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merge into: Darkages/SpotMicroESP32-Leika:ICM20948_fix_rb1
Branches Tags
Darkages/SpotMicroESP32-Leika:master Darkages/SpotMicroESP32-Leika:sdcard-pb-improve Darkages/SpotMicroESP32-Leika:eventbus-restructuring Darkages/SpotMicroESP32-Leika:event_bus Darkages/SpotMicroESP32-Leika:ICM20948_fix_rb1 Darkages/SpotMicroESP32-Leika:ICM20948_fix Darkages/SpotMicroESP32-Leika:skills_system Darkages/SpotMicroESP32-Leika:ICM20948_plus_new_HTTP Darkages/SpotMicroESP32-Leika:animation Darkages/SpotMicroESP32-Leika:skills Darkages/SpotMicroESP32-Leika:extract-messages Darkages/SpotMicroESP32-Leika:new-frontpage Darkages/SpotMicroESP32-Leika:lidar Darkages/SpotMicroESP32-Leika:walking-gait
..
pull from: Darkages/SpotMicroESP32-Leika:event_bus
Branches Tags
Darkages/SpotMicroESP32-Leika:master Darkages/SpotMicroESP32-Leika:sdcard-pb-improve Darkages/SpotMicroESP32-Leika:eventbus-restructuring Darkages/SpotMicroESP32-Leika:event_bus Darkages/SpotMicroESP32-Leika:ICM20948_fix_rb1 Darkages/SpotMicroESP32-Leika:ICM20948_fix Darkages/SpotMicroESP32-Leika:skills_system Darkages/SpotMicroESP32-Leika:ICM20948_plus_new_HTTP Darkages/SpotMicroESP32-Leika:animation Darkages/SpotMicroESP32-Leika:skills Darkages/SpotMicroESP32-Leika:extract-messages Darkages/SpotMicroESP32-Leika:new-frontpage Darkages/SpotMicroESP32-Leika:lidar Darkages/SpotMicroESP32-Leika:walking-gait

11 Commits
ICM20948_fix_rb1 .. event_bus

Author SHA1 Message Date
Rune Harlyk 18ec2e618e Heap event bus 2026-02-01 01:09:46 +01:00
Rune Harlyk 0c0ef0ac40 Moves rest of events to event bus 2026-02-01 00:44:32 +01:00
Rune Harlyk 57e0aac2aa 🔥 Removes old stateful services 2026-02-01 00:30:16 +01:00
Rune Harlyk 780d178e87 Adds event bus 2026-02-01 00:26:02 +01:00
Rune Harlyk ff1444b2bc Makes wifi try to connect to latest 2026-01-31 21:05:37 +01:00
Rune Harlyk e5e9841dd3 Sets cpu freq to 240 2026-01-31 21:00:39 +01:00
Rune Harlyk f4f8035f37 🐛 Handle spa 2026-01-31 19:32:43 +01:00
Rune Harlyk 13300aa9e0 🎨 Update monitor filters 2026-01-31 19:32:43 +01:00
Rune Harlyk cdf6c83be5 ♻️ Moves sdkconfig.defaults 2026-01-31 19:32:43 +01:00
Rune Harlyk bd984309f1 ♻️ Handle merging 2026-01-31 19:32:43 +01:00
Rune Harlyk aca8ee6de5 Full migration to esp-idf 2026-01-31 19:32:43 +01:00
76 changed files with 3155 additions and 1655 deletions
Expand all files Collapse all files
.gitignore
+5
View File
@@ -6,6 +6,11 @@ __pycache__/
*.py[cod]
*$py.class
.pio
managed_components/
dependencies.lock
sdkconfig
sdkconfig.*
!sdkconfig.defaults
esp32/src/platform_shared/*
!esp32/src/platform_shared/.gitkeep
app/src/lib/platform_shared/*
CMakeLists.txt
+3
View File
@@ -0,0 +1,3 @@
cmake_minimum_required(VERSION 3.16.0)
include($ENV{IDF_PATH}/tools/cmake/project.cmake)
project(Spot_Micro_Leika)
app/src/routes/peripherals/imu/imu.svelte
-4
View File
@@ -245,10 +245,6 @@
angleChart.update('none')
}
if ($features.mag) {
updateChartData(magnetometerChart, $imu.heading)
}
if ($features.bmp && tempChart && altitudeChart) {
updateChartData(
tempChart,
esp32/features.ini
-2
View File
@@ -13,8 +13,6 @@ build_flags =
-D USE_HMC5883=0
-D USE_BMP180=0
-D USE_MPU6050=0
-D USE_ICM20948=1
-D USE_ICM20948_SPIMODE=0
-D USE_WS2812=1
-D USE_BNO055=0
-D USE_USS=0
esp32/include/ap_service.h
+17 -10
View File
@@ -1,14 +1,15 @@
#pragma once
#include <template/stateful_service.h>
#include <template/stateful_proto_endpoint.h>
#include <template/stateful_persistence_pb.h>
#include <event_bus/event_bus.h>
#include <settings/ap_settings.h>
#include <utils/timing.h>
#include <WiFi.h>
#include "esp_timer.h"
#include <wifi/wifi_idf.h>
#include <wifi/dns_server.h>
#include <esp_timer.h>
#include <esp_http_server.h>
#include <string>
class APService : public StatefulService<APSettings> {
class APService {
public:
APService();
~APService();
@@ -21,15 +22,21 @@ class APService : public StatefulService<APSettings> {
void statusProto(api_APStatus &proto);
APNetworkStatus getAPNetworkStatus();
StatefulProtoEndpoint<APSettings, api_APSettings> protoEndpoint;
esp_err_t getSettings(httpd_req_t *request);
esp_err_t updateSettings(httpd_req_t *request, api_Request *protoReq);
private:
FSPersistencePB<APSettings> _persistence;
static constexpr const char *TAG = "APService";
void onSettingsChanged(const api_APSettings &newSettings);
APSettings _settings = APSettings_defaults();
EventBus::Handle<api_APSettings> _settingsHandle;
DNSServer *_dnsServer;
volatile unsigned long _lastManaged;
volatile boolean _reconfigureAp;
volatile boolean _recoveryMode = false;
volatile bool _reconfigureAp;
volatile bool _recoveryMode = false;
void reconfigureAP();
void manageAP();
esp32/include/communication/comm_base.hpp
+47 -6
View File
@@ -1,10 +1,16 @@
#pragma once
#include <esp_log.h>
#include <freertos/FreeRTOS.h>
#include <freertos/semphr.h>
#include <functional>
#include <list>
#include <map>
#include <memory>
#include <vector>
#include <type_traits>
#include <communication/proto_helpers.h>
#include <event_bus/event_bus.h>
class CommAdapterBase {
public:
@@ -32,38 +38,63 @@ class CommAdapterBase {
decoder_.on<T>(handler);
}
template <typename T>
void onPublish(std::function<void(const T&, int)> handler = nullptr) {
decoder_.on<T>([this, handler](const T& data, int clientId) {
EventBus::publish(data);
if (handler) handler(data, clientId);
});
}
template <typename T>
void bridgeFromEventBus() {
eventBusHandles_.push_back(
std::make_unique<EventBusHandleStorage<T>>(EventBus::subscribe<T>([this](const T& data) { emit(data); })));
}
template <typename T>
void bridgeFromEventBus(uint32_t intervalMs) {
eventBusHandles_.push_back(std::make_unique<EventBusHandleStorage<T>>(
EventBus::subscribe<T>(intervalMs, [this](const T& data) { emit(data); })));
}
template <typename T>
void emit(const T& data, int clientId = -1) {
constexpr pb_size_t tag = MessageTraits<T>::tag;
if (clientId < 0 && !hasSubscribers(tag)) return;
xSemaphoreTake(mutex_, portMAX_DELAY);
msg_.which_message = tag;
MessageTraits<T>::assign(msg_, data);
size_t out_size;
pb_get_encoded_size(&out_size, socket_message_Message_fields, &msg_);
uint8_t* buffer = pb_heap_enc_buf;
if (out_size > sizeof(pb_heap_enc_buf)) { // If the encoded size exceeds our buffer size, we needs to malloc a
// buffer of a proper size
if (out_size > sizeof(pb_heap_enc_buf)) {
buffer = (uint8_t*)malloc(out_size);
}
pb_ostream_t stream = pb_ostream_from_buffer(buffer, out_size);
if (!pb_encode(&stream, socket_message_Message_fields, &msg_)) {
ESP_LOGE("ProtoComm", "Failed to encode message (tag %d), buffer too small?", (int)tag);
xSemaphoreGive(mutex_);
if (pb_heap_enc_buf != buffer) free(buffer);
return;
}
if (clientId >= 0) {
send(buffer, stream.bytes_written, clientId);
} else {
sendToSubscribers(tag, buffer, stream.bytes_written);
sendToSubscribersLocked(tag, buffer, stream.bytes_written);
}
if (pb_heap_enc_buf != buffer) {
free(buffer);
}
xSemaphoreGive(mutex_);
}
protected:
@@ -113,12 +144,22 @@ class CommAdapterBase {
socket_message_Message msg_ = socket_message_Message_init_zero;
uint8_t pb_heap_enc_buf[PROTO_BUFFER_SIZE];
struct EventBusHandleBase {
virtual ~EventBusHandleBase() = default;
};
template <typename T>
struct EventBusHandleStorage : EventBusHandleBase {
EventBus::Handle<T> handle;
EventBusHandleStorage(EventBus::Handle<T>&& h) : handle(std::move(h)) {}
};
std::vector<std::unique_ptr<EventBusHandleBase>> eventBusHandles_;
private:
void sendToSubscribers(int32_t tag, const uint8_t* data, size_t len) {
xSemaphoreTake(mutex_, portMAX_DELAY);
void sendToSubscribersLocked(int32_t tag, const uint8_t* data, size_t len) {
for (int cid : client_subscriptions_[tag]) {
send(data, len, cid);
}
xSemaphoreGive(mutex_);
}
};
esp32/include/communication/webserver.h
+7
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@@ -1,6 +1,13 @@
#pragma once
#ifndef CONFIG_HTTPD_WS_SUPPORT
#define CONFIG_HTTPD_WS_SUPPORT 1
#endif
#include <esp_http_server.h>
#include <esp_log.h>
#include <freertos/FreeRTOS.h>
#include <freertos/semphr.h>
#include <functional>
#include <vector>
#include <string>
esp32/include/communication/websocket.h
+1 -1
View File
@@ -1,6 +1,6 @@
#pragma once
#include <Arduino.h>
#include <cstdint>
#include <communication/webserver.h>
#include <communication/comm_base.hpp>
esp32/include/compat/pgmspace.h
+21
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@@ -0,0 +1,21 @@
#pragma once
#ifndef PROGMEM
#define PROGMEM
#endif
#ifndef PGM_P
#define PGM_P const char *
#endif
#ifndef pgm_read_byte
#define pgm_read_byte(addr) (*(const unsigned char *)(addr))
#endif
#ifndef pgm_read_word
#define pgm_read_word(addr) (*(const unsigned short *)(addr))
#endif
#ifndef pgm_read_dword
#define pgm_read_dword(addr) (*(const unsigned long *)(addr))
#endif
esp32/include/consumers/event_storage_manager.h
+51
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@@ -0,0 +1,51 @@
#pragma once
#include <consumers/proto_event_storage.h>
#include <platform_shared/api.pb.h>
#include <settings/wifi_settings.h>
#include <settings/ap_settings.h>
#include <settings/mdns_settings.h>
#include <settings/peripherals_settings.h>
#include <settings/camera_settings.h>
#include <esp_log.h>
class EventStorageManager {
public:
void initialize() {
ESP_LOGI(TAG, "Loading settings from storage");
_wifiStorage.begin();
_apStorage.begin();
_mdnsStorage.begin();
_peripheralStorage.begin();
#if FT_ENABLED(USE_CAMERA)
_cameraStorage.begin();
#endif
ESP_LOGI(TAG, "Settings loaded and published");
}
private:
static constexpr const char* TAG = "StorageManager";
ProtoEventStorage<api_WifiSettings, WiFiSettings_defaults> _wifiStorage =
ProtoEventStorage<api_WifiSettings, WiFiSettings_defaults>("/config/wifiSettings.pb", api_WifiSettings_fields,
api_WifiSettings_size, 1000);
ProtoEventStorage<api_APSettings, APSettings_defaults> _apStorage =
ProtoEventStorage<api_APSettings, APSettings_defaults>("/config/apSettings.pb", api_APSettings_fields,
api_APSettings_size, 1000);
ProtoEventStorage<api_MDNSSettings, MDNSSettings_defaults> _mdnsStorage =
ProtoEventStorage<api_MDNSSettings, MDNSSettings_defaults>("/config/mdnsSettings.pb", api_MDNSSettings_fields,
api_MDNSSettings_size, 1000);
ProtoEventStorage<api_PeripheralSettings, PeripheralsConfiguration_defaults> _peripheralStorage =
ProtoEventStorage<api_PeripheralSettings, PeripheralsConfiguration_defaults>(
"/config/peripheralSettings.pb", api_PeripheralSettings_fields, api_PeripheralSettings_size, 500);
#if FT_ENABLED(USE_CAMERA)
ProtoEventStorage<api_CameraSettings, Camera::CameraSettings_defaults> _cameraStorage =
ProtoEventStorage<api_CameraSettings, Camera::CameraSettings_defaults>(
"/config/cameraSettings.pb", api_CameraSettings_fields, api_CameraSettings_size, 1000);
#endif
};
esp32/include/consumers/proto_event_storage.h
+72
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@@ -0,0 +1,72 @@
#pragma once
#include <event_bus/event_bus.h>
#include <pb_encode.h>
#include <pb_decode.h>
#include <esp_log.h>
#include <memory>
#include <cstdio>
template <typename ProtoMsg, ProtoMsg (*DefaultsFn)()>
class ProtoEventStorage {
public:
ProtoEventStorage(const char* filename, const pb_msgdesc_t* descriptor, size_t maxSize, uint32_t debounceMs = 1000)
: _filename(filename), _descriptor(descriptor), _maxSize(maxSize), _debounceMs(debounceMs) {}
void begin() {
auto loaded = std::unique_ptr<ProtoMsg>(new ProtoMsg {});
loadOrDefault(*loaded);
EventBus::publish(*loaded, "EventStorage");
ESP_LOGI(TAG, "Loaded %s", _filename);
_handle = EventBus::subscribe<ProtoMsg>(_debounceMs, [this](const ProtoMsg& msg) { save(msg); });
}
private:
static constexpr const char* TAG = "ProtoStorage";
const char* _filename;
const pb_msgdesc_t* _descriptor;
size_t _maxSize;
uint32_t _debounceMs;
typename EventBus::Handle<ProtoMsg> _handle;
void loadOrDefault(ProtoMsg& outMsg) {
FILE* file = fopen(_filename, "rb");
if (!file) {
outMsg = DefaultsFn();
return;
}
fseek(file, 0, SEEK_END);
size_t size = ftell(file);
fseek(file, 0, SEEK_SET);
if (size == 0 || size > _maxSize) {
fclose(file);
outMsg = DefaultsFn();
return;
}
auto buffer = std::make_unique<uint8_t[]>(size);
fread(buffer.get(), 1, size, file);
fclose(file);
pb_istream_t stream = pb_istream_from_buffer(buffer.get(), size);
if (!pb_decode(&stream, _descriptor, &outMsg)) {
outMsg = DefaultsFn();
}
}
void save(const ProtoMsg& msg) {
auto buffer = std::make_unique<uint8_t[]>(_maxSize);
pb_ostream_t stream = pb_ostream_from_buffer(buffer.get(), _maxSize);
if (!pb_encode(&stream, _descriptor, &msg)) return;
FILE* file = fopen(_filename, "wb");
if (!file) return;
fwrite(buffer.get(), 1, stream.bytes_written, file);
fclose(file);
ESP_LOGD(TAG, "Saved %s", _filename);
}
};
esp32/include/event_bus/event_bus.h
+65
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@@ -0,0 +1,65 @@
#pragma once
#include <event_bus/typed_event_bus.h>
#include <event_bus/event_registry.h>
#include <event_bus/event_metadata.h>
#include <esp_timer.h>
#include <atomic>
class EventBus {
public:
template <typename Msg>
using Bus = TypedEventBus<Msg, EventBusConfig<Msg>::QueueDepth, EventBusConfig<Msg>::MaxSubs,
EventBusConfig<Msg>::BatchSize>;
template <typename Msg>
using Handle = typename Bus<Msg>::Handle;
template <typename Msg>
static bool publish(const Msg& msg, const char* source = nullptr) {
if (_hasGlobalListeners.load(std::memory_order_acquire)) {
notifyGlobalListeners(msg, source);
}
return Bus<Msg>::publish(msg);
}
template <typename Msg, typename Callback>
static auto subscribe(Callback&& callback) {
return Bus<Msg>::subscribe(std::forward<Callback>(callback));
}
template <typename Msg, typename Callback>
static auto subscribe(uint32_t intervalMs, Callback&& callback) {
return Bus<Msg>::subscribe(intervalMs, std::forward<Callback>(callback));
}
template <typename Msg>
static void publishISR(const Msg& msg, BaseType_t* higherPriorityTaskWoken = nullptr) {
Bus<Msg>::publishISR(msg, higherPriorityTaskWoken);
}
template <typename Msg>
static bool peek(Msg& out) {
return Bus<Msg>::peek(out);
}
template <typename Msg>
static bool take(Msg& out) {
return Bus<Msg>::take(out);
}
template <typename Msg>
static bool hasSubscribers() {
return Bus<Msg>::hasSubscribers();
}
using GlobalHandler = FixedFn<void(EventType, const void*, size_t, uint64_t), 64>;
static size_t subscribeGlobal(GlobalHandler&& handler);
static void unsubscribeGlobal(size_t id);
private:
static std::atomic<bool> _hasGlobalListeners;
template <typename Msg>
static void notifyGlobalListeners(const Msg& msg, const char* source);
};
esp32/include/event_bus/event_metadata.h
+16
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@@ -0,0 +1,16 @@
#pragma once
#include <event_bus/event_types.h>
#include <cstdint>
struct EventMetadata {
EventType type;
uint64_t timestamp;
uint32_t sequence;
const char* source;
};
template <typename Msg>
struct EventEnvelope {
EventMetadata metadata;
Msg payload;
};
esp32/include/event_bus/event_registry.h
+63
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@@ -0,0 +1,63 @@
#pragma once
#include <event_bus/event_types.h>
#include <platform_shared/api.pb.h>
#include <platform_shared/message.pb.h>
template <typename T>
struct EventTypeTraits;
template <typename T>
struct EventBusConfig {
static constexpr size_t QueueDepth = 64;
static constexpr size_t MaxSubs = 8;
static constexpr size_t BatchSize = 16;
};
#define REGISTER_EVENT_TYPE(MsgType, EventTypeValue) \
template <> \
struct EventTypeTraits<MsgType> { \
static constexpr EventType type = EventTypeValue; \
static constexpr const char* name = #MsgType; \
};
#define REGISTER_SETTINGS_TYPE(MsgType, EventTypeValue) \
REGISTER_EVENT_TYPE(MsgType, EventTypeValue) \
template <> \
struct EventBusConfig<MsgType> { \
static constexpr size_t QueueDepth = 1; \
static constexpr size_t MaxSubs = 6; \
static constexpr size_t BatchSize = 1; \
};
REGISTER_SETTINGS_TYPE(api_WifiSettings, EventType::WIFI_SETTINGS)
