options so you can confirm or change.

  3. Pings the URL. Makes sure the app is actually running before trying to test anything. If it's not reachable, offers retry/skip/change URL.

  4. Checks for auth credentials. Looks for test tokens and credentials in .env files, test fixtures, and seed scripts. For API tests, it'll ask for a bearer token or API key if it can't find one. For UI tests, it'll ask for login credentials or use a dev bypass if one exists.

  5. Classifies each test. Routes tests to the right tool:

Test references Tool
Pages, routes, visual appearance, user flows playwright-cli
API endpoints, response codes, data shapes curl
Form submission → API response playwright-cli (covers both)
Performance feel, subjective UX stays interactive

  1. Runs playwright smoke checks. For UI tests: navigates to the page, checks it loads without console errors, verifies key elements are visible, does basic click navigation. Runs playwright-cli show so you can watch.

  2. Runs curl checks. For API tests: endpoint reachability, response shape verification, CRUD with cleanup (create a resource, verify it, update it, delete it, clean up), and error handling (invalid payload → 400, missing ID → 404).

  3. Reports and continues. Shows you what passed, what failed, and what needs manual testing. Then drops into the normal interactive loop for remaining tests only.

Confidence-based failure handling

Not all automated failures are created equal. The patch distinguishes between high-confidence failures and low-confidence ones:

The result: I typically only need to manually verify 2-3 subjective items instead of 10-15 total tests. It dramatically reduces UAT time while keeping the human in the loop for things that actually need human judgment.

Patch 3: Cross-AI UI review

Same concept as the adversarial plan review, but for frontend code.

GSD has a built-in UI auditor that runs a 6-pillar visual audit: Copywriting, Visuals, Color, Typography, Spacing, and Experience Design. Each pillar gets scored 1-4. It's useful, but it's one model's opinion about something that's inherently subjective.

My patch adds a step after the primary audit: the same 6 external models independently score all 6 pillars and challenge the primary auditor's findings. The prompt explicitly tells them:

Do not be deferential to the primary review. If you think a score is wrong, say so. If you think a critical issue was missed, flag it. Different eyes catch different things.

The result is a score comparison table appended to UI-REVIEW.md:

| Pillar | Primary | GPT-5.4 | Gemini | MiniMax | Kimi | GLM-5 | Claude | Avg |
|-------------+---------+---------+--------+---------+------+-------+--------+-----|
| Copywriting | 3/4 | 3/4 | 2/4 | 3/4 | 3/4 | 3/4 | 3/4 | 2.8 |
| Visuals | 4/4 | 3/4 | 3/4 | 4/4 | 3/4 | 4/4 | 3/4 | 3.3 |
| ... | | | | | | | | |

Plus sections for: issues the primary auditor missed (caught by 2+ cross-AI reviewers), score disagreements worth investigating, and validated findings with high confidence.

The workflow then routes you based on severity. If there are many issues (5+ fixes, any pillar ≤ 2/4, or cross-AI average below 16/24), it tells you to fix before moving on and suggests the right GSD command. If things look good, it suggests proceeding to the next phase.

The patching infrastructure

Now for the part that makes all of this sustainable: how do the patches survive GSD updates?

GSD's workflows live in ~/.claude/get-shit-done/workflows/ (for Claude Code) and ~/.config/opencode/get-shit-done/workflows/ (for OpenCode). When you run /gsd:update, those directories get wiped and replaced with the latest version. Your patches are gone.

My solution is a canonical storage system. All my patch source files live in ~/.config/gsd-patches/, versioned in my dotfiles. After any GSD update, I run one command to reapply everything.

Directory structure

~/.config/gsd-patches/
├── claude/
│ ├── commands/
│ │ ├── review.md # /gsd:review command definition
│ │ └── verify-work.md # /gsd:verify-work command definition
│ └── workflows/
│ ├── review.md # adversarial review workflow
│ ├── ui-review.md # cross-AI UI review workflow
│ └── verify-work.md # auto-verify workflow
├── opencode/
│ ├── command/
│ │ ├── gsd-review.md
│ │ └── gsd-verify-work.md
│ └── workflows/
│ ├── review.md
│ ├── ui-review.md
│ └── verify-work.md
├── bin/
│ ├── sync # copies patches to runtime locations
│ └── check # verifies drift and missing files
├── gsd-customizations.md # changelog of what changed and why
└── README.md

The Claude and OpenCode versions are nearly identical; the only differences are file paths (~/.claude/ vs ~/.config/opencode/) and command syntax (/gsd:review vs /gsd-review).

