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ESP32

Name: ESP32
Author: ivangdavila

by Iván · GitHub ↗ · v1.0.0

linuxdarwinwin32 ✓ Security Clean

1337

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Install in OpenClaw

/install esp32

Description

Avoid common ESP32 mistakes — GPIO conflicts, WiFi+ADC2 trap, deep sleep gotchas, and FreeRTOS pitfalls.

README (SKILL.md)

GPIO Restrictions

Strapping pins boot behavior — GPIO0, GPIO2, GPIO12, GPIO15 affect boot mode
GPIO6-11 connected to flash — don't use, crashes immediately
GPIO34-39 input only — no output, no pullup/pulldown
ADC2 unusable with WiFi active — use ADC1 (GPIOs 32-39) when WiFi enabled

Deep Sleep

Only RTC GPIOs for wakeup — GPIO0, 2, 4, 12-15, 25-27, 32-39
RTC_DATA_ATTR for persistent variables — regular RAM lost in deep sleep
esp_sleep_enable_ext0_wakeup() for single pin — ext1 for multiple pins
WiFi reconnect takes 1-3 seconds after wake — plan for this delay

WiFi Gotchas

Call WiFi.mode() before WiFi.begin() — mode affects behavior
WiFi.setAutoReconnect(true) doesn't always work — implement reconnect in loop
Event-driven with WiFi.onEvent() more reliable — don't poll WiFi.status()
Static IP faster than DHCP — saves 2-5 seconds on connect

FreeRTOS

Default stack too small for printf/WiFi — use 4096+ for complex tasks
Task watchdog triggers at 5s default — call vTaskDelay() or feed watchdog
xTaskCreatePinnedToCore() for core affinity — WiFi on core 0, your code on core 1
delay() yields to scheduler — vTaskDelay(pdMS_TO_TICKS(ms)) in tasks

Memory

Heap fragments over time — preallocate buffers, avoid repeated malloc/free
ESP.getFreeHeap() for monitoring — log periodically in long-running apps
PSRAM available on some boards — heap_caps_malloc(size, MALLOC_CAP_SPIRAM)
String concatenation fragments heap — use reserve() or char arrays

Peripherals

No native analogWrite() — use LEDC: ledcSetup(), ledcAttachPin(), ledcWrite()
I2C needs external pullups usually — internal pullups too weak for fast speeds
SPI CS pin must be managed — SPI.begin() doesn't auto-configure
UART0 is Serial/USB — use UART1/2 for external devices

OTA Updates

Needs two OTA partitions — default partition scheme may have only one
Check ESP.getFreeSketchSpace() — OTA fails silently if not enough space
ArduinoOTA blocks during update — handle in loop, not in time-critical code

Power

Brown-out detector resets at ~2.4V — esp_brownout_disable() if using battery
WiFi TX uses 300mA peaks — power supply must handle spikes
Deep sleep ~10µA — but RTC peripherals add more if enabled

Usage Guidance

This skill is a read-only reference of ESP32 best-practices and appears safe to install. Keep in mind: 1) The guidance may be version- or board-specific — verify details against your board's datasheet and the Espressif SDK/Arduino core you use. 2) Do not blindly disable hardware protections (e.g., esp_brownout_disable()) — that can cause unstable behavior on battery-powered devices. 3) OTA and partition advice depends on your partition scheme; test OTA in a controlled environment. 4) ADC/GPIO and deep-sleep wakeup pin lists vary by chip revision/module — double-check for your variant. If you need code or automated tasks, prefer a skill that clearly declares any installs or required credentials; this skill is purely advisory and contains no hidden install steps.

Capability Analysis

Type: OpenClaw Skill Name: esp32 Version: 1.0.0 The skill bundle is benign. The `_meta.json` file contains standard metadata, and the `SKILL.md` file provides purely informational content about common ESP32 development pitfalls and best practices. There is no evidence of prompt injection attempts, malicious execution, data exfiltration, persistence mechanisms, or any other high-risk behaviors in either file. The content is entirely aligned with its stated purpose of educating on ESP32 development.

Capability Assessment

✓ Purpose & Capability

The name/description (ESP32 gotchas) align with the SKILL.md content (GPIO, deep sleep, WiFi, FreeRTOS, power, OTA, etc.). There are no unrelated environment variables, binaries, or config paths requested.

✓ Instruction Scope

SKILL.md is purely advisory documentation about development pitfalls and API usage on ESP32 boards. It does not instruct the agent to read local files, access credentials, call external endpoints, or perform system operations outside its stated scope.

✓ Install Mechanism

No install spec or code files are present; this is instruction-only so nothing will be downloaded or written to disk during install.

✓ Credentials

The skill requires no environment variables, credentials, or configuration paths — proportional for a documentation-style skill.

✓ Persistence & Privilege

always:false and default invocation settings are used. The skill does not request persistent presence or permissions to modify other skills or system-wide settings.

How to Use

Make sure OpenClaw is installed (local or Docker)
Run the install command in chat: /install esp32
After installation, invoke the skill by name or use /esp32
Provide required inputs per the skill's parameter spec and get structured output

Version History

v1.0.0

Initial release

Metadata

Slug esp32

Version 1.0.0

License —

All-time Installs 6

Active Installs 5

Total Versions 1

Frequently Asked Questions

What is ESP32?

Avoid common ESP32 mistakes — GPIO conflicts, WiFi+ADC2 trap, deep sleep gotchas, and FreeRTOS pitfalls. It is an AI Agent Skill for Claude Code / OpenClaw, with 1337 downloads so far.

How do I install ESP32?

Run "/install esp32" in the OpenClaw or Claude Code chat to install it in one step — no extra setup required.

Is ESP32 free?

Yes, ESP32 is completely free (open-source). You can download, install and use it at no cost.

Which platforms does ESP32 support?

ESP32 is cross-platform and runs anywhere OpenClaw / Claude Code is available (linux, darwin, win32).

Who created ESP32?

It is built and maintained by Iván (@ivangdavila); the current version is v1.0.0.

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