REGISTER_SETTINGS_TYPE(api_APSettings, EventType::AP_SETTINGS)
REGISTER_SETTINGS_TYPE(api_MDNSSettings, EventType::MDNS_SETTINGS)
REGISTER_SETTINGS_TYPE(api_PeripheralSettings, EventType::PERIPHERAL_SETTINGS)
REGISTER_SETTINGS_TYPE(api_ServoSettings, EventType::SERVO_SETTINGS)
REGISTER_SETTINGS_TYPE(api_CameraSettings, EventType::CAMERA_SETTINGS)
#define REGISTER_COMMAND_TYPE(MsgType, EventTypeValue) \
REGISTER_EVENT_TYPE(MsgType, EventTypeValue) \
template <> \
struct EventBusConfig<MsgType> { \
static constexpr size_t QueueDepth = 1; \
static constexpr size_t MaxSubs = 3; \
static constexpr size_t BatchSize = 1; \
};
#define REGISTER_STREAM_TYPE(MsgType, EventTypeValue) \
REGISTER_EVENT_TYPE(MsgType, EventTypeValue) \
template <> \
struct EventBusConfig<MsgType> { \
static constexpr size_t QueueDepth = 4; \
static constexpr size_t MaxSubs = 3; \
static constexpr size_t BatchSize = 4; \
};
REGISTER_STREAM_TYPE(socket_message_IMUData, EventType::IMU_DATA)
REGISTER_COMMAND_TYPE(socket_message_ControllerData, EventType::MOTION_COMMAND)
REGISTER_COMMAND_TYPE(socket_message_ModeData, EventType::MOTION_MODE)
REGISTER_COMMAND_TYPE(socket_message_AnglesData, EventType::MOTION_ANGLES)
REGISTER_COMMAND_TYPE(socket_message_WalkGaitData, EventType::MOTION_WALK_GAIT)
REGISTER_COMMAND_TYPE(socket_message_ServoStateData, EventType::SERVO_STATE)
REGISTER_COMMAND_TYPE(socket_message_ServoPWMData, EventType::SERVO_PWM)
esp32/include/event_bus/event_types.h
+27
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@@ -0,0 +1,27 @@
#pragma once
#include <cstdint>
enum class EventType : uint16_t {
WIFI_SETTINGS = 100,
AP_SETTINGS = 110,
MDNS_SETTINGS = 120,
PERIPHERAL_SETTINGS = 130,
SERVO_SETTINGS = 140,
CAMERA_SETTINGS = 150,
WIFI_STATUS = 101,
AP_STATUS = 111,
IMU_DATA = 131,
MOTION_COMMAND = 200,
MOTION_MODE = 201,
MOTION_ANGLES = 202,
MOTION_WALK_GAIT = 203,
SERVO_STATE = 141,
SERVO_PWM = 142,
SYSTEM_BOOT = 300,
STORAGE_HYDRATION_COMPLETE = 301,
};
const char* eventTypeName(EventType type);
bool isSettingsEvent(EventType type);
esp32/include/event_bus/rest_endpoints.h
+55
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@@ -0,0 +1,55 @@
#pragma once
#include <event_bus/event_bus.h>
#include <event_bus/event_registry.h>
#include <communication/webserver.h>
#include <esp_http_server.h>
template <typename TMsg, pb_size_t RequestTag, pb_size_t ResponseTag>
class RestSettingsEndpoint {
public:
static esp_err_t getSettings(httpd_req_t *request) {
api_Response response = api_Response_init_zero;
response.status_code = 200;
response.which_payload = ResponseTag;
TMsg settings;
if (!EventBus::peek(settings)) {
return WebServer::sendError(request, 404, "Settings not found");
}
*reinterpret_cast<TMsg *>(&response.payload) = settings;
return WebServer::send(request, 200, response, api_Response_fields);
}
static esp_err_t updateSettings(httpd_req_t *request, api_Request *protoReq) {
if (protoReq->which_payload != RequestTag) {
return WebServer::sendError(request, 400, "Invalid payload type");
}
const TMsg &settings = *reinterpret_cast<const TMsg *>(&protoReq->payload);
EventBus::publish(settings, "HTTPEndpoint");
api_Response response = api_Response_init_zero;
response.status_code = 200;
response.which_payload = api_Response_empty_message_tag;
return WebServer::send(request, 200, response, api_Response_fields);
}
};
using WiFiSettingsEndpoint =
RestSettingsEndpoint<api_WifiSettings, api_Request_wifi_settings_tag, api_Response_wifi_settings_tag>;
using ServoSettingsEndpoint =
RestSettingsEndpoint<api_ServoSettings, api_Request_servo_settings_tag, api_Response_servo_settings_tag>;
using PeripheralSettingsEndpoint = RestSettingsEndpoint<api_PeripheralSettings, api_Request_peripheral_settings_tag,
api_Response_peripheral_settings_tag>;
using APSettingsEndpoint =
RestSettingsEndpoint<api_APSettings, api_Request_ap_settings_tag, api_Response_ap_settings_tag>;
using MDNSSettingsEndpoint =
RestSettingsEndpoint<api_MDNSSettings, api_Request_mdns_settings_tag, api_Response_mdns_settings_tag>;
using CameraSettingsEndpoint =
RestSettingsEndpoint<api_CameraSettings, api_Request_camera_settings_tag, api_Response_camera_settings_tag>;
esp32/include/event_bus/system_events.h
+11
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@@ -0,0 +1,11 @@
#pragma once
#include <cstdint>
enum class SystemEventType : uint8_t {
STORAGE_HYDRATION_COMPLETE,
SYSTEM_BOOT_COMPLETE,
};
struct SystemEvent {
SystemEventType type;
};
esp32/include/event_bus/typed_event_bus.h
+337
View File
@@ -0,0 +1,337 @@
#pragma once
#include <vector>
#include <functional>
#include <type_traits>
#include <cstddef>
#include <cstring>
#include <array>
#include <optional>
#include <atomic>
#include <freertos/FreeRTOS.h>
#include <freertos/task.h>
#include <freertos/queue.h>
#include <esp_heap_caps.h>
template <typename Sig, size_t MaxSize>
class FixedFn;
template <typename R, typename... A, size_t MaxSize>
class FixedFn<R(A...), MaxSize> {
alignas(void*) std::byte buf[MaxSize];
R (*call)(void*, A&&...) {};
void (*moveFn)(void*, void*) {};
void (*destroy)(void*) {};
public:
template <typename Fun>
void set(Fun&& f) {
static_assert(sizeof(Fun) <= MaxSize);
new (buf) Fun(std::forward<Fun>(f));
call = [](void* p, A&&... as) -> R { return (*reinterpret_cast<Fun*>(p))(std::forward<A>(as)...); };
moveFn = [](void* d, void* s) { new (d) Fun(std::move(*reinterpret_cast<Fun*>(s))); };
destroy = [](void* p) { reinterpret_cast<Fun*>(p)->~Fun(); };
}
R operator()(A... as) const {
return call(const_cast<void*>(static_cast<const void*>(buf)), std::forward<A>(as)...);
}
FixedFn() = default;
FixedFn(FixedFn&& o) noexcept {
if (o.moveFn) o.moveFn(buf, o.buf);
call = o.call;
moveFn = o.moveFn;
destroy = o.destroy;
o.call = nullptr;
o.moveFn = nullptr;
o.destroy = nullptr;
}
FixedFn(const FixedFn&) = delete;
FixedFn& operator=(const FixedFn&) = delete;
FixedFn& operator=(FixedFn&&) = delete;
~FixedFn() {
if (destroy) destroy(buf);
}
};
enum class EmitMode { Latest, Batch };
template <typename Msg, size_t QueueDepth = 64, size_t MaxSubs = 8, size_t BatchSize = 16>
class TypedEventBus {
struct Item {
Msg payload;
size_t exclude;
};
static constexpr size_t NO_EX = MaxSubs;
struct Sub {
FixedFn<void(const Msg*, size_t), 48> cb;
TickType_t interval;
TickType_t last;
EmitMode mode;
Msg* buf;
size_t cnt;
std::atomic<bool> enabled;
std::atomic<uint32_t> running;
Sub() : buf(nullptr), cnt(0), enabled(false), running(0) {
buf = static_cast<Msg*>(heap_caps_malloc(BatchSize * sizeof(Msg), MALLOC_CAP_SPIRAM | MALLOC_CAP_8BIT));
if (!buf) buf = static_cast<Msg*>(malloc(BatchSize * sizeof(Msg)));
}
~Sub() {
if (buf) free(buf);
}
Sub(const Sub&) = delete;
Sub& operator=(const Sub&) = delete;
};
struct BusState {
QueueHandle_t queue;
Sub* subs[MaxSubs];
portMUX_TYPE mux;
Msg latest;
std::atomic<bool> hasLatest;
std::atomic<size_t> subCount;
std::atomic<bool> taskStarted;
BusState()
: queue(nullptr),
mux(portMUX_INITIALIZER_UNLOCKED),
latest {},
hasLatest(false),
subCount(0),
taskStarted(false) {
for (size_t i = 0; i < MaxSubs; ++i) subs[i] = nullptr;
}
};
static BusState& state() {
static BusState s;
return s;
}
static void ensureQueue() {
auto& s = state();
if (s.queue) return;
portENTER_CRITICAL(&s.mux);
if (!s.queue) {
s.queue = xQueueCreate(QueueDepth, sizeof(Item));
}
portEXIT_CRITICAL(&s.mux);
}
static void storeISR(const Msg& m) {
auto& s = state();
UBaseType_t saved = portSET_INTERRUPT_MASK_FROM_ISR();
s.latest = m;
s.hasLatest.store(true, std::memory_order_release);
portCLEAR_INTERRUPT_MASK_FROM_ISR(saved);
}
static void dispatch(const Msg& m, size_t ex) {
auto& s = state();
TickType_t now = xTaskGetTickCount();
Sub* ready[MaxSubs];
size_t readyCnt = 0;
portENTER_CRITICAL(&s.mux);
for (size_t i = 0; i < MaxSubs; ++i) {
Sub* sub = s.subs[i];
if (!sub || i == ex) continue;
if (!sub->enabled.load(std::memory_order_acquire)) continue;
TickType_t dt = now - sub->last;
if (sub->interval && dt < sub->interval) {
if (sub->mode == EmitMode::Batch) {
if (sub->cnt < BatchSize)
sub->buf[sub->cnt++] = m;
else
sub->buf[BatchSize - 1] = m;
} else {
sub->buf[0] = m;
sub->cnt = 1;
}
} else {
if (sub->cnt < BatchSize)
sub->buf[sub->cnt++] = m;
else
sub->buf[BatchSize - 1] = m;
sub->last = now;
sub->running.fetch_add(1, std::memory_order_acq_rel);
ready[readyCnt++] = sub;
}
}
portEXIT_CRITICAL(&s.mux);
for (size_t i = 0; i < readyCnt; ++i) {
Sub* sub = ready[i];
sub->cb(sub->buf, sub->cnt);
sub->cnt = 0;
sub->running.fetch_sub(1, std::memory_order_acq_rel);
}
}
static void worker(void*) {
auto& s = state();
Item it;
while (xQueueReceive(s.queue, &it, portMAX_DELAY) == pdTRUE) dispatch(it.payload, it.exclude);
}
static void ensureTask() {
auto& s = state();
if (!s.taskStarted.load(std::memory_order_acquire)) {
bool expected = false;
if (s.taskStarted.compare_exchange_strong(expected, true, std::memory_order_acq_rel)) {
ensureQueue();
xTaskCreatePinnedToCore(worker, "evtbus", 4096, nullptr, 6, nullptr, 1);
}
}
}
static bool push(const Msg& m, size_t ex = NO_EX, TickType_t to = 0) {
ensureTask();
auto& s = state();
Item it {m, ex};
return xQueueSend(s.queue, &it, to) == pdTRUE;
}
public:
class Handle {
size_t idx {NO_EX};
friend class TypedEventBus;
explicit Handle(size_t i) : idx(i) {}
public:
Handle() = default;
Handle(const Handle&) = delete;
Handle& operator=(const Handle&) = delete;
Handle(Handle&& o) noexcept : idx(o.idx) { o.idx = NO_EX; }
Handle& operator=(Handle&& o) noexcept {
if (this != &o) {
unsubscribe();
idx = o.idx;
o.idx = NO_EX;
}
return *this;
}
~Handle() { unsubscribe(); }
void unsubscribe() {
if (idx < MaxSubs) {
auto& s = state();
Sub* sub = nullptr;
portENTER_CRITICAL(&s.mux);
sub = s.subs[idx];
if (sub) {
sub->enabled.store(false, std::memory_order_release);
}
portEXIT_CRITICAL(&s.mux);
if (sub) {
while (sub->running.load(std::memory_order_acquire) != 0) taskYIELD();
portENTER_CRITICAL(&s.mux);
s.subs[idx] = nullptr;
portEXIT_CRITICAL(&s.mux);
delete sub;
s.subCount.fetch_sub(1, std::memory_order_acq_rel);
}
idx = NO_EX;
}
}
bool valid() const { return idx < MaxSubs; }
};
static void store(const Msg& m) {
auto& s = state();
portENTER_CRITICAL(&s.mux);
s.latest = m;
s.hasLatest.store(true, std::memory_order_release);
portEXIT_CRITICAL(&s.mux);
}
template <typename C>
static void consume(C fn) {
static Handle h = subscribe(std::forward<C>(fn));
(void)h;
}
template <typename C>
static Handle subscribe(uint32_t ms, EmitMode mode, C fn) {
ensureTask();
auto& s = state();
portENTER_CRITICAL(&s.mux);
for (size_t i = 0; i < MaxSubs; ++i) {
if (!s.subs[i]) {
Sub* sub = new Sub();
sub->cb.set(std::move(fn));
sub->interval = pdMS_TO_TICKS(ms);
sub->last = xTaskGetTickCount() - sub->interval;
sub->mode = mode;
sub->cnt = 0;
sub->enabled.store(true, std::memory_order_release);
sub->running.store(0, std::memory_order_release);
s.subs[i] = sub;
s.subCount.fetch_add(1, std::memory_order_acq_rel);
portEXIT_CRITICAL(&s.mux);
return Handle(i);
}
}
portEXIT_CRITICAL(&s.mux);
return Handle(NO_EX);
}
template <typename C>
static Handle subscribe(C fn) {
if constexpr (std::is_invocable_v<C, const Msg*, size_t>)
return subscribe(0, EmitMode::Latest, std::move(fn));
else
return subscribe(0, EmitMode::Latest, [fn = std::move(fn)](const Msg* p, size_t n) {
for (size_t i = 0; i < n; ++i) fn(p[i]);
});
}
template <typename C>
static Handle subscribe(uint32_t ms, C fn) {
if constexpr (std::is_invocable_v<C, const Msg*, size_t>)
return subscribe(ms, EmitMode::Batch, std::move(fn));
else
return subscribe(ms, EmitMode::Batch, [fn = std::move(fn)](const Msg* p, size_t n) {
for (size_t i = 0; i < n; ++i) fn(p[i]);
});
}
static bool publish(const Msg& m) {
store(m);
return push(m);
}
static bool publish(const Msg& m, const Handle& h) {
store(m);
return push(m, h.valid() ? h.idx : NO_EX);
}
static void publishISR(const Msg& m, BaseType_t* hpw = nullptr) {
auto& s = state();
storeISR(m);
ensureQueue();
Item it {m, NO_EX};
xQueueSendFromISR(s.queue, &it, hpw);
}
static bool peek(Msg& out) {
auto& s = state();
if (!s.hasLatest.load(std::memory_order_acquire)) return false;
portENTER_CRITICAL(&s.mux);
out = s.latest;
portEXIT_CRITICAL(&s.mux);
return true;
}
static bool take(Msg& out) {
auto& s = state();
if (!s.hasLatest.load(std::memory_order_acquire)) return false;
portENTER_CRITICAL(&s.mux);
out = s.latest;
s.hasLatest.store(false, std::memory_order_release);
portEXIT_CRITICAL(&s.mux);
return true;
}
static bool hasSubscribers() { return state().subCount.load(std::memory_order_acquire) > 0; }
};
esp32/include/features.h
+1 -11
View File
@@ -1,7 +1,6 @@
#pragma once
#include <WiFi.h>
#include <ArduinoJson.h>
#include <wifi/wifi_idf.h>
#include <esp_http_server.h>
#include "platform_shared/message.pb.h"
@@ -19,15 +18,6 @@
#define USE_BNO055 1
#endif
// ESP32 IMU off by default
#ifndef USE_ICM20948
#define USE_ICM20948 0
#endif
#ifndef USE_ICM20948_SPIMODE // I2C on by default
#define USE_ICM20948_SPIMODE 0
#endif
// ESP32 magnetometer on by default
#ifndef USE_HMC5883
#define USE_HMC5883 0
#endif
esp32/include/filesystem.h
+22 -12
View File
@@ -1,29 +1,39 @@
#pragma once
#include <esp_http_server.h>
#include <ArduinoJson.h>
#include <LittleFS.h>
#include <esp_littlefs.h>
#include <esp_vfs.h>
#include <dirent.h>
#include <sys/stat.h>
#include <string>
#include <cstdio>
#include <platform_shared/api.pb.h>
#define ESP_FS LittleFS
#define FS_CONFIG_DIRECTORY "/config"
#define DEVICE_CONFIG_FILE "/config/peripheral.json"
#define CAMERA_SETTINGS_FILE "/config/cameraSettings.pb"
#define AP_SETTINGS_FILE "/config/apSettings.pb"
#define MDNS_SETTINGS_FILE "/config/mdnsSettings.pb"
#define WIFI_SETTINGS_FILE "/config/wifiSettings.pb"
#define PERIPHERAL_SETTINGS_FILE "/config/peripheralSettings.pb"
#define SERVO_SETTINGS_FILE "/config/servoSettings.pb"
#define MOUNT_POINT "/littlefs"
#define FS_CONFIG_DIRECTORY MOUNT_POINT "/config"
#define DEVICE_CONFIG_FILE MOUNT_POINT "/config/peripheral.pb"
#define CAMERA_SETTINGS_FILE MOUNT_POINT "/config/cameraSettings.pb"
#define AP_SETTINGS_FILE MOUNT_POINT "/config/apSettings.pb"
#define MDNS_SETTINGS_FILE MOUNT_POINT "/config/mdnsSettings.pb"
#define WIFI_SETTINGS_FILE MOUNT_POINT "/config/wifiSettings.pb"
#define PERIPHERAL_SETTINGS_FILE MOUNT_POINT "/config/peripheralSettings.pb"
#define SERVO_SETTINGS_FILE MOUNT_POINT "/config/servoSettings.pb"
namespace FileSystem {
bool init();
void listFilesProto(const std::string &directory, api_FileEntry *entry);
std::string listFiles(const std::string &directory, bool isRoot = true);
bool deleteFile(const char *filename);
bool editFile(const char *filename, const uint8_t *content, size_t size);
bool editFile(const char *filename, const char *content);
bool fileExists(const char *filename);
std::string readFile(const char *filename);
bool writeFile(const char *filename, const char *content);
bool writeFile(const char *filename, const uint8_t *content, size_t size);
bool mkdirRecursive(const char *path);
esp_err_t getFilesProto(httpd_req_t *request);
esp_err_t getFiles(httpd_req_t *request);
esp32/include/filesystem_ws.h
+6 -27
View File
@@ -1,20 +1,20 @@
#pragma once
#include <LittleFS.h>
#include <platform_shared/message.pb.h>
#include <filesystem.h>
#include <map>
#include <string>
#include <functional>
#include <cstdio>
// Make sure that this aligns with socket_message.FSDownloadData.data max_size (and for upload)
#define FS_MAX_CHUNK_SIZE 16384 // ~= 16 kb
#define FS_TRANSFER_TIMEOUT_MS 30000 // 30 seconds
#define FS_MAX_CHUNK_SIZE 16384
#define FS_TRANSFER_TIMEOUT_MS 30000
namespace FileSystemWS {
struct DownloadState {
std::string path;
File file;
FILE* file;
uint32_t fileSize;
uint32_t chunkSize;
uint32_t totalChunks;
@@ -25,7 +25,7 @@ struct DownloadState {
struct UploadState {
std::string path;
File file;
FILE* file;
uint32_t fileSize;
uint32_t totalChunks;
uint32_t chunksReceived;
@@ -36,7 +36,6 @@ struct UploadState {