The sync script

This is the entire sync script. It's embarrassingly simple:

#!/usr/bin/env bash
set -euo pipefail

MODE="${1:-all}"
ROOT="$(cd "$(dirname "${BASH_SOURCE[0]}")/.." && pwd)"

copy_file() {
 local src="$1"
 local dst="$2"
 mkdir -p "$(dirname "$dst")"
 cp -f "$src" "$dst"
 printf 'SYNC %s -> %s\n' "$src" "$dst"
}

sync_claude() {
 copy_file "$ROOT/claude/workflows/review.md" "$HOME/.claude/get-shit-done/workflows/review.md"
 copy_file "$ROOT/claude/workflows/ui-review.md" "$HOME/.claude/get-shit-done/workflows/ui-review.md"
 copy_file "$ROOT/claude/workflows/verify-work.md" "$HOME/.claude/get-shit-done/workflows/verify-work.md"
 copy_file "$ROOT/claude/commands/review.md" "$HOME/.claude/commands/gsd/review.md"
 copy_file "$ROOT/claude/commands/verify-work.md" "$HOME/.claude/commands/gsd/verify-work.md"
}

sync_opencode() {
 copy_file "$ROOT/opencode/workflows/review.md" "$HOME/.config/opencode/get-shit-done/workflows/review.md"
 copy_file "$ROOT/opencode/workflows/ui-review.md" "$HOME/.config/opencode/get-shit-done/workflows/ui-review.md"
 copy_file "$ROOT/opencode/workflows/verify-work.md" "$HOME/.config/opencode/get-shit-done/workflows/verify-work.md"
 copy_file "$ROOT/opencode/command/gsd-review.md" "$HOME/.config/opencode/command/gsd-review.md"
 copy_file "$ROOT/opencode/command/gsd-verify-work.md" "$HOME/.config/opencode/command/gsd-verify-work.md"
}

case "$MODE" in
 all)
 sync_claude
 sync_opencode
 ;;
 claude)
 sync_claude
 ;;
 opencode)
 sync_opencode
 ;;
 *)
 printf 'Usage: %s [all|claude|opencode]\n' "$0" >&2
 exit 2
 ;;
esac

printf 'Done.\n'

After a /gsd:update:

~/.config/gsd-patches/bin/sync all

That's it. All patches reapplied in under a second.

The check script

I also have a check script that verifies whether my runtime files match the canonical source. It uses cmp -s to do a byte-for-byte comparison and reports drift:

~/.config/gsd-patches/bin/check all

# Output:
VERSION claude 1.30.0
VERSION opencode 1.30.0
OK /home/roger/.claude/get-shit-done/workflows/review.md
OK /home/roger/.claude/get-shit-done/workflows/ui-review.md
OK /home/roger/.claude/get-shit-done/workflows/verify-work.md
OK /home/roger/.claude/commands/gsd/review.md
OK /home/roger/.claude/commands/gsd/verify-work.md
OK /home/roger/.config/opencode/get-shit-done/workflows/review.md
...
Status: clean

If anything drifted (maybe I edited a runtime file directly during debugging), it shows DIFF and exits with code 1. Keeps me honest.

The changelog

I maintain a gsd-customizations.md file that tracks every patch: what changed, why, which GSD version it was patched against, and which files were modified. This is crucial. When a GSD update changes the workflow format or adds new features, I need to know exactly what I changed so I can adapt my patches to the new version.

Here's a taste of what it looks like:

## 2026-03-30 - Fix opencode hangs (remove 2>/dev/null), run reviewers in parallel

**GSD version:** 1.30.0
**Files modified:** `get-shit-done/workflows/review.md`, `get-shit-done/workflows/ui-review.md`

### What changed

- Removed `2>/dev/null` from all `opencode run` and `claude -p` invocation commands
- Changed reviewer invocation from **sequential** to **parallel**

### Why

Suppressing stderr with `2>/dev/null` caused `opencode run` to hang indefinitely;
opencode needs stderr for progress output and/or terminal detection. Removing the
redirect fixed the hangs immediately.