std::string errorMessage;
};
// Callback type for sending messages to clients
using SendMetadataCallback = std::function<void(const socket_message_FSDownloadMetadata&, int clientId)>;
using SendCallback = std::function<void(const socket_message_FSDownloadData&, int clientId)>;
using SendCompleteCallback = std::function<void(const socket_message_FSDownloadComplete&, int clientId)>;
@@ -46,35 +45,17 @@ class FileSystemHandler {
public:
FileSystemHandler();
// Set callbacks for sending streaming data
void setSendCallbacks(SendMetadataCallback sendMetadata, SendCallback sendData, SendCompleteCallback sendComplete,
SendUploadCompleteCallback sendUploadComplete);
// Delete file/directory
socket_message_FSDeleteResponse handleDelete(const socket_message_FSDeleteRequest& req);
// Create directory
socket_message_FSMkdirResponse handleMkdir(const socket_message_FSMkdirRequest& req);
// List directory
socket_message_FSListResponse handleList(const socket_message_FSListRequest& req);
// Streaming download - starts the download and streams all chunks
void handleDownloadRequest(const socket_message_FSDownloadRequest& req, int clientId);
// Streaming upload - start upload session
socket_message_FSUploadStartResponse handleUploadStart(const socket_message_FSUploadStart& req, int clientId);
// Streaming upload - receive chunk data (fire-and-forget from client)
void handleUploadData(const socket_message_FSUploadData& req);
// Cancel transfer
socket_message_FSCancelTransferResponse handleCancelTransfer(const socket_message_FSCancelTransfer& req);
// Cleanup expired transfers
void cleanupExpiredTransfers();
// Process pending downloads (call from main loop)
void processPendingDownloads();
private:
@@ -91,9 +72,7 @@ class FileSystemHandler {
void listDirectory(const std::string& path, socket_message_FSListResponse& response);
bool deleteRecursive(const std::string& path);
bool sendNextDownloadChunk(uint32_t transferId);
void finalizeUpload(uint32_t transferId, bool success, const std::string& error = "");
};
esp32/include/global.h
+7 -18
View File
@@ -1,14 +1,15 @@
#pragma once
#include <esp32-hal.h>
#include <sdkconfig.h>
#include <esp_system.h>
#if CONFIG_IDF_TARGET_ESP32 // ESP32/PICO-D4
#if CONFIG_IDF_TARGET_ESP32
#include "esp32/rom/rtc.h"
#ifndef ESP_PLATFORM_NAME
#define ESP_PLATFORM_NAME "ESP32"
#endif
#elif CONFIG_IDF_TARGET_ESP32S2
#include "esp32/rom/rtc.h"
#include "esp32s2/rom/rtc.h"
#ifndef ESP_PLATFORM_NAME
#define ESP_PLATFORM_NAME "ESP32-S2"
#endif
@@ -26,24 +27,12 @@
#error Target CONFIG_IDF_TARGET is not supported
#endif
#ifndef ARDUINO_VERSION
#ifndef STRINGIFY
#define STRINGIFY(s) #s
#endif
#define ARDUINO_VERSION_STR(major, minor, patch) "v" STRINGIFY(major) "." STRINGIFY(minor) "." STRINGIFY(patch)
#define ARDUINO_VERSION \
ARDUINO_VERSION_STR(ESP_ARDUINO_VERSION_MAJOR, ESP_ARDUINO_VERSION_MINOR, ESP_ARDUINO_VERSION_PATCH)
#endif
/*
* I2C software connection
*/
#ifndef SDA_PIN
#define SDA_PIN SDA
#define SDA_PIN 21
#endif
#ifndef SCL_PIN
#define SCL_PIN SCL
#define SCL_PIN 22
#endif
#ifndef I2C_FREQUENCY
#define I2C_FREQUENCY 100000UL
#endif
#endif
esp32/include/mdns_service.h
+19 -15
View File
@@ -1,23 +1,12 @@
#pragma once
#include <esp_http_server.h>
#include <ESPmDNS.h>
#include <template/stateful_service.h>
#include <template/stateful_proto_endpoint.h>
#include <template/stateful_persistence_pb.h>
#include <mdns.h>
#include <event_bus/event_bus.h>
#include <settings/mdns_settings.h>
#include <utils/timing.h>
class MDNSService : public StatefulService<MDNSSettings> {
private:
FSPersistencePB<MDNSSettings> _persistence;
bool _started {false};
void reconfigureMDNS();
void startMDNS();
void stopMDNS();
void addServices();
class MDNSService {
public:
MDNSService();
~MDNSService();
@@ -27,5 +16,20 @@ class MDNSService : public StatefulService<MDNSSettings> {
esp_err_t getStatus(httpd_req_t *request);
esp_err_t queryServices(httpd_req_t *request, api_Request *protoReq);
StatefulProtoEndpoint<MDNSSettings, api_MDNSSettings> protoEndpoint;
esp_err_t getSettings(httpd_req_t *request);
esp_err_t updateSettings(httpd_req_t *request, api_Request *protoReq);
private:
static constexpr const char *TAG = "MDNSService";
void onSettingsChanged(const api_MDNSSettings &newSettings);
MDNSSettings _settings = MDNSSettings_defaults();
EventBus::Handle<api_MDNSSettings> _settingsHandle;
bool _started {false};
void reconfigureMDNS();
void startMDNS();
void stopMDNS();
void addServices();
};
esp32/include/motion.h
+14
View File
@@ -14,13 +14,18 @@
#include <motion_states/stand_state.h>
#include <motion_states/rest_state.h>
#include <message_types.h>
#include <event_bus/event_bus.h>
enum class MOTION_STATE { DEACTIVATED, IDLE, CALIBRATION, REST, STAND, WALK };
class MotionService {
public:
using ModeChangeCallback = std::function<void(bool active)>;
void begin();
void setModeChangeCallback(ModeChangeCallback callback) { modeChangeCallback_ = callback; }
void handleAngles(const socket_message_AnglesData& data);
void handleInput(const socket_message_ControllerData& data);
@@ -42,6 +47,8 @@ class MotionService {
inline bool isActive() { return state != nullptr; }
private:
void subscribeToEvents();
Kinematics kinematics;
CommandMsg command = {0, 0, 0, 0, 0, 0, 0};
@@ -62,6 +69,13 @@ class MotionService {
float dir[12] = {1, -1, -1, -1, -1, -1, 1, -1, -1, -1, -1, -1};
int64_t lastUpdate = esp_timer_get_time();
ModeChangeCallback modeChangeCallback_;
EventBus::Handle<socket_message_ControllerData> controllerHandle_;
EventBus::Handle<socket_message_ModeData> modeHandle_;
EventBus::Handle<socket_message_AnglesData> anglesHandle_;
EventBus::Handle<socket_message_WalkGaitData> walkGaitHandle_;
};
#endif
esp32/include/motion_states/state.h
+5 -3
View File
@@ -2,6 +2,8 @@
#include <kinematics.h>
#include <message_types.h>
#include <utils/math_utils.h>
#include <cstring>
class MotionState {
protected:
@@ -26,15 +28,15 @@ class MotionState {
}
void updateFeet(body_state_t& body_state, const float smoothing_factor = default_smoothing_factor) {
if (target_body_state.feet != body_state.feet) {
if (std::memcmp(target_body_state.feet, body_state.feet, sizeof(body_state.feet)) != 0) {
body_state.updateFeet(target_body_state.feet);
}
}
public:
void updateImuOffsets(const float new_omega, const float new_psi) {
omega_offset = new_omega * RAD_TO_DEG;
psi_offset = new_psi * RAD_TO_DEG;
omega_offset = RAD_TO_DEG_F(new_omega);
psi_offset = RAD_TO_DEG_F(new_psi);
}
virtual ~MotionState() {}
esp32/include/peripherals/barometer.h
+1 -1
View File
@@ -13,7 +13,7 @@ struct BarometerMsg {
class Barometer : public SensorBase<BarometerMsg> {
public:
bool initialize(void* _) {
bool initialize() override {
_msg.success = _bmp.begin();
if (_msg.success) {
ESP_LOGI("BMP", "BMP180 initialized successfully");
esp32/include/peripherals/camera_service.h
+10 -7
View File
@@ -1,12 +1,9 @@
#pragma once
#include <esp_http_server.h>
#include <WiFi.h>
#include <features.h>
#include <template/stateful_service.h>
#include <template/stateful_proto_endpoint.h>
#include <template/stateful_persistence_pb.h>
#include <event_bus/event_bus.h>
#include <settings/camera_settings.h>
@@ -24,7 +21,7 @@ camera_fb_t *safe_camera_fb_get();
sensor_t *safe_sensor_get();
void safe_sensor_return();
class CameraService : public StatefulService<CameraSettings> {
class CameraService {
public:
CameraService();
@@ -33,10 +30,16 @@ class CameraService : public StatefulService<CameraSettings> {
esp_err_t cameraStill(httpd_req_t *request);
esp_err_t cameraStream(httpd_req_t *request);
StatefulProtoEndpoint<CameraSettings, api_CameraSettings> protoEndpoint;
esp_err_t getSettings(httpd_req_t *request);
esp_err_t updateSettings(httpd_req_t *request, api_Request *protoReq);
private:
FSPersistencePB<CameraSettings> _persistence;
static constexpr const char *TAG = "CameraService";
void onSettingsChanged(const api_CameraSettings &newSettings);
void updateCamera();
CameraSettings _settings = CameraSettings_defaults();
EventBus::Handle<api_CameraSettings> _settingsHandle;
};
} // namespace Camera
esp32/include/peripherals/drivers/mpu6050.h
+1 -2
View File
@@ -316,8 +316,7 @@ class MPU6050Driver {
i += chunkSize;
address += chunkSize;
if (address == 0 || address >= 256) {
address = 0;
if (address == 0) {
bank++;
setMemoryBank(bank);
}
esp32/include/peripherals/imu.h
+7 -60
View File
@@ -4,10 +4,6 @@
#include <features.h>
#include <peripherals/sensor.hpp>
#if FT_ENABLED(USE_ICM20948)
#include "ICM_20948.h"
#endif
#if FT_ENABLED(USE_MPU6050)
#include <peripherals/drivers/mpu6050.h>
#endif
@@ -24,7 +20,7 @@ struct IMUAnglesMsg {
class IMU : public SensorBase<IMUAnglesMsg> {
public:
bool initialize(void* _arg = nullptr) override {
bool initialize() override {
#if FT_ENABLED(USE_MPU6050)
_msg.success = _imu.begin();
if (!_msg.success) {
@@ -39,43 +35,13 @@ class IMU : public SensorBase<IMUAnglesMsg> {
ESP_LOGE("IMU", "BNO055 initialization failed");
return false;
}
#endif
#if FT_ENABLED(USE_ICM20948)
#if FT_ENABLED(USE_ICM20948_SPIMODE) > 0
#define ICM_20948_USE_DMP // TODO: Move to features.ini
SPI_PORT.begin(SPI_SCK, SPI_MISO, SPI_MOSI, -1); // TODO: Move to global spi start
_imu = (ICM_20948_SPI*)_arg;
#ifndef ICM20948_ALIVE
#define ICM20948_ALIVE
_imu->begin(ICM20948_SPI_CS, SPI_PORT); ESP_LOGI("IMU", "Beginning ICM20948 in SPI mode");
_imu->initializeDMP();
#endif
#else
_imu = (ICM_20948_I2C*)_arg;
#ifndef ICM20948_ALIVE
#define ICM20948_ALIVE
_imu->begin(Wire, 1, 0xFF); ESP_LOGI("IMU", "Beginning ICM20948 in I2C mode");
#endif
#endif
if (_imu->status != ICM_20948_Stat_Ok){ ESP_LOGW("IMU", "Failed to start ICM20948: begin failed"); return false; }
_imu->setSampleMode((ICM_20948_Internal_Acc | ICM_20948_Internal_Gyr), ICM_20948_Sample_Mode_Continuous);
if (_imu->status != ICM_20948_Stat_Ok){ ESP_LOGW("IMU", "Failed to start ICM20948: set sample failed"); return false; }
ICM_20948_fss_t myFSS;
myFSS.a = gpm2;
myFSS.g = dps250;
_imu->setFullScale((ICM_20948_Internal_Acc | ICM_20948_Internal_Gyr), myFSS);
if (_imu->status != ICM_20948_Stat_Ok){ ESP_LOGW("IMU", "Failed to start ICM20948: set full scale failed"); return false; }
// TODO: Setup low pass filter config
_msg.success = true;
ESP_LOGI("IMU", "BNO055 initialized successfully");
#endif
return _msg.success;
}
bool update() override {
//if (!_msg.success) return false;
if (!_msg.success) return false;
#if FT_ENABLED(USE_MPU6050)
if (!_imu.update()) return false;
_msg.rpy[0] = _imu.getYaw();
@@ -83,22 +49,11 @@ class IMU : public SensorBase<IMUAnglesMsg> {
_msg.rpy[2] = _imu.getRoll();
_msg.temperature = _imu.getTemperature();
#endif
#if FT_ENABLED(USE_ICM20948)
#ifndef ICM20948_GET_AGMT_UPDATED_ONCE_PER_LOOP
#define ICM20948_GET_AGMT_UPDATED_ONCE_PER_LOOP
if (_imu->dataReady())
{
_imu->getAGMT();
} else {
return false;
}
#endif
_msg.rpy[0] = _imu->accX();
_msg.rpy[1] = _imu->accY();
_msg.rpy[2] = _imu->accZ();
#endif
#if FT_ENABLED(USE_BNO055)
if (!_imu.update()) return false;
_msg.rpy[0] = _imu.getHeading();
_msg.rpy[1] = _imu.getPitch();
_msg.rpy[2] = _imu.getRoll();
#endif
return true;
}
@@ -133,12 +88,4 @@ class IMU : public SensorBase<IMUAnglesMsg> {
#if FT_ENABLED(USE_BNO055)
BNO055Driver _imu;
#endif
#if FT_ENABLED(USE_ICM20948)
#if FT_ENABLED(USE_ICM20948_SPIMODE) > 0
ICM_20948_SPI* _imu;
#else
//#define WIRE_PORT Wire
ICM_20948_I2C* _imu;
#endif
#endif
};
esp32/include/peripherals/led_service.h
+72 -23
View File
@@ -1,56 +1,105 @@
#ifndef LEDService_h
#define LEDService_h
#include <FastLED.h>
#include <driver/rmt_tx.h>
#include <led_strip.h>
#include <led_strip_rmt.h>
#include <wifi/wifi_idf.h>
#include <utils/timing.h>
#include <esp_log.h>
#ifndef WS2812_PIN
#define WS2812_PIN 12
#endif
#ifndef WS2812_NUM_LEDS
#define WS2812_NUM_LEDS 1 + 12
#define WS2812_NUM_LEDS 13
#endif
#define COLOR_ORDER GRB
#define CHIPSET WS2811
class LEDService {
private:
CRGB leds[WS2812_NUM_LEDS];
CRGBPalette16 currentPalette;
TBlendType currentBlending;
led_strip_handle_t led_strip = nullptr;
int _brightness = 255;
int direction = 1;
bool initialized = false;
struct RGB {
uint8_t r, g, b;
};
RGB oceanColor = {0, 119, 190};
RGB forestColor = {34, 139, 34};
public:
LEDService() {
FastLED.addLeds<CHIPSET, WS2812_PIN, COLOR_ORDER>(leds, WS2812_NUM_LEDS).setCorrection(TypicalLEDStrip);
currentPalette = OceanColors_p;
currentBlending = LINEARBLEND;
LEDService() {}
~LEDService() {
if (initialized && led_strip) {
led_strip_del(led_strip);
}
}
void begin() {
if (initialized) return;
led_strip_config_t strip_config = {
.strip_gpio_num = WS2812_PIN,
.max_leds = WS2812_NUM_LEDS,
.led_pixel_format = LED_PIXEL_FORMAT_GRB,
.led_model = LED_MODEL_WS2812,
.flags = {.invert_out = false},
};
led_strip_rmt_config_t rmt_config = {
.clk_src = RMT_CLK_SRC_DEFAULT,
.resolution_hz = 10 * 1000 * 1000,
.mem_block_symbols = 64,
.flags = {.with_dma = false},
};
esp_err_t err = led_strip_new_rmt_device(&strip_config, &rmt_config, &led_strip);
if (err == ESP_OK) {
initialized = true;
led_strip_clear(led_strip);
ESP_LOGI("LEDService", "LED strip initialized on GPIO %d", WS2812_PIN);
} else {
ESP_LOGE("LEDService", "Failed to initialize LED strip: %s", esp_err_to_name(err));
}
}
~LEDService() {}
void loop() {
if (!initialized) return;
EXECUTE_EVERY_N_MS(1000 / 60, {
if (_brightness >= 200) direction = -5;
if (_brightness <= 50) direction = 5;
_brightness += direction;
if (WiFi.isConnected()) {
fillFromPallette(OceanColors_p, 0);
} else {
fillFromPallette(ForestColors_p, 128);
RGB color = WiFi.isConnected() ? oceanColor : forestColor;
uint8_t r = (color.r * _brightness) / 255;
uint8_t g = (color.g * _brightness) / 255;
uint8_t b = (color.b * _brightness) / 255;
for (int i = 0; i < WS2812_NUM_LEDS; ++i) {
led_strip_set_pixel(led_strip, i, r, g, b);
}
FastLED.show();
led_strip_refresh(led_strip);
});
}
void fillFromPallette(CRGBPalette16 colorPalette, uint8_t colorIndex) {
CRGB color = ColorFromPalette(colorPalette, colorIndex, _brightness, currentBlending);
void setColor(uint8_t r, uint8_t g, uint8_t b) {
if (!initialized) return;
for (int i = 0; i < WS2812_NUM_LEDS; ++i) {
leds[i] = color;
led_strip_set_pixel(led_strip, i, r, g, b);
}
led_strip_refresh(led_strip);
}
void clear() {
if (!initialized) return;
led_strip_clear(led_strip);
}
};
#endif
#endif
esp32/include/peripherals/magnetometer.h
+13 -66
View File
@@ -12,63 +12,23 @@ struct MagnetometerMsg {
class Magnetometer : public SensorBase<MagnetometerMsg> {
public:
bool initialize(void* _arg) override {
#if FT_ENABLED(USE_ICM20948)
#if FT_ENABLED(USE_ICM20948_SPIMODE) > 0
SPI_PORT.begin(SPI_SCK, SPI_MISO, SPI_MOSI, -1);
_mag = (ICM_20948_SPI*)_arg;
#ifndef ICM20948_ALIVE
#define ICM20948_ALIVE
_imu->begin(ICM20948_SPI_CS, SPI_PORT); ESP_LOGI("Magnetometer", "Beginning ICM20948 in SPI mode");
#endif
#else
_mag = (ICM_20948_I2C*)_arg;
#ifndef ICM20948_ALIVE
#define ICM20948_ALIVE
if (!_mag->isConnected()) { _mag->begin(Wire, 1, 0xFF); ESP_LOGI("Magnetometer", "Beginning ICM20948 in I2C mode"); }
#endif
#endif
if (_mag->status != ICM_20948_Stat_Ok){ return false; }
_mag->startupMagnetometer();
if (_mag->status != ICM_20948_Stat_Ok){ return false; }
_msg.success = true;
#elif FT_ENABLED(USE_HMC5883)
_msg.success = _mag.begin();
#endif
bool initialize() override {
_msg.success = _mag.begin();
if (_msg.success) {
ESP_LOGI("MAG", "HMC5883L initialized successfully");
} else {
ESP_LOGE("MAG", "HMC5883L initialization failed");
}
return _msg.success;
}
bool update() override {
if (!_msg.success) return false;
#if FT_ENABLED(USE_ICM20948)
#ifndef ICM20948_GET_AGMT_UPDATED_ONCE_PER_LOOP
#define ICM20948_GET_AGMT_UPDATED_ONCE_PER_LOOP
if (_imu->dataReady())
{
_imu->getAGMT();
} else {
return false;
}
#endif
_msg.rpy[0] = _mag->magX();
_msg.rpy[1] = _mag->magY();
_msg.rpy[2] = _mag->magZ();
#elif FT_ENABLED(USE_HMC5883)
sensors_event_t event;
bool updated = _mag.getEvent(&event);
if (!updated) return false;
_msg.rpy[0] = event.magnetic.x;
_msg.rpy[1] = event.magnetic.y;
_msg.rpy[2] = event.magnetic.z;
#endif
_msg.heading = atan2(_msg.rpy[1], _msg.rpy[0]); // atan2(y, x)
_msg.heading += declinationAngle;
if (_msg.heading < 0) _msg.heading += 2 * PI;
if (_msg.heading > 2 * PI) _msg.heading -= 2 * PI;
_msg.heading *= 180 / M_PI;
if (!_mag.update()) return false;
_msg.rpy[0] = _mag.getMagX();
_msg.rpy[1] = _mag.getMagY();
_msg.rpy[2] = _mag.getMagZ();
_msg.heading = _mag.getHeading();
return true;
}
@@ -78,18 +38,5 @@ class Magnetometer : public SensorBase<MagnetometerMsg> {
float getHeading() { return _msg.heading; }
private:
#if FT_ENABLED(USE_ICM20948)
#if FT_ENABLED(USE_ICM20948_SPIMODE) > 0
#define SPI_PORT SPI // TODO in periphearals_seetings.h
#define CS_PIN 2
ICM_20948_SPI* _mag;
#else
//#define WIRE_PORT Wire
ICM_20948_I2C* _mag;
#endif
#elif FT_ENABLED(USE_HMC5883)
Adafruit_HMC5883_Unified _mag {12345};
#endif
const float declinationAngle = 0.22;
HMC5883LDriver _mag;
};
esp32/include/peripherals/peripherals.h
+15 -9
View File
@@ -1,18 +1,19 @@
#pragma once
#include <template/stateful_persistence_pb.h>
#include <template/stateful_service.h>
#include <template/stateful_proto_endpoint.h>
#include <event_bus/event_bus.h>
#include <utils/math_utils.h>
#include <utils/timing.h>
#include <filesystem.h>
#include <features.h>
#include <settings/peripherals_settings.h>
#include <platform_shared/message.pb.h>
#include <esp_http_server.h>
#include <list>
#if FT_ENABLED(USE_USS)
#include <NewPing.h>
#endif
#include <peripherals/i2c_bus.h>
#include <peripherals/imu.h>
#include <peripherals/magnetometer.h>
@@ -24,7 +25,7 @@
*/
#define MAX_DISTANCE 200
class Peripherals : public StatefulService<PeripheralsConfiguration> {
class Peripherals {
public:
Peripherals();
@@ -40,7 +41,6 @@ class Peripherals : public StatefulService<PeripheralsConfiguration> {
void getIMUProto(socket_message_IMUData &data);
void getSettingsProto(socket_message_PeripheralSettingsData &data);
/* IMU FUNCTIONS */
bool readImu();
bool readMag();
@@ -64,20 +64,26 @@ class Peripherals : public StatefulService<PeripheralsConfiguration> {
bool calibrateIMU();
StatefulProtoEndpoint<PeripheralsConfiguration, api_PeripheralSettings> protoEndpoint;
esp_err_t getSettings(httpd_req_t *request);
esp_err_t updateSettings(httpd_req_t *request, api_Request *protoReq);
private:
FSPersistencePB<PeripheralsConfiguration> _persistence;
static constexpr const char *TAG = "Peripherals";
void onSettingsChanged(const api_PeripheralSettings &newSettings);
PeripheralsConfiguration _settings = PeripheralsConfiguration_defaults();
EventBus::Handle<api_PeripheralSettings> _settingsHandle;
SemaphoreHandle_t _accessMutex;
inline void beginTransaction() { xSemaphoreTakeRecursive(_accessMutex, portMAX_DELAY); }
inline void endTransaction() { xSemaphoreGiveRecursive(_accessMutex); }
#if FT_ENABLED(USE_MPU6050 || USE_BNO055 || USE_ICM20948)
#if FT_ENABLED(USE_MPU6050 || USE_BNO055)
IMU _imu;
#endif
#if FT_ENABLED(USE_HMC5883) || FT_ENABLED(USE_ICM20948)
#if FT_ENABLED(USE_HMC5883)
Magnetometer _mag;
#endif
#if FT_ENABLED(USE_BMP180)
esp32/include/peripherals/sensor.hpp
+1 -1
View File
@@ -3,7 +3,7 @@
template <class T>
class SensorBase {
public:
virtual bool initialize(void* _arg) = 0;
virtual bool initialize() = 0;
virtual bool update() = 0;
virtual bool isActive() { return _msg.success; }
esp32/include/peripherals/servo_controller.h
+35 -32
View File
@@ -2,11 +2,11 @@
#define ServoController_h
#include <peripherals/drivers/pca9685.h>
#include <template/stateful_persistence_pb.h>
#include <template/stateful_proto_endpoint.h>
#include <template/stateful_service.h>
#include <event_bus/event_bus.h>
#include <utils/math_utils.h>
#include <platform_shared/api.pb.h>
#include <platform_shared/message.pb.h>
#include <esp_http_server.h>
#ifndef FACTORY_SERVO_PWM_FREQUENCY
#define FACTORY_SERVO_PWM_FREQUENCY 50
@@ -24,43 +24,40 @@ inline ServoSettings ServoSettings_defaults() {
ServoSettings settings = {};
settings.servos_count = 12;
const api_Servo defaults[12] = {
{306, -1, 0, 2.0f, "Servo1"}, {306, 1, -45, 2.0f, "Servo2"},
{306, 1, 90, 2.0f, "Servo3"}, {306, -1, 0, 2.0f, "Servo4"},
{306, -1, 45, 2.0f, "Servo5"}, {306, -1, -90, 2.0f, "Servo6"},
{306, 1, 0, 2.0f, "Servo7"}, {306, 1, -45, 2.0f, "Servo8"},
{306, 1, 90, 2.0f, "Servo9"}, {306, 1, 0, 2.0f, "Servo10"},
{306, -1, 45, 2.0f, "Servo11"}, {306, -1, -90, 2.0f, "Servo12"}
};
{306, -1, 0, 2.0f, "Servo1"}, {306, 1, -45, 2.0f, "Servo2"}, {306, 1, 90, 2.0f, "Servo3"},
{306, -1, 0, 2.0f, "Servo4"}, {306, -1, 45, 2.0f, "Servo5"}, {306, -1, -90, 2.0f, "Servo6"},
{306, 1, 0, 2.0f, "Servo7"}, {306, 1, -45, 2.0f, "Servo8"}, {306, 1, 90, 2.0f, "Servo9"},
{306, 1, 0, 2.0f, "Servo10"}, {306, -1, 45, 2.0f, "Servo11"}, {306, -1, -90, 2.0f, "Servo12"}};
for (int i = 0; i < 12; i++) {
settings.servos[i] = defaults[i];
}
return settings;
}
inline void ServoSettings_read(const ServoSettings &settings, ServoSettings &proto) {
proto = settings;
}
inline StateUpdateResult ServoSettings_update(const ServoSettings &proto, ServoSettings &settings) {
settings = proto;
return StateUpdateResult::CHANGED;
}
class ServoController : public StatefulService<ServoSettings> {
class ServoController {
public:
ServoController()
: protoEndpoint(ServoSettings_read, ServoSettings_update, this,
API_REQUEST_EXTRACTOR(servo_settings, ServoSettings),
API_RESPONSE_ASSIGNER(servo_settings, ServoSettings)),
_persistence(ServoSettings_read, ServoSettings_update, this,
SERVO_SETTINGS_FILE, api_ServoSettings_fields, api_ServoSettings_size,
ServoSettings_defaults()) {}
ServoController() {}
void begin() {
_persistence.readFromFS();
_settingsHandle = EventBus::subscribe<api_ServoSettings>(
[this](const api_ServoSettings &settings) { onSettingsChanged(settings); });
_pwmHandle = EventBus::subscribe<socket_message_ServoPWMData>(
[this](const socket_message_ServoPWMData &data) { setServoPWM(data.servo_id, data.servo_pwm); });
_stateHandle = EventBus::subscribe<socket_message_ServoStateData>(
[this](const socket_message_ServoStateData &data) { data.active ? activate() : deactivate(); });
api_ServoSettings initialSettings;
if (EventBus::peek(initialSettings)) {
onSettingsChanged(initialSettings);
}
initializePCA();
}
esp_err_t getSettings(httpd_req_t *request);
esp_err_t updateSettings(httpd_req_t *request, api_Request *protoReq);
void pcaWrite(int index, int value) {
if (value < 0 || value > 4096) {
ESP_LOGE("Peripherals", "Invalid PWM value %d for %d :: Valid range 0-4096", value, index);
@@ -109,7 +106,7 @@ class ServoController : public StatefulService<ServoSettings> {
uint16_t pwms[12];
for (int i = 0; i < 12; i++) {
angles[i] = lerp(angles[i], target_angles[i], 0.1);
auto &servo = state().servos[i];
auto &servo = _settings.servos[i];
float angle = servo.direction * angles[i] + servo.center_angle;
uint16_t pwm = angle * servo.conversion + servo.center_pwm;
pwms[i] = pwm = std::clamp<uint16_t>(pwm, 125, 600);
@@ -121,16 +118,22 @@ class ServoController : public StatefulService<ServoSettings> {
if (control_state == SERVO_CONTROL_STATE::ANGLE) calculatePWM();
}
StatefulProtoEndpoint<ServoSettings, ServoSettings> protoEndpoint;
private:
static constexpr const char *TAG = "ServoController";
void onSettingsChanged(const api_ServoSettings &newSettings) { _settings = newSettings; }
void initializePCA() {
_pca.begin();
_pca.setOscillatorFrequency(FACTORY_SERVO_OSCILLATOR_FREQUENCY);
_pca.setPWMFreq(FACTORY_SERVO_PWM_FREQUENCY);
_pca.sleep();
}
FSPersistencePB<ServoSettings> _persistence;
api_ServoSettings _settings = ServoSettings_defaults();
EventBus::Handle<api_ServoSettings> _settingsHandle;
EventBus::Handle<socket_message_ServoPWMData> _pwmHandle;
EventBus::Handle<socket_message_ServoStateData> _stateHandle;
PCA9685Driver _pca;
esp32/include/settings/ap_settings.h
+2 -13
View File
@@ -1,12 +1,10 @@
#pragma once
#include <WiFi.h>
#include <template/state_result.h>
#include <wifi/wifi_idf.h>
#include <wifi/dns_server.h>
#include <platform_shared/api.pb.h>
#include <cstring>
#include <DNSServer.h>
#ifndef FACTORY_AP_PROVISION_MODE
#define FACTORY_AP_PROVISION_MODE api_APProvisionMode_AP_MODE_DISCONNECTED
#endif
@@ -76,12 +74,3 @@ inline APSettings APSettings_defaults() {
settings.subnet_mask = parseIPv4(FACTORY_AP_SUBNET_MASK);
return settings;
}
inline void APSettings_read(const APSettings &settings, APSettings &proto) {
proto = settings;
}
inline StateUpdateResult APSettings_update(const APSettings &proto, APSettings &settings) {
settings = proto;
return StateUpdateResult::CHANGED;
}
esp32/include/settings/camera_settings.h
-11
View File
@@ -1,6 +1,5 @@
#pragma once
#include <template/state_result.h>
#include <platform_shared/api.pb.h>
#include <esp_camera.h>
@@ -45,14 +44,4 @@ inline CameraSettings CameraSettings_defaults() {
return settings;
}
// Proto read/update are identity functions since type is the same
inline void CameraSettings_read(const CameraSettings& settings, CameraSettings& proto) {
proto = settings;
}
inline StateUpdateResult CameraSettings_update(const CameraSettings& proto, CameraSettings& settings) {
settings = proto;
return StateUpdateResult::CHANGED;
}
} // namespace Camera
esp32/include/settings/mdns_settings.h
-11
View File
@@ -1,6 +1,5 @@
#pragma once
#include <template/state_result.h>
#include <platform_shared/api.pb.h>
#include <string>
#include <cstring>
@@ -45,13 +44,3 @@ inline MDNSSettings MDNSSettings_defaults() {
return settings;
}
// Proto read/update are identity functions since type is the same
inline void MDNSSettings_read(const MDNSSettings& settings, MDNSSettings& proto) {
proto = settings;
}
inline StateUpdateResult MDNSSettings_update(const MDNSSettings& proto, MDNSSettings& settings) {
settings = proto;
return StateUpdateResult::CHANGED;
}
esp32/include/settings/ntp_settings.h
-43
View File
@@ -1,43 +0,0 @@
#include <Arduino.h>
#include <template/state_result.h>
#include <ArduinoJson.h>
#include <string>
#ifndef FACTORY_NTP_ENABLED
#define FACTORY_NTP_ENABLED true
#endif
#ifndef FACTORY_NTP_TIME_ZONE_LABEL
#define FACTORY_NTP_TIME_ZONE_LABEL "Europe/London"
#endif
#ifndef FACTORY_NTP_TIME_ZONE_FORMAT
#define FACTORY_NTP_TIME_ZONE_FORMAT "GMT0BST,M3.5.0/1,M10.5.0"
#endif
#ifndef FACTORY_NTP_SERVER
#define FACTORY_NTP_SERVER "time.google.com"
#endif
class NTPSettings {
public:
bool enabled;
std::string tzLabel;
std::string tzFormat;
std::string server;
static void read(NTPSettings &settings, JsonVariant &root) {
root["enabled"] = settings.enabled;
root["server"] = settings.server.c_str();
root["tz_label"] = settings.tzLabel.c_str();
root["tz_format"] = settings.tzFormat.c_str();
}
static StateUpdateResult update(JsonVariant &root, NTPSettings &settings) {
settings.enabled = root["enabled"] | FACTORY_NTP_ENABLED;
settings.server = root["server"] | FACTORY_NTP_SERVER;
settings.tzLabel = root["tz_label"] | FACTORY_NTP_TIME_ZONE_LABEL;
settings.tzFormat = root["tz_format"] | FACTORY_NTP_TIME_ZONE_FORMAT;
return StateUpdateResult::CHANGED;
}
};
esp32/include/settings/peripherals_settings.h
+3 -14
View File
@@ -1,19 +1,18 @@
#pragma once
#include <template/state_result.h>
#include <platform_shared/api.pb.h>
/*
* I2C software connection
*/
#ifndef SDA_PIN
#define SDA_PIN SDA
#define SDA_PIN 21
#endif
#ifndef SCL_PIN
#define SCL_PIN SCL
#define SCL_PIN 22
#endif
#ifndef I2C_FREQUENCY
#define I2C_FREQUENCY 400000UL
#define I2C_FREQUENCY 1000000UL
#endif
// Use proto types directly
@@ -29,13 +28,3 @@ inline PeripheralsConfiguration PeripheralsConfiguration_defaults() {
settings.pins_count = 0;
return settings;
}
// Proto read/update are identity functions since type is the same
inline void PeripheralsConfiguration_read(const PeripheralsConfiguration& settings, PeripheralsConfiguration& proto) {
proto = settings;
}
inline StateUpdateResult PeripheralsConfiguration_update(const PeripheralsConfiguration& proto, PeripheralsConfiguration& settings) {
settings = proto;
return StateUpdateResult::CHANGED;
}
esp32/include/settings/wifi_settings.h
+2 -11
View File
@@ -1,7 +1,6 @@
#pragma once
#include <WiFi.h>
#include <template/state_result.h>
#include <wifi/wifi_idf.h>
#include <platform_shared/api.pb.h>
#include <cstring>
@@ -42,18 +41,10 @@ inline WiFiSettings WiFiSettings_defaults() {
strncpy(settings.hostname, FACTORY_WIFI_HOSTNAME, sizeof(settings.hostname) - 1);
settings.priority_rssi = true;
settings.wifi_networks_count = 0;
settings.selected_network = 0;
if (strlen(FACTORY_WIFI_SSID) > 0) {
settings.wifi_networks[0] = WiFiNetwork_defaults();
settings.wifi_networks_count = 1;
}
return settings;
}
inline void WiFiSettings_read(const WiFiSettings &settings, WiFiSettings &proto) {
proto = settings;
}
inline StateUpdateResult WiFiSettings_update(const WiFiSettings &proto, WiFiSettings &settings) {
settings = proto;
return StateUpdateResult::CHANGED;
}
esp32/include/system_service.h
+2 -3
View File
@@ -1,8 +1,8 @@
#pragma once
#include <ESPmDNS.h>
#include <mdns.h>
#include <esp_http_server.h>
#include <WiFi.h>
#include <wifi/wifi_idf.h>
#include <filesystem.h>
#include <global.h>
#include <esp_timer.h>
@@ -20,7 +20,6 @@ esp_err_t handleSleep(httpd_req_t *request);
void reset();
void restart();
void sleep();
void status(JsonObject &root);
void getAnalytics(socket_message_AnalyticsData &analytics);
void getStaticSystemInformation(socket_message_StaticSystemInformation &info);
esp32/include/template/state_result.h
-7
View File
@@ -1,7 +0,0 @@
#pragma once
enum class StateUpdateResult {
CHANGED = 0, // The update changed the state and propagation should take place if required
UNCHANGED, // The state was unchanged, propagation should not take place
ERROR // There was a problem updating the state, propagation should not take place
};
esp32/include/template/stateful_endpoint.h
-47
View File
@@ -1,47 +0,0 @@
#pragma once
#include <esp_http_server.h>
#include <ArduinoJson.h>
#include <template/stateful_service.h>
#include <communication/webserver.h>
#include <functional>
#define HTTP_ENDPOINT_ORIGIN_ID "http"
#define HTTPS_ENDPOINT_ORIGIN_ID "https"
template <class T>
class StatefulHttpEndpoint {
protected:
JsonStateReader<T> _stateReader;
JsonStateUpdater<T> _stateUpdater;
StatefulService<T> *_statefulService;
public:
StatefulHttpEndpoint(JsonStateReader<T> stateReader, JsonStateUpdater<T> stateUpdater,
StatefulService<T> *statefulService)
: _stateReader(stateReader), _stateUpdater(stateUpdater), _statefulService(statefulService) {}
esp_err_t handleStateUpdate(httpd_req_t *request, JsonVariant &json) {
JsonVariant jsonObject = json.as<JsonVariant>();
StateUpdateResult outcome = _statefulService->updateWithoutPropagation(jsonObject, _stateUpdater);
if (outcome == StateUpdateResult::ERROR) {
return WebServer::sendError(request, 400, "Invalid state");
} else if ((outcome == StateUpdateResult::CHANGED)) {
_statefulService->callUpdateHandlers(HTTP_ENDPOINT_ORIGIN_ID);
}
JsonDocument doc;
JsonVariant root = doc.to<JsonVariant>();
_statefulService->read(root, _stateReader);
return WebServer::sendJson(request, 200, doc);
}
esp_err_t getState(httpd_req_t *request) {
JsonDocument doc;
JsonVariant root = doc.to<JsonVariant>();
_statefulService->read(root, _stateReader);
return WebServer::sendJson(request, 200, doc);
}
};
esp32/include/template/stateful_persistence.h
-120
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@@ -1,120 +0,0 @@
#ifndef FSPersistence_h
#define FSPersistence_h
/**
* ESP32 SvelteKit
*
* A simple, secure and extensible framework for IoT projects for ESP32 platforms
* with responsive Sveltekit front-end built with TailwindCSS and DaisyUI.
* https://github.com/theelims/ESP32-sveltekit
*
* Copyright (C) 2018 - 2023 rjwats
* Copyright (C) 2023 theelims
* Copyright (C) 2025 runeharlyk
*
* All Rights Reserved. This software may be modified and distributed under
* the terms of the LGPL v3 license. See the LICENSE file for details.