Honesty moment

I should mention: I haven't actually had a GSD update wipe my patches yet. I haven't updated GSD since I started patching. So the sync/check system is built and tested, but hasn't been battle-tested by a real update cycle. I'm confident it'll work (it's just cp commands) but I want to be upfront about it. When it does happen, I'll update this post.

Bugs I found along the way

Patching GSD meant reading the stock workflows carefully, and that led me to find (and fix) bugs that existed in the original:

2>/dev/null on opencode run causes hangs. The stock workflow suppressed stderr on external CLI calls. Turns out, opencode run needs stderr for progress output and/or terminal detection. Suppressing it causes the process to hang indefinitely. Removing 2>/dev/null fixed it immediately. Note: stderr suppression on other commands (like ls, node, git) is fine; it's only the interactive CLI tools that break.

claude -p doesn't support --no-input. The stock workflow passed --no-input to claude -p, which isn't a valid flag. It caused the Claude reviewer to fail silently (exit code 1, empty output). Just removing the flag fixed it.

Sequential execution was unnecessary. The stock workflow ran reviewers one at a time. Since each reviewer is an independent process with no shared state, there's no reason they can't run in parallel. Switching to parallel execution (separate bash tool calls in a single message) cut review time from ~6 minutes to ~1-2 minutes.

These fixes are now part of my patches and would benefit anyone patching GSD.

How to make your own patches

If you want to patch GSD yourself, here's how to start:

1. Find the file you want to change. GSD's workflows live in ~/.claude/get-shit-done/workflows/ (Claude Code) or ~/.config/opencode/get-shit-done/workflows/ (OpenCode). Commands are in ~/.claude/commands/gsd/ or ~/.config/opencode/command/. They're all markdown files. Read them.

2. Make your change in a canonical location. Don't edit the runtime files directly; they'll get wiped on update. Create a directory (I use ~/.config/gsd-patches/) and keep your modified versions there.

3. Write a sync script. It doesn't need to be fancy. Mine is just a series of cp commands. The point is that reapplying patches should be one command, not a manual checklist.

4. Write a check script. Optional but useful. Being able to run check all and see if your runtime matches your canonical source saves debugging time.

5. Keep a changelog. Track what you changed, why, and against which GSD version. Future you will thank present you.

6. Don't forget the command files. I missed this on my first patch. GSD has two sets of files: workflows (get-shit-done/workflows/) and commands (commands/gsd/). If you patch a workflow, check if the corresponding command file needs updating too. They're separate files that reference each other.

7. Version control it. Put your patches directory in your dotfiles. Mine are at git.rogs.me/rogs/dotfiles under .config/gsd-patches/. This means if I set up a new machine, my patches come with me.

Ideas for your own patches

You don't have to copy my patches. The beauty of this approach is that you can shape GSD to fit your workflow. Here are some ideas:

Show me the code

All my patches are public. If you want to see the exact files behind everything described in this post:

Feel free to steal whatever is useful to you. That's what dotfiles are for.

See you in the next one!

06 Apr 2026 5:00am GMT

04 Apr 2026

feedDjango community aggregator: Community blog posts

Anthropic is pushing away its paying customers

I need to vent.

I want to start by saying this is my opinion and doesn't reflect the views of my employers or anyone else.

I've been paying $100/month for Claude Max because Claude is, without question, the best model for programming. I've built my entire AI workflow around it. I've written blog posts about it. I've recommended it to colleagues, friends, and strangers on the internet. I've been a loyal, paying customer.

And Anthropic keeps making it harder to stay.

The third-party ban

On the night of April 3, 2026, Anthropic sent an email to subscribers announcing that third-party harnesses like OpenClaw can no longer use Claude Max subscription limits. Starting April 4 at 12pm PT. That's less than 24 hours of notice.

Ouch.

Let that sink in. Less than 24 hours to rip out and replace the model powering my personal AI assistant, my Emacs tooling, and potentially other parts of my workflow.

My OpenClaw setup was running Opus 4.6 for personal tasks: managing my calendar, maintaining my open source projects, doing research, all through Telegram. It was perfect. Now if I want to keep using Claude with OpenClaw, I need to pay extra on top of my $100/month subscription through their new "extra usage" pay-as-you-go option.