**/
#include <FS.h>
#include <template/stateful_service.h>
#include <filesystem.h>
template <class T>
class FSPersistence {
public:
FSPersistence(JsonStateReader<T> stateReader, JsonStateUpdater<T> stateUpdater, StatefulService<T> *statefulService,
const char *filePath)
: _stateReader(stateReader),
_stateUpdater(stateUpdater),
_statefulService(statefulService),
_filePath(filePath),
_updateHandlerId(0) {
enableUpdateHandler();
}
void readFromFS() {
File settingsFile = _fs->open(_filePath, "r");
if (settingsFile) {
JsonDocument jsonDocument;
DeserializationError error = deserializeJson(jsonDocument, settingsFile);
if (error == DeserializationError::Ok) {
JsonVariant jsonObject = jsonDocument.as<JsonVariant>();
_statefulService->updateWithoutPropagation(jsonObject, _stateUpdater);
settingsFile.close();
return;
}
settingsFile.close();
}
// If we reach here we have not been successful in loading the config
// and hard-coded defaults are now applied. The settings are then
// written back to the file system so the defaults persist between
// resets. This last step is required as in some cases defaults contain
// randomly generated values which would otherwise be modified on reset.
applyDefaults();
writeToFS();
}
bool writeToFS() {
JsonDocument jsonDocument;
JsonVariant jsonObject = jsonDocument.to<JsonVariant>();
_statefulService->read(jsonObject, _stateReader);
mkdirs();
File file = _fs->open(_filePath, "w");
if (!file) return false;
serializeJson(jsonDocument, file);
file.close();
return true;
}
void disableUpdateHandler() {
if (_updateHandlerId) {
_statefulService->removeUpdateHandler(_updateHandlerId);
_updateHandlerId = 0;
}
}
void enableUpdateHandler() {
if (!_updateHandlerId) {
_updateHandlerId = _statefulService->addUpdateHandler([&](const std::string &originId) { writeToFS(); });
}
}
private:
JsonStateReader<T> _stateReader;
JsonStateUpdater<T> _stateUpdater;
StatefulService<T> *_statefulService;
FS *_fs {&ESP_FS};
const char *_filePath;
size_t _bufferSize;
HandlerId _updateHandlerId;
// We assume we have a _filePath with format
// "/directory1/directory2/filename" We create a directory for each missing
// parent
void mkdirs() {
std::string path(_filePath);
size_t index = 0;
while ((index = path.find('/', index + 1)) != std::string::npos) {
std::string segment = path.substr(0, index);
if (!_fs->exists(segment.c_str())) _fs->mkdir(segment.c_str());
}
}
protected:
// We assume the updater supplies sensible defaults if an empty object
// is supplied, this virtual function allows that to be changed.
virtual void applyDefaults() {
JsonDocument jsonDocument;
JsonVariant jsonObject = jsonDocument.as<JsonVariant>();
_statefulService->updateWithoutPropagation(jsonObject, _stateUpdater);
}
};
#endif // end FSPersistence
esp32/include/template/stateful_persistence_pb.h
-144
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@@ -1,144 +0,0 @@
#pragma once
#include <FS.h>
#include <template/stateful_service.h>
#include <template/state_result.h>
#include <filesystem.h>
#include <pb_encode.h>
#include <pb_decode.h>
/**
* Protobuf-based filesystem persistence for StatefulService.
*
* @tparam T The state type (should be a nanopb-generated struct like api_APSettings)
*/
template <class T>
class FSPersistencePB {
public:
// Formats are passed as referenced const (local variable) we want to read from, and a reference (proto) we write to
using ProtoStateReader = std::function<void(const T&, T&)>;
// Formats are passed as referenced const (new object) we read from, and a reference to the local variable we write to
using ProtoStateUpdater = std::function<StateUpdateResult(const T&, T&)>;
FSPersistencePB(ProtoStateReader stateReader, ProtoStateUpdater stateUpdater,
StatefulService<T> *statefulService, const char *filePath,
const pb_msgdesc_t *msgDescriptor, size_t maxSize,
const T &defaultState)
: _stateReader(stateReader),
_stateUpdater(stateUpdater),
_statefulService(statefulService),
_filePath(filePath),
_msgDescriptor(msgDescriptor),
_maxSize(maxSize),
_defaultState(defaultState),
_updateHandlerId(0) {
enableUpdateHandler();
}
void readFromFS() {
File file = _fs->open(_filePath, "r");
if (file) {
size_t fileSize = file.size();
if (fileSize > 0 && fileSize <= _maxSize) {
uint8_t *buffer = new uint8_t[fileSize];
size_t bytesRead = file.read(buffer, fileSize);
file.close();
if (bytesRead == fileSize) {
// Allocate on heap to avoid stack overflow with large proto messages
T *protoMsg = new T();
*protoMsg = {};
pb_istream_t stream = pb_istream_from_buffer(buffer, bytesRead);
if (pb_decode(&stream, _msgDescriptor, protoMsg)) {
_statefulService->updateWithoutPropagation(
[this, protoMsg](T &state) { return _stateUpdater(*protoMsg, state); });
delete protoMsg;
delete[] buffer;
return;
}
delete protoMsg;
}
delete[] buffer;
} else {
file.close();
}
}
applyDefaults();
writeToFS();
}
bool writeToFS() {
uint8_t *buffer = new uint8_t[_maxSize];
pb_ostream_t stream = pb_ostream_from_buffer(buffer, _maxSize);
// Allocate on heap to avoid stack overflow with large proto messages
T *protoMsg = new T();
*protoMsg = {};
_statefulService->read([this, protoMsg](const T &state) { _stateReader(state, *protoMsg); });
bool encodeSuccess = pb_encode(&stream, _msgDescriptor, protoMsg);
delete protoMsg;
if (!encodeSuccess) {
delete[] buffer;
return false;
}
mkdirs();
File file = _fs->open(_filePath, "w");
if (!file) {
delete[] buffer;
return false;
}
size_t written = file.write(buffer, stream.bytes_written);
file.close();
delete[] buffer;
return written == stream.bytes_written;
}
void disableUpdateHandler() {
if (_updateHandlerId) {
_statefulService->removeUpdateHandler(_updateHandlerId);
_updateHandlerId = 0;
}
}
void enableUpdateHandler() {
if (!_updateHandlerId) {
_updateHandlerId = _statefulService->addUpdateHandler(
[&](const std::string &originId) { writeToFS(); });
}
}
private:
ProtoStateReader _stateReader;
ProtoStateUpdater _stateUpdater;
StatefulService<T> *_statefulService;
FS *_fs{&ESP_FS};
const char *_filePath;
const pb_msgdesc_t *_msgDescriptor;
size_t _maxSize;
T _defaultState;
HandlerId _updateHandlerId;
void mkdirs() {
std::string path(_filePath);
size_t index = 0;
while ((index = path.find('/', index + 1)) != std::string::npos) {
std::string segment = path.substr(0, index);
if (!_fs->exists(segment.c_str())) _fs->mkdir(segment.c_str());
}
}
protected:
void applyDefaults() {
_statefulService->updateWithoutPropagation(
[this](T &state) { return _stateUpdater(_defaultState, state); });
}
};
esp32/include/template/stateful_proto_endpoint.h
-135
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@@ -1,135 +0,0 @@
#pragma once
#include <esp_http_server.h>
#include <template/stateful_service.h>
#include <communication/webserver.h>
#include <platform_shared/api.pb.h>
#include <pb_encode.h>
#include <pb_decode.h>
#include <functional>
#define PROTO_ENDPOINT_ORIGIN_ID "proto"
/**
* A stateful HTTP endpoint that uses protobuf encoding with api::Request/Response wrappers.
*
* @tparam T The internal state type (e.g., APSettings C++ class)
* @tparam ProtoT The protobuf message type within the oneof (e.g., api_APSettings)
*
* The endpoint receives api::Request, extracts the specific payload from the oneof,
* and returns api::Response with the updated state.
*/
template <class T, class ProtoT>
class StatefulProtoEndpoint {
public:
/** Converts internal state to protobuf message for responses */
// Formats are passed as referenced const (local variable) we want to read from, and a reference (proto) we write to
using ProtoStateReader = std::function<void(const T&, ProtoT&)>;
/** Converts incoming protobuf message to internal state */
// Formats are passed as referenced const (new object) we read from, and a reference to the local variable we write to
using ProtoStateUpdater = std::function<StateUpdateResult(const ProtoT&, T&)>;
/** Extracts the specific proto type from Request oneof */
using RequestExtractor = std::function<bool(const api_Request&, ProtoT&)>;
/** Assigns the specific proto type to Response oneof */
using ResponseAssigner = std::function<void(api_Response&, const ProtoT&)>;
protected:
ProtoStateReader _stateReader;
ProtoStateUpdater _stateUpdater;
StatefulService<T>* _statefulService;
RequestExtractor _requestExtractor;
ResponseAssigner _responseAssigner;
public:
/**
* Constructor for wrapped proto endpoint
* @param stateReader Converts internal state to proto
* @param stateUpdater Converts proto to internal state
* @param statefulService The stateful service to manage
* @param requestExtractor Extracts specific type from Request oneof
* @param responseAssigner Assigns specific type to Response oneof
*/
StatefulProtoEndpoint(ProtoStateReader stateReader, ProtoStateUpdater stateUpdater,
StatefulService<T>* statefulService,
RequestExtractor requestExtractor, ResponseAssigner responseAssigner)
: _stateReader(stateReader),
_stateUpdater(stateUpdater),
_statefulService(statefulService),
_requestExtractor(requestExtractor),
_responseAssigner(responseAssigner) {}
/**
* Handles POST requests: extracts payload from pre-decoded Request, updates state, returns Response
*/
esp_err_t handleStateUpdate(httpd_req_t* httpReq, api_Request* protoReq) {
ProtoT protoMsg = {};
if (!_requestExtractor(*protoReq, protoMsg)) {
return sendErrorResponse(httpReq, 400, "Invalid request type");
}
StateUpdateResult outcome = _statefulService->update(
[this, &protoMsg](T& settings) { return _stateUpdater(protoMsg, settings); }, PROTO_ENDPOINT_ORIGIN_ID);
if (outcome == StateUpdateResult::ERROR) {
return sendErrorResponse(httpReq, 400, "Invalid state");
}
return sendStateResponse(httpReq, 200);
}
/**
* Handles GET requests: reads current state and returns it as Response
*/
esp_err_t getState(httpd_req_t* request) {
return sendStateResponse(request, 200);
}
private:
/** Sends current state wrapped in Response */
esp_err_t sendStateResponse(httpd_req_t* request, uint32_t statusCode) {
api_Response res = api_Response_init_zero;
res.status_code = statusCode;
ProtoT protoState = {};
_statefulService->read([this, &protoState](const T& settings) { _stateReader(settings, protoState); });
_responseAssigner(res, protoState);
return WebServer::send(request, 200, res, api_Response_fields);
}
/** Sends error wrapped in Response */
esp_err_t sendErrorResponse(httpd_req_t* request, uint32_t statusCode, const char* message) {
api_Response res = api_Response_init_zero;
res.status_code = statusCode;
res.error_message = (char*)message;
return WebServer::send(request, statusCode == 200 ? 200 : 400, res, api_Response_fields);
}
};
// =============================================================================
// Helper macros for defining request extractors and response assigners
// =============================================================================
/**
* Creates a request extractor lambda for a specific payload type
* Usage: API_REQUEST_EXTRACTOR(ap_settings, api_APSettings)
*/
#define API_REQUEST_EXTRACTOR(field_name, proto_type) \
[](const api_Request& req, proto_type& out) -> bool { \
if (req.which_payload == api_Request_##field_name##_tag) { \
out = req.payload.field_name; \
return true; \
} \
return false; \
}
/**
* Creates a response assigner lambda for a specific payload type
* Usage: API_RESPONSE_ASSIGNER(ap_settings, api_APSettings)
*/
#define API_RESPONSE_ASSIGNER(field_name, proto_type) \
[](api_Response& res, const proto_type& data) { \
res.which_payload = api_Response_##field_name##_tag; \
res.payload.field_name = data; \
}
esp32/include/template/stateful_service.h
-159
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@@ -1,159 +0,0 @@
#pragma once
#include <Arduino.h>
#include <ArduinoJson.h>
#include <list>
#include <functional>
#include <freertos/FreeRTOS.h>
#include <freertos/semphr.h>
#include <string>
#include <template/state_result.h>
template <typename T>
using JsonStateUpdater = std::function<StateUpdateResult(JsonVariant &root, T &settings)>;
template <typename T>
using JsonStateReader = std::function<void(T &settings, JsonVariant &root)>;
using HandlerId = size_t;
using StateUpdateCallback = std::function<void(const std::string &originId)>;
using StateHookCallback = std::function<void(const std::string &originId, StateUpdateResult &result)>;
class HandlerBase {
protected:
static inline HandlerId nextId_ = 1; // Start from 1, 0 is invalid
HandlerId id_;
bool allowRemove_;
HandlerBase(bool allowRemove) : id_(nextId_++), allowRemove_(allowRemove) {}
public:
HandlerId getId() const { return id_; }
bool isRemovable() const { return allowRemove_; }
};
class UpdateHandler : public HandlerBase {
StateUpdateCallback callback_;
public:
UpdateHandler(StateUpdateCallback callback, bool allowRemove)
: HandlerBase(allowRemove), callback_(std::move(callback)) {}
void invoke(const std::string &originId) const { callback_(originId); }
};
class HookHandler : public HandlerBase {
StateHookCallback callback_;
public:
HookHandler(StateHookCallback callback, bool allowRemove)
: HandlerBase(allowRemove), callback_(std::move(callback)) {}
void invoke(const std::string &originId, StateUpdateResult &result) const { callback_(originId, result); }
};
template <class T>
class StatefulService {
public:
template <typename... Args>
StatefulService(Args &&...args) : state_(std::forward<Args>(args)...), mutex_(xSemaphoreCreateRecursiveMutex()) {}
HandlerId addUpdateHandler(StateUpdateCallback callback, bool allowRemove = true) {
if (!callback) return 0;
updateHandlers_.emplace_back(std::move(callback), allowRemove);
return updateHandlers_.back().getId();
}
void removeUpdateHandler(HandlerId id) {
updateHandlers_.remove_if(
[id](const UpdateHandler &handler) { return handler.isRemovable() && handler.getId() == id; });
}
HandlerId addHookHandler(StateHookCallback callback, bool allowRemove = true) {
if (!callback) return 0;
hookHandlers_.emplace_back(std::move(callback), allowRemove);
return hookHandlers_.back().getId();
}
void removeHookHandler(HandlerId id) {
hookHandlers_.remove_if(
[id](const HookHandler &handler) { return handler.isRemovable() && handler.getId() == id; });
}
StateUpdateResult update(std::function<StateUpdateResult(T &)> stateUpdater, const std::string &originId) {
lock();
StateUpdateResult result = stateUpdater(state_);
unlock();
notifyStateChange(originId, result);
return result;
}
StateUpdateResult updateWithoutPropagation(std::function<StateUpdateResult(T &)> stateUpdater) {
lock();
StateUpdateResult result = stateUpdater(state_);
unlock();
return result;
}
StateUpdateResult update(JsonVariant &jsonObject, JsonStateUpdater<T> stateUpdater, const std::string &originId) {
lock();
StateUpdateResult result = stateUpdater(jsonObject, state_);
unlock();
notifyStateChange(originId, result);
return result;
}
StateUpdateResult updateWithoutPropagation(JsonVariant &jsonObject, JsonStateUpdater<T> stateUpdater) {
lock();
StateUpdateResult result = stateUpdater(jsonObject, state_);
unlock();
return result;
}
void read(std::function<void(T &)> stateReader) {
lock();
stateReader(state_);
unlock();
}
void read(JsonVariant &jsonObject, JsonStateReader<T> stateReader) {
lock();
stateReader(state_, jsonObject);
unlock();
}
void callUpdateHandlers(const std::string &originId) {
for (const UpdateHandler &updateHandler : updateHandlers_) {
updateHandler.invoke(originId);
}
}
void callHookHandlers(const std::string &originId, StateUpdateResult &result) {
for (const HookHandler &hookHandler : hookHandlers_) {
hookHandler.invoke(originId, result);
}
}
T &state() { return state_; }
private:
T state_;
inline void lock() { xSemaphoreTakeRecursive(mutex_, portMAX_DELAY); }
inline void unlock() { xSemaphoreGiveRecursive(mutex_); }
void notifyStateChange(const std::string &originId, StateUpdateResult &result) {
callHookHandlers(originId, result);
if (result == StateUpdateResult::CHANGED) {
callUpdateHandlers(originId);
}
}
SemaphoreHandle_t mutex_;
std::list<UpdateHandler> updateHandlers_;
std::list<HookHandler> hookHandlers_;
};
esp32/include/utils/ip_address.h
+76
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@@ -0,0 +1,76 @@
#pragma once
#include <cstdint>
#include <cstring>
#include <string>
#include <esp_netif.h>
class IPAddress {
public:
IPAddress() : _addr {0, 0, 0, 0} {}
IPAddress(uint8_t a, uint8_t b, uint8_t c, uint8_t d) : _addr {a, b, c, d} {}
IPAddress(uint32_t addr) {
_addr[0] = addr & 0xFF;
_addr[1] = (addr >> 8) & 0xFF;
_addr[2] = (addr >> 16) & 0xFF;
_addr[3] = (addr >> 24) & 0xFF;
}
IPAddress(const esp_ip4_addr_t& ip4) {
_addr[0] = ip4.addr & 0xFF;
_addr[1] = (ip4.addr >> 8) & 0xFF;
_addr[2] = (ip4.addr >> 16) & 0xFF;
_addr[3] = (ip4.addr >> 24) & 0xFF;
}
operator uint32_t() const {
return static_cast<uint32_t>(_addr[0]) | (static_cast<uint32_t>(_addr[1]) << 8) |
(static_cast<uint32_t>(_addr[2]) << 16) | (static_cast<uint32_t>(_addr[3]) << 24);
}
operator esp_ip4_addr_t() const {
esp_ip4_addr_t ip4;
ip4.addr = static_cast<uint32_t>(*this);
return ip4;
}
bool operator==(const IPAddress& other) const {
return _addr[0] == other._addr[0] && _addr[1] == other._addr[1] && _addr[2] == other._addr[2] &&
_addr[3] == other._addr[3];
}
bool operator!=(const IPAddress& other) const { return !(*this == other); }
uint8_t operator[](int index) const { return _addr[index]; }
uint8_t& operator[](int index) { return _addr[index]; }
bool fromString(const char* str) {
int parts[4];
if (sscanf(str, "%d.%d.%d.%d", &parts[0], &parts[1], &parts[2], &parts[3]) != 4) {
return false;
}
for (int i = 0; i < 4; i++) {
if (parts[i] < 0 || parts[i] > 255) return false;
_addr[i] = static_cast<uint8_t>(parts[i]);
}
return true;
}
std::string toString() const {
char buf[16];
snprintf(buf, sizeof(buf), "%d.%d.%d.%d", _addr[0], _addr[1], _addr[2], _addr[3]);
return std::string(buf);
}
const char* c_str() const {
static char buf[16];
snprintf(buf, sizeof(buf), "%d.%d.%d.%d", _addr[0], _addr[1], _addr[2], _addr[3]);
return buf;
}
private:
uint8_t _addr[4];
};
esp32/include/utils/timing.h
-45
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@@ -40,51 +40,6 @@
last_time = esp_timer_get_time() / 1000; \
}
#define CALLS_PER_SECOND_TIMED_START_TICK(name, function) \
static uint64_t name##_##function##_start = 0; \
static uint64_t name##_##function##_total_time = 0; \
static uint64_t name##_##function##_call_count = 0; \
name##_##function##_start = esp_timer_get_time();
#define CALLS_PER_SECOND_TIMED_END_TICK(name, function) \
name##_##function##_total_time += (esp_timer_get_time() - name##_##function##_start); \
name##_##function##_call_count++;
#define CALLS_PER_SECOND_TIMED_CALL(name, function, call) \
static uint64_t name##_##function##_total_time = 0; \
static uint64_t name##_##function##_call_count = 0; \
do { \
uint64_t name##_##function##_start = esp_timer_get_time(); \
call; \
name##_##function##_total_time += (esp_timer_get_time() - name##_##function##_start); \
name##_##function##_call_count++; \
} while (0)
#define CALLS_PER_SECOND_TIMED_FUNC_PRINT(name, function) \
if (name##_##function##_call_count > 0) { \
uint64_t avg = name##_##function##_total_time / name##_##function##_call_count; \
if (avg < 1000) { \
ESP_LOGI("Timing", " %s: %llu us (avg over %llu calls)", \
#function, avg, name##_##function##_call_count); \
} else { \
ESP_LOGI("Timing", " %s: %llu ms (avg over %llu calls)", \
#function, avg / 1000, name##_##function##_call_count); \
} \
name##_##function##_total_time = 0; \
name##_##function##_call_count = 0; \
}
#define CALLS_PER_SECOND_TIMED(name, ...) \
do { \
static uint64_t name##_last_print = 0; \
uint64_t name##_current_time = esp_timer_get_time() / 1000; \
if (name##_current_time - name##_last_print >= 1000) { \
ESP_LOGI("Timing", "=== %s Average Timings ===", #name); \
__VA_ARGS__ \
name##_last_print = name##_current_time; \
} \
} while (0)
#define WARN_IF_SLOW(name, period_ms) \
static uint64_t name##_slow_count = 0; \
static uint64_t name##_slow_last_time = 0; \
esp32/include/wifi/dns_server.h
+144
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@@ -0,0 +1,144 @@
#pragma once
#include <lwip/sockets.h>
#include <lwip/netdb.h>
#include <esp_log.h>
#include <utils/ip_address.h>
#include <freertos/FreeRTOS.h>
#include <freertos/task.h>
#include <string>
#include <atomic>
#define DNS_PORT 53
#define DNS_MAX_PACKET_SIZE 512
class DNSServer {
public:
DNSServer() : _socket(-1), _running(false), _task(nullptr) {}
~DNSServer() { stop(); }
bool start(uint16_t port, const char* domainName, const IPAddress& resolvedIP) {
if (_running) return true;
_port = port;
_resolvedIP = resolvedIP;
_domainName = domainName ? domainName : "*";
_socket = socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP);
if (_socket < 0) {
ESP_LOGE("DNSServer", "Failed to create socket");
return false;
}
int opt = 1;
setsockopt(_socket, SOL_SOCKET, SO_REUSEADDR, &opt, sizeof(opt));
struct timeval tv;
tv.tv_sec = 1;
tv.tv_usec = 0;
setsockopt(_socket, SOL_SOCKET, SO_RCVTIMEO, &tv, sizeof(tv));
struct sockaddr_in serverAddr = {};
serverAddr.sin_family = AF_INET;
serverAddr.sin_addr.s_addr = INADDR_ANY;
serverAddr.sin_port = htons(_port);
if (bind(_socket, (struct sockaddr*)&serverAddr, sizeof(serverAddr)) < 0) {
ESP_LOGE("DNSServer", "Failed to bind socket");
close(_socket);
_socket = -1;
return false;
}
_running = true;
xTaskCreate(dnsTask, "dns_server", 4096, this, 3, &_task);
ESP_LOGI("DNSServer", "Started on port %d, resolving to %s", _port, _resolvedIP.toString().c_str());
return true;
}
void stop() {
_running = false;
if (_task) {
vTaskDelay(100 / portTICK_PERIOD_MS);
_task = nullptr;
}
if (_socket >= 0) {
close(_socket);
_socket = -1;
}
ESP_LOGI("DNSServer", "Stopped");
}
void processNextRequest() {}
private:
static void dnsTask(void* param) {
DNSServer* self = static_cast<DNSServer*>(param);
self->run();
vTaskDelete(nullptr);
}
void run() {
uint8_t buffer[DNS_MAX_PACKET_SIZE];
struct sockaddr_in clientAddr;
socklen_t clientAddrLen = sizeof(clientAddr);
while (_running) {
int len = recvfrom(_socket, buffer, DNS_MAX_PACKET_SIZE, 0, (struct sockaddr*)&clientAddr, &clientAddrLen);
if (len > 0) {
processRequest(buffer, len, &clientAddr);
}
}
}
void processRequest(uint8_t* buffer, int len, struct sockaddr_in* clientAddr) {
if (len < 12) return;
uint16_t flags = (buffer[2] << 8) | buffer[3];
if ((flags & 0x8000) != 0) return;
uint8_t response[DNS_MAX_PACKET_SIZE];
memcpy(response, buffer, len);
response[2] = 0x81;
response[3] = 0x80;
response[6] = 0x00;
response[7] = 0x01;
int responseLen = len;
response[responseLen++] = 0xC0;
response[responseLen++] = 0x0C;
response[responseLen++] = 0x00;
response[responseLen++] = 0x01;
response[responseLen++] = 0x00;
response[responseLen++] = 0x01;
response[responseLen++] = 0x00;
response[responseLen++] = 0x00;
response[responseLen++] = 0x00;
response[responseLen++] = 0x3C;
response[responseLen++] = 0x00;
response[responseLen++] = 0x04;
uint32_t ip = static_cast<uint32_t>(_resolvedIP);
response[responseLen++] = ip & 0xFF;
response[responseLen++] = (ip >> 8) & 0xFF;
response[responseLen++] = (ip >> 16) & 0xFF;
response[responseLen++] = (ip >> 24) & 0xFF;
sendto(_socket, response, responseLen, 0, (struct sockaddr*)clientAddr, sizeof(*clientAddr));
}
int _socket;
uint16_t _port;
IPAddress _resolvedIP;
std::string _domainName;
std::atomic<bool> _running;
TaskHandle_t _task;
};
esp32/include/wifi/wifi_idf.h
+127
View File
@@ -0,0 +1,127 @@
#pragma once
#include <esp_wifi.h>
#include <esp_event.h>
#include <esp_netif.h>
#include <esp_log.h>
#include <nvs_flash.h>
#include <freertos/FreeRTOS.h>
#include <freertos/task.h>
#include <freertos/event_groups.h>
#include <utils/ip_address.h>
#include <string>
#include <cstring>
#include <functional>
#include <vector>
typedef enum {
WL_NO_SHIELD = 255,
WL_IDLE_STATUS = 0,
WL_NO_SSID_AVAIL = 1,
WL_SCAN_COMPLETED = 2,
WL_CONNECTED = 3,
WL_CONNECT_FAILED = 4,
WL_CONNECTION_LOST = 5,
WL_DISCONNECTED = 6
} wl_status_t;
typedef enum {
WIFI_AUTH_OPEN_IDF = 0,
WIFI_AUTH_WEP_IDF,
WIFI_AUTH_WPA_PSK_IDF,
WIFI_AUTH_WPA2_PSK_IDF
} wifi_enc_type_t;
using WiFiEventCb = std::function<void(int32_t event, void* event_data)>;
struct WiFiEventHandler {
int32_t event_id;
WiFiEventCb callback;
};
class WiFiClass {
public:
WiFiClass();
~WiFiClass();
bool init();
bool mode(wifi_mode_t mode);
wifi_mode_t getMode();
bool begin(const char* ssid, const char* password = nullptr, int32_t channel = 0, const uint8_t* bssid = nullptr);
bool disconnect(bool wifiOff = false);
bool reconnect();
bool config(IPAddress local_ip, IPAddress gateway, IPAddress subnet, IPAddress dns1 = IPAddress(),
IPAddress dns2 = IPAddress());
bool setHostname(const char* hostname);
const char* getHostname();
wl_status_t status();
bool isConnected();
IPAddress localIP();
IPAddress subnetMask();
IPAddress gatewayIP();
IPAddress dnsIP(uint8_t dns_no = 0);
std::string macAddress();
std::string SSID();
std::string BSSIDstr();
int32_t RSSI();
uint8_t channel();
int16_t scanNetworks(bool async = false);
int16_t scanComplete();
void scanDelete();
std::string SSID(uint8_t i);
int32_t RSSI(uint8_t i);
wifi_enc_type_t encryptionType(uint8_t i);
std::string BSSIDstr(uint8_t i);
int32_t channel(uint8_t i);
void getNetworkInfo(uint8_t i, std::string& ssid, uint8_t& encType, int32_t& rssi, uint8_t*& bssid, int32_t& ch);
bool softAP(const char* ssid, const char* password = nullptr, int channel = 1, bool ssid_hidden = false,
int max_connection = 4);
bool softAPConfig(IPAddress local_ip, IPAddress gateway, IPAddress subnet);
bool softAPdisconnect(bool wifiOff = false);
IPAddress softAPIP();
std::string softAPmacAddress();
uint8_t softAPgetStationNum();
bool setAutoReconnect(bool autoReconnect);
bool persistent(bool persistent);
bool setTxPower(int8_t power);
void onEvent(WiFiEventCb callback, int32_t event_id);
private:
static void eventHandler(void* arg, esp_event_base_t event_base, int32_t event_id, void* event_data);
void dispatchEvent(int32_t event_id, void* event_data);
esp_netif_t* _sta_netif;
esp_netif_t* _ap_netif;
bool _initialized;
bool _autoReconnect;
bool _persistent;
wl_status_t _status;
wifi_mode_t _mode;
std::string _hostname;
wifi_ap_record_t* _scanResult;
uint16_t _scanCount;
int16_t _scanStatus;
std::vector<WiFiEventHandler> _eventHandlers;
IPAddress _sta_static_ip;
IPAddress _sta_static_gw;
IPAddress _sta_static_sn;
IPAddress _sta_static_dns1;
IPAddress _sta_static_dns2;
bool _useStaticIp;
};
extern WiFiClass WiFi;
esp32/include/wifi_service.h
+39 -26
View File
@@ -1,35 +1,19 @@
#pragma once
#include <esp_http_server.h>
#include <WiFi.h>
#include <ESPmDNS.h>
#include <wifi/wifi_idf.h>
#include <mdns.h>
#include <string>
#include <filesystem.h>
#include <utils/timing.h>
#include <template/stateful_service.h>
#include <template/stateful_persistence_pb.h>
#include <template/stateful_proto_endpoint.h>
#include <event_bus/event_bus.h>
#include <settings/wifi_settings.h>
#include <utils/timing.h>
class WiFiService : public StatefulService<WiFiSettings> {
private:
void onStationModeDisconnected(WiFiEvent_t event, WiFiEventInfo_t info);
void onStationModeStop(WiFiEvent_t event, WiFiEventInfo_t info);
static void onStationModeGotIP(WiFiEvent_t event, WiFiEventInfo_t info);
FSPersistencePB<WiFiSettings> _persistence;
void reconfigureWiFiConnection();
void manageSTA();
void connectToWiFi();
void configureNetwork(WiFiNetwork &network);
unsigned long _lastConnectionAttempt;
bool _stopping;
constexpr static uint16_t reconnectDelay {10000};
#define WIFI_EVENT_STA_DISCONNECTED_IDF WIFI_EVENT_STA_DISCONNECTED
#define WIFI_EVENT_STA_STOP_IDF WIFI_EVENT_STA_STOP
#define IP_EVENT_STA_GOT_IP_IDF 1000
class WiFiService {
public:
WiFiService();
~WiFiService();
@@ -38,12 +22,41 @@ class WiFiService : public StatefulService<WiFiSettings> {
void loop();
void setupMDNS(const char *hostname);
void selectNetwork(uint32_t index);
const char *getHostname() { return state().hostname; }
const char *getHostname() {
static api_WifiSettings cached_settings;
EventBus::peek(cached_settings);
return cached_settings.hostname;
}
static esp_err_t handleScan(httpd_req_t *request);
static esp_err_t getNetworks(httpd_req_t *request);
static esp_err_t getNetworkStatus(httpd_req_t *request);
StatefulProtoEndpoint<WiFiSettings, api_WifiSettings> protoEndpoint;
private:
void onStationModeDisconnected(int32_t event, void *event_data);
void onStationModeStop(int32_t event, void *event_data);
static void onStationModeGotIP(int32_t event, void *event_data);
void onSettingsChanged(const api_WifiSettings &newSettings);
void reconfigureWiFiConnection();
void manageSTA();
void configureNetwork(const WiFiNetwork &network);
api_WifiSettings getSettings() const {
api_WifiSettings settings;
EventBus::peek(settings);
return settings;
}
EventBus::Handle<api_WifiSettings> _settingsHandle;
bool _initialized;
unsigned long _lastConnectionAttempt;
bool _stopping;
constexpr static uint16_t reconnectDelay {10000};
static constexpr const char *TAG = "WiFiService";
};
esp32/include/www_mount.hpp
+1
View File
@@ -3,3 +3,4 @@
#include "WWWData.h"
void mountStaticAssets(WebServer& s);
void mountSpaFallback(WebServer& s);
esp32/scripts/build_app.py
+1 -1
View File
@@ -114,7 +114,7 @@ def write_header():
with open(output_file, "w", newline="\n") as f:
f.write("#pragma once\n")
f.write("#include <Arduino.h>\n\n")
f.write("#include <compat/pgmspace.h>\n\n")
f.write(
"struct WebAsset { const char* uri; const char* mime; const uint8_t* data; uint32_t len; uint32_t etag; uint8_t gz; };\n")
f.write(
esp32/src/CMakeLists.txt
+27
View File
@@ -0,0 +1,27 @@
idf_component_register(
SRC_DIRS
"."
"communication"
"peripherals"
"wifi"
"platform_shared"
"event_bus"
"../../submodules/nanopb"
INCLUDE_DIRS
"../include"
"../../submodules/nanopb"
REQUIRES
driver
esp_http_server
nvs_flash
esp_wifi
esp_event
esp_netif
mdns
esp_timer
esp_psram
spi_flash
littlefs
esp32-camera
esp-dsp
)
esp32/src/ap_service.cpp
+62 -29
View File
@@ -1,22 +1,38 @@
#include <ap_service.h>
#include <communication/webserver.h>
static const char *TAG = "APService";
APService::APService() : _dnsServer(nullptr), _lastManaged(0), _reconfigureAp(false), _recoveryMode(false) {}
APService::APService()
: protoEndpoint(APSettings_read, APSettings_update, this,
API_REQUEST_EXTRACTOR(ap_settings, api_APSettings),
API_RESPONSE_ASSIGNER(ap_settings, api_APSettings)),
_persistence(APSettings_read, APSettings_update, this,
AP_SETTINGS_FILE, api_APSettings_fields, api_APSettings_size,
APSettings_defaults()) {
addUpdateHandler([&](const std::string &originId) { reconfigureAP(); }, false);
APService::~APService() {
if (_dnsServer) {
delete _dnsServer;
_dnsServer = nullptr;
}
}
APService::~APService() {}
void APService::begin() {
_persistence.readFromFS();
_settingsHandle =
EventBus::subscribe<api_APSettings>([this](const api_APSettings &settings) { onSettingsChanged(settings); });
api_APSettings initialSettings;
if (EventBus::peek(initialSettings)) {
onSettingsChanged(initialSettings);
}
}
void APService::onSettingsChanged(const api_APSettings &newSettings) {
strncpy(_settings.ssid, newSettings.ssid, sizeof(_settings.ssid) - 1);
_settings.ssid[sizeof(_settings.ssid) - 1] = '\0';
strncpy(_settings.password, newSettings.password, sizeof(_settings.password) - 1);
_settings.password[sizeof(_settings.password) - 1] = '\0';
_settings.local_ip = newSettings.local_ip;
_settings.gateway_ip = newSettings.gateway_ip;
_settings.subnet_mask = newSettings.subnet_mask;
_settings.channel = newSettings.channel;
_settings.ssid_hidden = newSettings.ssid_hidden;
_settings.max_clients = newSettings.max_clients;
_settings.provision_mode = newSettings.provision_mode;
reconfigureAP();
}
esp_err_t APService::getStatusProto(httpd_req_t *request) {
@@ -30,16 +46,16 @@ esp_err_t APService::getStatusProto(httpd_req_t *request) {
void APService::statusProto(api_APStatus &proto) {
proto.status = getAPNetworkStatus();
proto.ip_address = static_cast<uint32_t>(WiFi.softAPIP());
String mac = WiFi.softAPmacAddress();
std::string mac = WiFi.softAPmacAddress();
strncpy(proto.mac_address, mac.c_str(), sizeof(proto.mac_address) - 1);
proto.mac_address[sizeof(proto.mac_address) - 1] = '\0';
proto.station_num = WiFi.softAPgetStationNum();
}
APNetworkStatus APService::getAPNetworkStatus() {
WiFiMode_t currentWiFiMode = WiFi.getMode();
bool apActive = currentWiFiMode == WIFI_AP || currentWiFiMode == WIFI_AP_STA;
if (apActive && state().provision_mode != AP_MODE_ALWAYS && WiFi.status() == WL_CONNECTED) {
wifi_mode_t currentWiFiMode = WiFi.getMode();
bool apActive = currentWiFiMode == WIFI_MODE_AP || currentWiFiMode == WIFI_MODE_APSTA;
if (apActive && _settings.provision_mode != AP_MODE_ALWAYS && WiFi.status() == WL_CONNECTED) {
return LINGERING;
}
return apActive ? ACTIVE : INACTIVE;
@@ -64,13 +80,13 @@ void APService::loop() {
}
void APService::manageAP() {
WiFiMode_t currentWiFiMode = WiFi.getMode();
if (state().provision_mode == AP_MODE_ALWAYS ||
(state().provision_mode == AP_MODE_DISCONNECTED && WiFi.status() != WL_CONNECTED) || _recoveryMode) {
if (_reconfigureAp || currentWiFiMode == WIFI_OFF || currentWiFiMode == WIFI_STA) {
wifi_mode_t currentWiFiMode = WiFi.getMode();
if (_settings.provision_mode == AP_MODE_ALWAYS ||
(_settings.provision_mode == AP_MODE_DISCONNECTED && WiFi.status() != WL_CONNECTED) || _recoveryMode) {
if (_reconfigureAp || currentWiFiMode == WIFI_MODE_NULL || currentWiFiMode == WIFI_MODE_STA) {
startAP();
}
} else if ((currentWiFiMode == WIFI_AP || currentWiFiMode == WIFI_AP_STA) &&
} else if ((currentWiFiMode == WIFI_MODE_AP || currentWiFiMode == WIFI_MODE_APSTA) &&
(_reconfigureAp || !WiFi.softAPgetStationNum())) {
stopAP();
}
@@ -78,11 +94,11 @@ void APService::manageAP() {
}
void APService::startAP() {
ESP_LOGI(TAG, "Starting software access point: %s", state().ssid);
WiFi.softAPConfig(IPAddress(state().local_ip), IPAddress(state().gateway_ip), IPAddress(state().subnet_mask));
WiFi.softAP(state().ssid, state().password, state().channel, state().ssid_hidden, state().max_clients);
ESP_LOGI(TAG, "Starting software access point: %s", _settings.ssid);
WiFi.softAPConfig(IPAddress(_settings.local_ip), IPAddress(_settings.gateway_ip), IPAddress(_settings.subnet_mask));
WiFi.softAP(_settings.ssid, _settings.password, _settings.channel, _settings.ssid_hidden, _settings.max_clients);
#if CONFIG_IDF_TARGET_ESP32C3
WiFi.setTxPower(WIFI_POWER_8_5dBm);
WiFi.setTxPower(8);
#endif
if (!_dnsServer) {
IPAddress apIp = WiFi.softAPIP();
@@ -103,8 +119,25 @@ void APService::stopAP() {
WiFi.softAPdisconnect(true);
}
void APService::handleDNS() {
if (_dnsServer) {
_dnsServer->processNextRequest();
}
void APService::handleDNS() {}
esp_err_t APService::getSettings(httpd_req_t *request) {
api_Response response = api_Response_init_zero;
response.status_code = 200;
response.which_payload = api_Response_ap_settings_tag;
response.payload.ap_settings = _settings;
return WebServer::send(request, 200, response, api_Response_fields);
}
esp_err_t APService::updateSettings(httpd_req_t *request, api_Request *protoReq) {
if (protoReq->which_payload != api_Request_ap_settings_tag) {
return ESP_FAIL;
}
EventBus::publish(protoReq->payload.ap_settings, "HTTPEndpoint");
api_Response response = api_Response_init_zero;
response.status_code = 200;
response.which_payload = api_Response_empty_message_tag;
return WebServer::send(request, 200, response, api_Response_fields);
}
esp32/src/communication/webserver.cpp
+1 -1
View File
@@ -278,7 +278,7 @@ esp_err_t WebServer::wsSendAll(const uint8_t* data, size_t len) {
}
esp_err_t WebServer::sendError(httpd_req_t* req, int status, const char* message) {
return send(req, status, (uint8_t*) message, strlen(message));