This also killed CLIProxyAPI, which I wrote about two months ago. That tool let me use my Max subscription with Emacs packages like forge-llm and magit-gptcommit. I wrote an entire blog post about it, shared my config, helped people set it up. Dead now. Two months.

And it's not just OpenClaw and CLIProxyAPI. GSD 2, the next generation of the tool I use for all my heavy development work, is built on the Pi SDK, the same foundation OpenClaw uses. I'm over 90% sure it's also affected. That's the tool I've been watching closely and testing on weekends for my personal projects. If GSD 2 can't use my subscription, that's yet another thing Anthropic broke.

Their email said these tools "put an outsized strain on our systems" and that they need to "prioritize customers using core products". I'm paying $100/month. I am a customer. But apparently I'm not using the product the "right way."

The notice was insulting

We'd been hearing rumblings for a while. Rumors that Anthropic didn't like users accessing Claude through third-party tools. Reports on Reddit of people getting banned for using OpenClaw too aggressively. But nothing official.

Then, with less than 24 hours of notice, they made it policy.

Yes, they offered a one-time credit equal to your monthly subscription price. Yes, they're offering discounts on pre-purchased usage bundles. Yes, they're offering refunds. But none of that changes the fact that they gave paying customers less than a day to restructure their workflows.

A consumer-forward company would have given weeks of notice, not hours. A consumer-forward company would have opened a dialogue with the community before dropping the hammer. Instead, we got an email at night and a deadline the next morning.

The usage limits are a mess

This isn't even the first time Anthropic has frustrated me recently. The usage limits on Claude Code have been a disaster since late March.

Sessions that used to last hours started burning through in under 90 minutes. I'd start in the morning and hit the limit in about 45 minutes doing the same kind of work that used to last all morning. This week, I hit 50% of my weekly usage by Tuesday. My usage resets on Friday. That's terrifying when you depend on the tool for your daily work.

Anthropic acknowledged the issue. An engineer confirmed on X that limits drain faster during peak hours to "manage growing demand." A GitHub issue has been accumulating reports. Reddit threads are flooded with complaints. Someone reverse-engineered the Claude Code binary and found bugs that break prompt caching, silently inflating costs by 10-20x.

And through all of this, Anthropic has been mostly silent. I see tweets from employees saying they're working on it, but I don't see results. Meanwhile, their leadership seems more focused on shipping new features than making sure what they already have actually works. They keep shipping and shipping and not fixing what's broken.

For comparison, I've been using OpenAI's models through OpenCode as my fallback, and I have yet to hit a 5-hour usage limit. Not once. The experience is night and day.

What I did about it

I moved everything to Lazer's LiteLLM proxy (a perk we have as employees at Lazer Technologies). OpenClaw now runs GLM-5, which is a legitimately great model: open source, MIT licensed, and competitive with frontier models on agentic tasks. My Emacs tools (forge-llm, magit-gptcommit) also moved to the Lazer proxy with GLM-5 and Qwen3 Coder 480B Turbo respectively. If you don't have access to a company proxy, OpenRouter is a solid alternative, or you can use your own API keys directly.

The migration wasn't hard. It took a couple of hours. But that's not the point. The point is that I shouldn't have had to do it. I was paying for a service and they changed what I was paying for.

Where I stand

I'm very close to canceling my subscription and moving back to ChatGPT. I've been using OpenAI's models for programming through OpenCode, and they're getting really good. A little too verbose, and not quite at Opus level, but more than good enough for my workflow. And crucially, OpenAI isn't pulling the rug out from under me every other week.

Claude is still the best model for coding. I'm not going to pretend otherwise. But the best model doesn't matter if you can't use it reliably, if the limits drain in 45 minutes, and if the company keeps changing the terms on paying customers without adequate notice.

Here's where I am right now:

The decisions coming out of Anthropic lately feel like corporate decisions that shaft users, not decisions made by a company that cares about its customers. And that's frustrating, because the engineering team clearly builds incredible stuff. It's the business side that's letting them down.

I updated my AI Toolbox page with all the changes. If you want to see my current setup (post-Anthropic-rug-pull), that's the place to look.

See you in the next one. Hopefully less angry.

04 Apr 2026 5:00am GMT