return send(req, status, (uint8_t*)message, strlen(message));
}
esp_err_t WebServer::sendOk(httpd_req_t* req) { return send(req, 200, nullptr, 0); }
esp32/src/event_bus/event_bus.cpp
+61
View File
@@ -0,0 +1,61 @@
#include <event_bus/event_bus.h>
#include <vector>
#include <memory>
#include <mutex>
#include <algorithm>
std::atomic<bool> EventBus::_hasGlobalListeners {false};
struct GlobalSubscription {
size_t id;
std::unique_ptr<EventBus::GlobalHandler> handler;
};
static std::vector<GlobalSubscription> globalSubs;
static std::mutex globalMutex;
static size_t nextGlobalId = 1;
size_t EventBus::subscribeGlobal(GlobalHandler&& handler) {
std::lock_guard<std::mutex> lock(globalMutex);
size_t id = nextGlobalId++;
auto h = std::make_unique<GlobalHandler>(std::move(handler));
globalSubs.push_back({id, std::move(h)});
_hasGlobalListeners.store(true, std::memory_order_release);
return id;
}
void EventBus::unsubscribeGlobal(size_t id) {
std::lock_guard<std::mutex> lock(globalMutex);
globalSubs.erase(std::remove_if(globalSubs.begin(), globalSubs.end(), [id](const auto& s) { return s.id == id; }),
globalSubs.end());
_hasGlobalListeners.store(!globalSubs.empty(), std::memory_order_release);
}
template <typename Msg>
void EventBus::notifyGlobalListeners(const Msg& msg, const char* source) {
uint64_t timestamp = esp_timer_get_time();
EventType type = EventTypeTraits<Msg>::type;
std::lock_guard<std::mutex> lock(globalMutex);
for (auto& sub : globalSubs) {
(*sub.handler)(type, &msg, sizeof(Msg), timestamp);
}
}
template void EventBus::notifyGlobalListeners<api_WifiSettings>(const api_WifiSettings&, const char*);
template void EventBus::notifyGlobalListeners<api_APSettings>(const api_APSettings&, const char*);
template void EventBus::notifyGlobalListeners<api_MDNSSettings>(const api_MDNSSettings&, const char*);
template void EventBus::notifyGlobalListeners<api_PeripheralSettings>(const api_PeripheralSettings&, const char*);
template void EventBus::notifyGlobalListeners<api_ServoSettings>(const api_ServoSettings&, const char*);
template void EventBus::notifyGlobalListeners<api_CameraSettings>(const api_CameraSettings&, const char*);
template void EventBus::notifyGlobalListeners<socket_message_IMUData>(const socket_message_IMUData&, const char*);
template void EventBus::notifyGlobalListeners<socket_message_ControllerData>(const socket_message_ControllerData&,
const char*);
template void EventBus::notifyGlobalListeners<socket_message_ModeData>(const socket_message_ModeData&, const char*);
template void EventBus::notifyGlobalListeners<socket_message_AnglesData>(const socket_message_AnglesData&, const char*);
template void EventBus::notifyGlobalListeners<socket_message_WalkGaitData>(const socket_message_WalkGaitData&,
const char*);
template void EventBus::notifyGlobalListeners<socket_message_ServoStateData>(const socket_message_ServoStateData&,
const char*);
template void EventBus::notifyGlobalListeners<socket_message_ServoPWMData>(const socket_message_ServoPWMData&,
const char*);
esp32/src/event_bus/event_types.cpp
+29
View File
@@ -0,0 +1,29 @@
#include <event_bus/event_types.h>
const char* eventTypeName(EventType type) {
switch (type) {
case EventType::WIFI_SETTINGS: return "WIFI_SETTINGS";
case EventType::AP_SETTINGS: return "AP_SETTINGS";
case EventType::MDNS_SETTINGS: return "MDNS_SETTINGS";
case EventType::PERIPHERAL_SETTINGS: return "PERIPHERAL_SETTINGS";
case EventType::SERVO_SETTINGS: return "SERVO_SETTINGS";
case EventType::CAMERA_SETTINGS: return "CAMERA_SETTINGS";
case EventType::WIFI_STATUS: return "WIFI_STATUS";
case EventType::AP_STATUS: return "AP_STATUS";
case EventType::IMU_DATA: return "IMU_DATA";
case EventType::MOTION_COMMAND: return "MOTION_COMMAND";
case EventType::MOTION_MODE: return "MOTION_MODE";
case EventType::MOTION_ANGLES: return "MOTION_ANGLES";
case EventType::MOTION_WALK_GAIT: return "MOTION_WALK_GAIT";
case EventType::SERVO_STATE: return "SERVO_STATE";
case EventType::SERVO_PWM: return "SERVO_PWM";
case EventType::SYSTEM_BOOT: return "SYSTEM_BOOT";
case EventType::STORAGE_HYDRATION_COMPLETE: return "STORAGE_HYDRATION_COMPLETE";
default: return "UNKNOWN";
}
}
bool isSettingsEvent(EventType type) {
return static_cast<uint16_t>(type) >= 100 && static_cast<uint16_t>(type) < 200 &&
static_cast<uint16_t>(type) % 10 == 0;
}
esp32/src/features.cpp
+2 -5
View File
@@ -10,14 +10,11 @@ void printFeatureConfiguration() {
ESP_LOGI("Features", "USE_CAMERA: %s", USE_CAMERA ? "enabled" : "disabled");
ESP_LOGI("Features", "USE_MOTION: %s", USE_MOTION ? "enabled" : "disabled");
ESP_LOGI("Features", "USE_ICM20948: %s", USE_ICM20948 ? "enabled" : "disabled");
ESP_LOGI("Features", "USE_BNO055: %s", USE_BNO055 ? "enabled" : "disabled");
ESP_LOGI("Features", "USE_MPU6050: %s", USE_MPU6050 ? "enabled" : "disabled");
ESP_LOGI("Features", "USE_HMC5883: %s", USE_HMC5883 ? "enabled" : "disabled");
ESP_LOGI("Features", "USE_BMP180: %s", USE_BMP180 ? "enabled" : "disabled");
ESP_LOGI("Features", "USE_USS: %s", USE_USS ? "enabled" : "disabled");
ESP_LOGI("Features", "USE_PAJ7620U2: %s", USE_PAJ7620U2 ? "enabled" : "disabled");
ESP_LOGI("Features", "USE_PCA9685: %s", USE_PCA9685 ? "enabled" : "disabled");
ESP_LOGI("Features", "USE_WS2812: %s", USE_WS2812 ? "enabled" : "disabled");
@@ -30,8 +27,8 @@ void printFeatureConfiguration() {
void features_request(const socket_message_FeaturesDataRequest& fd_req, socket_message_FeaturesDataResponse& fd_res) {
fd_res.camera = USE_CAMERA ? true : false;
fd_res.imu = (USE_MPU6050 || USE_BNO055 || USE_ICM20948) ? true : false;
fd_res.mag = (USE_HMC5883 || USE_BNO055 || USE_ICM20948) ? true : false;
fd_res.imu = (USE_MPU6050 || USE_BNO055) ? true : false;
fd_res.mag = (USE_HMC5883 || USE_BNO055) ? true : false;
fd_res.bmp = USE_BMP180 ? true : false;
fd_res.sonar = USE_USS ? true : false;
fd_res.servo = USE_PCA9685 ? true : false;
esp32/src/filesystem.cpp
+206 -65
View File
@@ -3,13 +3,15 @@
#include <vector>
#include <cstring>
#include "utils/string_utils.hpp"
#include <esp_log.h>
#include <pb_encode.h>
#include <pb_decode.h>
static const char *TAG = "FileService";
static const char *TAG = "FileSystem";
namespace FileSystem {
// Storage for dynamically allocated FileEntry arrays
static std::vector<api_FileEntry*> allocatedEntries;
static std::vector<api_FileEntry *> allocatedEntries;
static void freeAllocatedEntries() {
for (auto ptr : allocatedEntries) {
@@ -18,67 +20,81 @@ static void freeAllocatedEntries() {
allocatedEntries.clear();
}
void listFilesProto(const std::string &directory, api_FileEntry *entry) {
File root = ESP_FS.open(directory.find("/") == 0 ? directory.c_str() : ("/" + directory).c_str());
if (!root.isDirectory()) {
static void listFilesProtoRecursive(const std::string &directory, api_FileEntry *entry) {
DIR *dir = opendir(directory.c_str());
if (!dir) {
entry->children_count = 0;
entry->children = nullptr;
return;
}
// First pass: count children
std::vector<File> files;
File file = root.openNextFile();
while (file) {
files.push_back(file);
file = root.openNextFile();
}
std::vector<std::string> names;
std::vector<bool> isDirs;
std::vector<size_t> sizes;
if (files.empty()) {
struct dirent *d;
while ((d = readdir(dir)) != nullptr) {
if (strcmp(d->d_name, ".") == 0 || strcmp(d->d_name, "..") == 0) continue;
std::string fullPath = directory + "/" + d->d_name;
struct stat st;
if (stat(fullPath.c_str(), &st) == 0) {
names.push_back(d->d_name);
isDirs.push_back(S_ISDIR(st.st_mode));
sizes.push_back(st.st_size);
}
}
closedir(dir);
if (names.empty()) {
entry->children_count = 0;
entry->children = nullptr;
return;
}
// Allocate children array
entry->children_count = files.size();
entry->children = new api_FileEntry[files.size()];
entry->children_count = names.size();
entry->children = new api_FileEntry[names.size()];
allocatedEntries.push_back(entry->children);
// Fill children
for (size_t i = 0; i < files.size(); i++) {
for (size_t i = 0; i < names.size(); i++) {
api_FileEntry &child = entry->children[i];
memset(&child, 0, sizeof(child));
std::string name = std::string(files[i].name());
strncpy(child.name, name.c_str(), sizeof(child.name) - 1);
strncpy(child.name, names[i].c_str(), sizeof(child.name) - 1);
child.name[sizeof(child.name) - 1] = '\0';
child.is_directory = files[i].isDirectory();
child.is_directory = isDirs[i];
if (child.is_directory) {
listFilesProto(name, &child);
std::string childPath = directory + "/" + names[i];
listFilesProtoRecursive(childPath, &child);
} else {
child.size = files[i].size();
child.size = sizes[i];
child.children_count = 0;
child.children = nullptr;
}
}
}
void listFilesProto(const std::string &directory, api_FileEntry *entry) {
std::string path = directory;
if (path.empty() || path[0] != '/') {
path = "/" + directory;
}
std::string fullPath = std::string(MOUNT_POINT) + path;
listFilesProtoRecursive(fullPath, entry);
}
esp_err_t getFilesProto(httpd_req_t *request) {
freeAllocatedEntries(); // Clean up any previous allocations
freeAllocatedEntries();
api_Response res = api_Response_init_zero;
res.status_code = 200;
res.which_payload = api_Response_file_list_tag;
// Create root entry
api_FileEntry rootEntry = api_FileEntry_init_zero;
strncpy(rootEntry.name, "root", sizeof(rootEntry.name) - 1);
rootEntry.is_directory = true;
listFilesProto("/", &rootEntry);
listFilesProtoRecursive(MOUNT_POINT, &rootEntry);
// Allocate entries array for FileList
res.payload.file_list.entries_count = 1;
res.payload.file_list.entries = new api_FileEntry[1];
allocatedEntries.push_back(res.payload.file_list.entries);
@@ -86,28 +102,146 @@ esp_err_t getFilesProto(httpd_req_t *request) {
esp_err_t result = WebServer::send(request, 200, res, api_Response_fields);
freeAllocatedEntries(); // Clean up after sending
freeAllocatedEntries();
return result;
}
bool init() {
esp_vfs_littlefs_conf_t conf = {
.base_path = MOUNT_POINT,
.partition_label = "spiffs",
.format_if_mount_failed = true,
.dont_mount = false,
};
esp_err_t ret = esp_vfs_littlefs_register(&conf);
if (ret != ESP_OK) {
if (ret == ESP_FAIL) {
ESP_LOGE(TAG, "Failed to mount or format filesystem");
} else if (ret == ESP_ERR_NOT_FOUND) {
ESP_LOGE(TAG, "Failed to find LittleFS partition");
} else {
ESP_LOGE(TAG, "Failed to initialize LittleFS (%s)", esp_err_to_name(ret));
}
return false;
}
size_t total = 0, used = 0;
ret = esp_littlefs_info("spiffs", &total, &used);
if (ret == ESP_OK) {
ESP_LOGI(TAG, "Partition size: total: %d, used: %d", total, used);
}
mkdirRecursive(FS_CONFIG_DIRECTORY);
return true;
}
bool fileExists(const char *filename) {
struct stat st;
return stat(filename, &st) == 0;
}
std::string readFile(const char *filename) {
FILE *f = fopen(filename, "r");
if (!f) {
return "";
}
fseek(f, 0, SEEK_END);
long size = ftell(f);
fseek(f, 0, SEEK_SET);
std::string content;
content.resize(size);
fread(&content[0], 1, size, f);
fclose(f);
return content;
}
bool writeFile(const char *filename, const char *content) {
FILE *f = fopen(filename, "w");
if (!f) {
ESP_LOGE(TAG, "Failed to open file for writing: %s", filename);
return false;
}
size_t len = strlen(content);
size_t written = fwrite(content, 1, len, f);
fclose(f);
return written == len;
}
bool writeFile(const char *filename, const uint8_t *content, size_t size) {
FILE *f = fopen(filename, "wb");
if (!f) {
ESP_LOGE(TAG, "Failed to open file for writing: %s", filename);
return false;
}
size_t written = fwrite(content, 1, size, f);
fclose(f);
return written == size;
}
bool mkdirRecursive(const char *path) {
char tmp[256];
char *p = nullptr;
size_t len;
snprintf(tmp, sizeof(tmp), "%s", path);
len = strlen(tmp);
if (tmp[len - 1] == '/') {
tmp[len - 1] = 0;
}
for (p = tmp + 1; *p; p++) {
if (*p == '/') {
*p = 0;
struct stat st;
if (stat(tmp, &st) != 0) {
if (::mkdir(tmp, 0755) != 0) {
ESP_LOGE(TAG, "Failed to create directory: %s", tmp);
return false;
}
}
*p = '/';
}
}
struct stat st;
if (stat(tmp, &st) != 0) {
if (::mkdir(tmp, 0755) != 0) {
ESP_LOGE(TAG, "Failed to create directory: %s", tmp);
return false;
}
}
return true;
}
esp_err_t getFiles(httpd_req_t *request) {
std::string files = listFiles("/");
std::string files = listFiles(MOUNT_POINT);
httpd_resp_set_type(request, "application/json");
return httpd_resp_send(request, files.c_str(), files.length());
}
esp_err_t getConfigFile(httpd_req_t *request) {
const char *uri = request->uri;
std::string path = "/config" + std::string(uri).substr(11);
if (!ESP_FS.exists(path.c_str())) {
std::string path = std::string(MOUNT_POINT) + "/config" + std::string(uri).substr(11);
if (!fileExists(path.c_str())) {
return WebServer::sendError(request, 404, "File not found");
}
File file = ESP_FS.open(path.c_str(), "r");
if (!file) {
return WebServer::sendError(request, 500, "Failed to open file");
std::string content = readFile(path.c_str());
if (content.empty()) {
return WebServer::sendError(request, 500, "Failed to read file");
}
String content = file.readString();
file.close();
if (ends_with(path, ".pb")) {
httpd_resp_set_type(request, "application/x-protobuf");
} else if (ends_with(path, ".json")) {
@@ -119,10 +253,11 @@ esp_err_t getConfigFile(httpd_req_t *request) {
}
esp_err_t handleDelete(httpd_req_t *request, const api_FileDeleteRequest &req) {
ESP_LOGI(TAG, "Deleting file: %s", req.path);
std::string fullPath = std::string(MOUNT_POINT) + req.path;
ESP_LOGI(TAG, "Deleting file: %s", fullPath.c_str());
api_Response res = api_Response_init_zero;
if (deleteFile(req.path)) {
if (deleteFile(fullPath.c_str())) {
res.status_code = 200;
res.which_payload = api_Response_empty_message_tag;
return WebServer::send(request, 200, res, api_Response_fields);
@@ -132,10 +267,11 @@ esp_err_t handleDelete(httpd_req_t *request, const api_FileDeleteRequest &req) {
}
esp_err_t handleEdit(httpd_req_t *request, const api_FileEditRequest &req) {
ESP_LOGI(TAG, "Editing file: %s", req.path);
std::string fullPath = std::string(MOUNT_POINT) + req.path;
ESP_LOGI(TAG, "Editing file: %s", fullPath.c_str());
api_Response res = api_Response_init_zero;
if (editFile(req.path, req.content->bytes, req.content->size)) {
if (editFile(fullPath.c_str(), req.content->bytes, req.content->size)) {
res.status_code = 200;
res.which_payload = api_Response_empty_message_tag;
return WebServer::send(request, 200, res, api_Response_fields);
@@ -144,52 +280,57 @@ esp_err_t handleEdit(httpd_req_t *request, const api_FileEditRequest &req) {
}
}
bool deleteFile(const char *filename) { return ESP_FS.remove(filename); }
bool deleteFile(const char *filename) { return remove(filename) == 0; }
std::string listFiles(const std::string &directory, bool isRoot) {
File root = ESP_FS.open(directory.find("/") == 0 ? directory.c_str() : ("/" + directory).c_str());
if (!root.isDirectory()) return "{}";
File file = root.openNextFile();
if (!file) {
DIR *dir = opendir(directory.c_str());
if (!dir) {
return isRoot ? "{ \"root\": {} }" : "{}";
}
std::string output = isRoot ? "{ \"root\": {" : "{";
bool first = true;
while (file) {
std::string name = std::string(file.name());
if (file.isDirectory()) {
output += "\"" + name + "\": " + listFiles(name, false);
} else {
output += "\"" + name + "\": " + std::to_string(file.size());
struct dirent *entry;
while ((entry = readdir(dir)) != nullptr) {
if (strcmp(entry->d_name, ".") == 0 || strcmp(entry->d_name, "..") == 0) {
continue;
}
File next = root.openNextFile();
if (next) output += ", ";
file = next;
if (!first) {
output += ", ";
}
first = false;
std::string fullPath = directory + "/" + entry->d_name;
struct stat st;
if (stat(fullPath.c_str(), &st) == 0) {
if (S_ISDIR(st.st_mode)) {
output += "\"" + std::string(entry->d_name) + "\": " + listFiles(fullPath, false);
} else {
output += "\"" + std::string(entry->d_name) + "\": " + std::to_string(st.st_size);
}
}
}
closedir(dir);
output += "}";
if (isRoot) output += "}";
return output;
}
bool editFile(const char *filename, const uint8_t *content, size_t size) {
File file = ESP_FS.open(filename, FILE_WRITE);
if (!file) return false;
bool editFile(const char *filename, const uint8_t *content, size_t size) { return writeFile(filename, content, size); }
file.write(content, size);
file.close();
return true;
}
bool editFile(const char *filename, const char *content) { return writeFile(filename, content); }
esp_err_t mkdir(httpd_req_t *request, const api_FileMkdirRequest &req) {
ESP_LOGI(TAG, "Creating directory: %s", req.path);
std::string fullPath = std::string(MOUNT_POINT) + req.path;
ESP_LOGI(TAG, "Creating directory: %s", fullPath.c_str());
api_Response res = api_Response_init_zero;
if (ESP_FS.mkdir(req.path)) {
if (mkdirRecursive(fullPath.c_str())) {
res.status_code = 200;
res.which_payload = api_Response_empty_message_tag;
return WebServer::send(request, 200, res, api_Response_fields);
esp32/src/filesystem_ws.cpp
+77 -78
View File
@@ -1,9 +1,12 @@
#include <filesystem_ws.h>
#include <filesystem.h>
#include <pb_encode.h>
#include <pb_decode.h>
#include <esp_littlefs.h>
#include <esp_timer.h>
#include <esp_log.h>
#include <dirent.h>
#include <sys/stat.h>
#include <cstring>
static const char* TAG = "FileSystemWS";
@@ -29,7 +32,7 @@ void FileSystemHandler::cleanupExpiredTransfers() {
while (dlIt != downloads_.end()) {
if (now - dlIt->second.lastActivityTime > FS_TRANSFER_TIMEOUT_MS) {
if (dlIt->second.file) {
dlIt->second.file.close();
fclose(dlIt->second.file);
}
ESP_LOGW(TAG, "Download %u timed out", dlIt->first);
@@ -53,9 +56,9 @@ void FileSystemHandler::cleanupExpiredTransfers() {
while (ulIt != uploads_.end()) {
if (now - ulIt->second.lastActivityTime > FS_TRANSFER_TIMEOUT_MS) {
if (ulIt->second.file) {
ulIt->second.file.close();
fclose(ulIt->second.file);
}
ESP_FS.remove(ulIt->second.path.c_str());
remove(ulIt->second.path.c_str());
ESP_LOGW(TAG, "Upload %u timed out, deleted partial file", ulIt->first);
if (sendUploadCompleteCallback_) {
@@ -77,10 +80,11 @@ void FileSystemHandler::cleanupExpiredTransfers() {
socket_message_FSDeleteResponse FileSystemHandler::handleDelete(const socket_message_FSDeleteRequest& req) {
socket_message_FSDeleteResponse response = socket_message_FSDeleteResponse_init_zero;
std::string path(req.path);
std::string path = std::string(MOUNT_POINT) + req.path;
ESP_LOGI(TAG, "Delete request: %s", path.c_str());
if (!ESP_FS.exists(path.c_str())) {
struct stat st;
if (stat(path.c_str(), &st) != 0) {
response.success = false;
strncpy(response.error, "File or directory not found", sizeof(response.error) - 1);
return response;
@@ -97,41 +101,45 @@ socket_message_FSDeleteResponse FileSystemHandler::handleDelete(const socket_mes
}
bool FileSystemHandler::deleteRecursive(const std::string& path) {
File file = ESP_FS.open(path.c_str());
if (!file) return false;
struct stat st;
if (stat(path.c_str(), &st) != 0) return false;
if (file.isDirectory()) {
File child = file.openNextFile();
while (child) {
std::string childPath = std::string(child.name());
child.close();
if (S_ISDIR(st.st_mode)) {
DIR* dir = opendir(path.c_str());
if (!dir) return false;
struct dirent* entry;
while ((entry = readdir(dir)) != nullptr) {
if (strcmp(entry->d_name, ".") == 0 || strcmp(entry->d_name, "..") == 0) {
continue;
}
std::string childPath = path + "/" + entry->d_name;
if (!deleteRecursive(childPath)) {
file.close();
closedir(dir);
return false;
}
child = file.openNextFile();
}
file.close();
return ESP_FS.rmdir(path.c_str());
closedir(dir);
return rmdir(path.c_str()) == 0;
} else {
file.close();
return ESP_FS.remove(path.c_str());
return remove(path.c_str()) == 0;
}
}
socket_message_FSMkdirResponse FileSystemHandler::handleMkdir(const socket_message_FSMkdirRequest& req) {
socket_message_FSMkdirResponse response = socket_message_FSMkdirResponse_init_zero;
std::string path(req.path);
std::string path = std::string(MOUNT_POINT) + req.path;
ESP_LOGI(TAG, "Mkdir request: %s", path.c_str());
if (ESP_FS.exists(path.c_str())) {
struct stat st;
if (stat(path.c_str(), &st) == 0) {
response.success = false;
strncpy(response.error, "Path already exists", sizeof(response.error) - 1);
return response;
}
if (ESP_FS.mkdir(path.c_str())) {
if (FileSystem::mkdirRecursive(path.c_str())) {
response.success = true;
} else {
response.success = false;
@@ -142,32 +150,40 @@ socket_message_FSMkdirResponse FileSystemHandler::handleMkdir(const socket_messa
}
void FileSystemHandler::listDirectory(const std::string& path, socket_message_FSListResponse& response) {
File dir = ESP_FS.open(path.c_str());
if (!dir || !dir.isDirectory()) {
DIR* dir = opendir(path.c_str());
if (!dir) {
return;
}
File file = dir.openNextFile();
struct dirent* entry;
int fileCount = 0;
int dirCount = 0;
while (file && fileCount < 20 && dirCount < 20) { // Limit to match protobuf max_count
if (file.isDirectory()) {
while ((entry = readdir(dir)) != nullptr && fileCount < 20 && dirCount < 20) {
if (strcmp(entry->d_name, ".") == 0 || strcmp(entry->d_name, "..") == 0) {
continue;
}
std::string fullPath = path + "/" + entry->d_name;
struct stat st;
if (stat(fullPath.c_str(), &st) != 0) continue;
if (S_ISDIR(st.st_mode)) {
if (dirCount < 20) {
strncpy(response.directories[dirCount].name, file.name(),
strncpy(response.directories[dirCount].name, entry->d_name,
sizeof(response.directories[dirCount].name) - 1);
dirCount++;
}
} else {
if (fileCount < 20) {
strncpy(response.files[fileCount].name, file.name(), sizeof(response.files[fileCount].name) - 1);
response.files[fileCount].size = file.size();
strncpy(response.files[fileCount].name, entry->d_name, sizeof(response.files[fileCount].name) - 1);
response.files[fileCount].size = st.st_size;
fileCount++;
}
}
file = dir.openNextFile();
}
closedir(dir);
response.files_count = fileCount;
response.directories_count = dirCount;
}
@@ -175,12 +191,15 @@ void FileSystemHandler::listDirectory(const std::string& path, socket_message_FS
socket_message_FSListResponse FileSystemHandler::handleList(const socket_message_FSListRequest& req) {
socket_message_FSListResponse response = socket_message_FSListResponse_init_zero;
std::string path(req.path);
if (path.empty()) path = "/";
std::string path = std::string(MOUNT_POINT);
if (strlen(req.path) > 0 && req.path[0] != '\0') {
path += req.path;
}
ESP_LOGI(TAG, "List request: %s", path.c_str());
if (!ESP_FS.exists(path.c_str())) {
struct stat st;
if (stat(path.c_str(), &st) != 0) {
response.success = false;
strncpy(response.error, "Path not found", sizeof(response.error) - 1);
return response;
@@ -192,14 +211,12 @@ socket_message_FSListResponse FileSystemHandler::handleList(const socket_message
return response;
}
// ===== STREAMING DOWNLOAD =====
void FileSystemHandler::handleDownloadRequest(const socket_message_FSDownloadRequest& req, int clientId) {
std::string path(req.path);
std::string path = std::string(MOUNT_POINT) + req.path;
ESP_LOGI(TAG, "Download request: %s", path.c_str());
// Validate file exists
if (!ESP_FS.exists(path.c_str())) {
struct stat st;
if (stat(path.c_str(), &st) != 0 || S_ISDIR(st.st_mode)) {
if (sendMetadataCallback_) {
socket_message_FSDownloadMetadata metadata = socket_message_FSDownloadMetadata_init_zero;
metadata.success = false;
@@ -209,8 +226,8 @@ void FileSystemHandler::handleDownloadRequest(const socket_message_FSDownloadReq
return;
}
File file = ESP_FS.open(path.c_str(), "r");
if (!file || file.isDirectory()) {
FILE* file = fopen(path.c_str(), "rb");
if (!file) {
if (sendMetadataCallback_) {
socket_message_FSDownloadMetadata metadata = socket_message_FSDownloadMetadata_init_zero;
metadata.success = false;
@@ -220,11 +237,7 @@ void FileSystemHandler::handleDownloadRequest(const socket_message_FSDownloadReq
return;
}
// Set file buffer size large, so we use ram to read from
// Set buffer size so 1 mb (static) TODO: Check that there is enough ram to do this
file.setBufferSize(1000000);
uint32_t fileSize = file.size();
uint32_t fileSize = st.st_size;
uint32_t chunkSize = FS_MAX_CHUNK_SIZE;
uint32_t totalChunks = (fileSize + chunkSize - 1) / chunkSize;
if (totalChunks == 0) totalChunks = 1;
@@ -254,10 +267,8 @@ void FileSystemHandler::handleDownloadRequest(const socket_message_FSDownloadReq
ESP_LOGI(TAG, "Download started: %s, size=%u, chunks=%u, id=%u", path.c_str(), fileSize, totalChunks, transferId);
// Start streaming chunks immediately
while (sendNextDownloadChunk(transferId)) {
// Keep sending until done or error
taskYIELD(); // Allow other tasks to run
taskYIELD();
}
}
@@ -280,7 +291,7 @@ bool FileSystemHandler::sendNextDownloadChunk(uint32_t transferId) {
sendCompleteCallback_(complete, state.clientId);
}
state.file.close();
fclose(state.file);
downloads_.erase(it);
ESP_LOGI(TAG, "Download completed: %u", transferId);
return false;
@@ -297,7 +308,7 @@ bool FileSystemHandler::sendNextDownloadChunk(uint32_t transferId) {
bytesToRead = state.fileSize - position;
}
size_t bytesRead = state.file.read(data->data.bytes, bytesToRead);
size_t bytesRead = fread(data->data.bytes, 1, bytesToRead, state.file);
if (bytesRead == 0 && bytesToRead > 0) {
delete data;
if (sendCompleteCallback_) {
@@ -310,7 +321,7 @@ bool FileSystemHandler::sendNextDownloadChunk(uint32_t transferId) {
sendCompleteCallback_(complete, state.clientId);
}
state.file.close();
fclose(state.file);
downloads_.erase(it);
ESP_LOGE(TAG, "Download failed - read error: %u", transferId);
return false;
@@ -328,45 +339,40 @@ bool FileSystemHandler::sendNextDownloadChunk(uint32_t transferId) {
return true;
}
// ===== STREAMING UPLOAD =====
socket_message_FSUploadStartResponse FileSystemHandler::handleUploadStart(const socket_message_FSUploadStart& req,
int clientId) {
socket_message_FSUploadStartResponse response = socket_message_FSUploadStartResponse_init_zero;
std::string path(req.path);
std::string path = std::string(MOUNT_POINT) + req.path;
ESP_LOGI(TAG, "Upload start request: %s, size=%u, chunks=%u", path.c_str(), req.file_size, req.total_chunks);
// Check available space
size_t fs_total = 0, fs_used = 0;
esp_littlefs_info("spiffs", &fs_total, &fs_used);
size_t freeSpace = fs_total - fs_used;
if (freeSpace < req.file_size + 4096) { // 4KB safety margin
if (freeSpace < req.file_size + 4096) {
response.success = false;
strncpy(response.error, "Insufficient storage space", sizeof(response.error) - 1);
return response;
}
// Ensure parent directory exists
size_t lastSlash = path.find_last_of('/');
if (lastSlash != std::string::npos && lastSlash > 0) {
std::string parentDir = path.substr(0, lastSlash);
if (!ESP_FS.exists(parentDir.c_str())) {
struct stat st;
if (stat(parentDir.c_str(), &st) != 0) {
response.success = false;
strncpy(response.error, "Parent directory does not exist", sizeof(response.error) - 1);
return response;
}
}
File file = ESP_FS.open(path.c_str(), FILE_WRITE);
FILE* file = fopen(path.c_str(), "wb");
if (!file) {
response.success = false;
strncpy(response.error, "Cannot open file for writing", sizeof(response.error) - 1);
return response;
}
file.setBufferSize(1000000);
uint32_t transferId = generateTransferId();
UploadState state;
@@ -402,20 +408,15 @@ void FileSystemHandler::handleUploadData(const socket_message_FSUploadData& req)
UploadState& state = it->second;
state.lastActivityTime = esp_timer_get_time() / 1000;
// Skip if we already have an error
if (state.hasError) {
return;
}
// Validate chunk index (allow out-of-order but warn)
if (req.chunk_index != state.chunksReceived) {
ESP_LOGW(TAG, "Upload chunk out of order: expected %u, got %u", state.chunksReceived, req.chunk_index);
// For now, we'll accept it anyway and write sequentially
// A more robust implementation would buffer out-of-order chunks
}
// Write chunk data
size_t bytesWritten = state.file.write(req.data.bytes, req.data.size);
size_t bytesWritten = fwrite(req.data.bytes, 1, req.data.size, state.file);
if (bytesWritten != req.data.size) {
state.hasError = true;
state.errorMessage = "Failed to write chunk";
@@ -426,15 +427,13 @@ void FileSystemHandler::handleUploadData(const socket_message_FSUploadData& req)
state.chunksReceived++;
state.bytesReceived += bytesWritten;
// Flush periodically to prevent LittleFS buffer issues
if (state.chunksReceived > 0 && state.chunksReceived % 64 == 0) {
ESP_LOGD(TAG, "Flushing file at chunk %u", state.chunksReceived);
state.file.flush();
fflush(state.file);
}
ESP_LOGD(TAG, "Upload chunk %u/%u: %u bytes", state.chunksReceived, state.totalChunks, bytesWritten);
// Check if upload is complete
if (state.chunksReceived >= state.totalChunks) {
finalizeUpload(transferId, true);
}
@@ -449,11 +448,11 @@ void FileSystemHandler::finalizeUpload(uint32_t transferId, bool success, const
UploadState& state = it->second;
if (state.file) {
state.file.close();
fclose(state.file);
}
if (!success) {
ESP_FS.remove(state.path.c_str());
remove(state.path.c_str());
ESP_LOGW(TAG, "Upload failed, deleted partial file: %s", state.path.c_str());
} else {
ESP_LOGI(TAG, "Upload completed: %s (%u bytes)", state.path.c_str(), state.bytesReceived);
@@ -473,8 +472,6 @@ void FileSystemHandler::finalizeUpload(uint32_t transferId, bool success, const
uploads_.erase(it);
}
// ===== TRANSFER CONTROL =====
socket_message_FSCancelTransferResponse FileSystemHandler::handleCancelTransfer(
const socket_message_FSCancelTransfer& req) {
socket_message_FSCancelTransferResponse response = socket_message_FSCancelTransferResponse_init_zero;
@@ -484,7 +481,7 @@ socket_message_FSCancelTransferResponse FileSystemHandler::handleCancelTransfer(
auto dlIt = downloads_.find(transferId);
if (dlIt != downloads_.end()) {
if (dlIt->second.file) {
dlIt->second.file.close();
fclose(dlIt->second.file);
}
downloads_.erase(dlIt);
response.success = true;
@@ -495,9 +492,9 @@ socket_message_FSCancelTransferResponse FileSystemHandler::handleCancelTransfer(
auto ulIt = uploads_.find(transferId);
if (ulIt != uploads_.end()) {
if (ulIt->second.file) {
ulIt->second.file.close();
fclose(ulIt->second.file);
}
ESP_FS.remove(ulIt->second.path.c_str());
remove(ulIt->second.path.c_str());
uploads_.erase(ulIt);
response.success = true;
ESP_LOGI(TAG, "Upload cancelled: %u", transferId);
@@ -508,4 +505,6 @@ socket_message_FSCancelTransferResponse FileSystemHandler::handleCancelTransfer(
return response;
}
void FileSystemHandler::processPendingDownloads() {}
} // namespace FileSystemWS
esp32/src/idf_component.yml
+18
View File
@@ -0,0 +1,18 @@
dependencies:
idf:
version: ">=5.0.0"
espressif/mdns:
version: "^1.3.0"
joltwallet/littlefs:
version: "^1.14.0"
espressif/esp-dsp:
version: "^1.4.0"
espressif/led_strip:
version: "^2.5.0"
espressif/esp32-camera:
version: "^2.0.0"
esp32/src/main.cpp
+91 -93
View File
@@ -1,6 +1,9 @@
#include <Arduino.h>
#include <ESPmDNS.h>
#include <WiFi.h>
#include <freertos/FreeRTOS.h>
#include <freertos/task.h>
#include <esp_log.h>
#include <nvs_flash.h>
#include <wifi/wifi_idf.h>
#include <mdns.h>
#include <map>
#include <filesystem.h>
@@ -17,10 +20,12 @@
#include <ap_service.h>
#include <mdns_service.h>
#include <system_service.h>
#include <consumers/event_storage_manager.h>
#include <event_bus/rest_endpoints.h>
#include <www_mount.hpp>
Websocket socket {server, "/api/ws"};
Websocket wsSocket {server, "/api/ws"};
Peripherals peripherals;
ServoController servoController;
@@ -39,7 +44,7 @@ WiFiService wifiService;
APService apService;
void setupServer() {
server.config(50 + WWW_ASSETS_COUNT, 32768);
server.config(50 + WWW_ASSETS_COUNT, 12288);
server.listen(80);
server.on("/api/system/reset", HTTP_POST,
@@ -53,62 +58,61 @@ void setupServer() {
server.on("/api/camera/stream", HTTP_GET,
[&](httpd_req_t *request) { return cameraService.cameraStream(request); });
server.on("/api/camera/settings", HTTP_GET,
[&](httpd_req_t *request) { return cameraService.protoEndpoint.getState(request); });
server.on("/api/camera/settings", HTTP_POST, [&](httpd_req_t *request, api_Request *protoReq) {
return cameraService.protoEndpoint.handleStateUpdate(request, protoReq);
[](httpd_req_t *request) { return CameraSettingsEndpoint::getSettings(request); });
server.on("/api/camera/settings", HTTP_POST, [](httpd_req_t *request, api_Request *protoReq) {
return CameraSettingsEndpoint::updateSettings(request, protoReq);
});
#endif
server.on("/api/servo/config", HTTP_GET,
[&](httpd_req_t *request) { return servoController.protoEndpoint.getState(request); });
server.on("/api/servo/config", HTTP_POST, [&](httpd_req_t *request, api_Request *protoReq) {
return servoController.protoEndpoint.handleStateUpdate(request, protoReq);
[](httpd_req_t *request) { return ServoSettingsEndpoint::getSettings(request); });
server.on("/api/servo/config", HTTP_POST, [](httpd_req_t *request, api_Request *protoReq) {
return ServoSettingsEndpoint::updateSettings(request, protoReq);
});
server.on("/api/wifi/sta/settings", HTTP_GET,
[&](httpd_req_t *request) { return wifiService.protoEndpoint.getState(request); });
server.on("/api/wifi/sta/settings", HTTP_POST, [&](httpd_req_t *request, api_Request *protoReq) {
return wifiService.protoEndpoint.handleStateUpdate(request, protoReq);
[](httpd_req_t *request) { return WiFiSettingsEndpoint::getSettings(request); });
server.on("/api/wifi/sta/settings", HTTP_POST, [](httpd_req_t *request, api_Request *protoReq) {
return WiFiSettingsEndpoint::updateSettings(request, protoReq);
});
server.on("/api/wifi/scan", HTTP_GET, [&](httpd_req_t *request) { return wifiService.handleScan(request); });
server.on("/api/wifi/networks", HTTP_GET, [&](httpd_req_t *request) { return wifiService.getNetworks(request); });
server.on("/api/wifi/sta/status", HTTP_GET,
[&](httpd_req_t *request) { return wifiService.getNetworkStatus(request); });
server.on("/api/ap/status", HTTP_GET, [&](httpd_req_t *request) { return apService.getStatusProto(request); });
server.on("/api/ap/settings", HTTP_GET,
[&](httpd_req_t *request) { return apService.protoEndpoint.getState(request); });
server.on("/api/ap/settings", HTTP_POST,
[&](httpd_req_t *request, api_Request *protoReq) {
return apService.protoEndpoint.handleStateUpdate(request, protoReq);
});
[](httpd_req_t *request) { return APSettingsEndpoint::getSettings(request); });
server.on("/api/ap/settings", HTTP_POST, [](httpd_req_t *request, api_Request *protoReq) {
return APSettingsEndpoint::updateSettings(request, protoReq);
});
server.on("/api/peripherals/settings", HTTP_GET,
[&](httpd_req_t *request) { return peripherals.protoEndpoint.getState(request); });
server.on("/api/peripherals/settings", HTTP_POST,
[&](httpd_req_t *request, api_Request *protoReq) {
return peripherals.protoEndpoint.handleStateUpdate(request, protoReq);
});
[](httpd_req_t *request) { return PeripheralSettingsEndpoint::getSettings(request); });
server.on("/api/peripherals/settings", HTTP_POST, [](httpd_req_t *request, api_Request *protoReq) {
return PeripheralSettingsEndpoint::updateSettings(request, protoReq);
});
#if FT_ENABLED(USE_MDNS)
server.on("/api/mdns/settings", HTTP_GET, [&](httpd_req_t *request) { return mdnsService.protoEndpoint.getState(request); });
server.on("/api/mdns/settings", HTTP_POST,
[&](httpd_req_t *request, api_Request *protoReq) {
return mdnsService.protoEndpoint.handleStateUpdate(request, protoReq);
});
server.on("/api/mdns/settings", HTTP_GET,
[](httpd_req_t *request) { return MDNSSettingsEndpoint::getSettings(request); });
server.on("/api/mdns/settings", HTTP_POST, [](httpd_req_t *request, api_Request *protoReq) {
return MDNSSettingsEndpoint::updateSettings(request, protoReq);
});
server.on("/api/mdns/status", HTTP_GET, [&](httpd_req_t *request) { return mdnsService.getStatus(request); });
server.on("/api/mdns/query", HTTP_POST,
[&](httpd_req_t *request, api_Request *protoReq) {
return mdnsService.queryServices(request, protoReq);
});
server.on("/api/mdns/query", HTTP_POST, [&](httpd_req_t *request, api_Request *protoReq) {
return mdnsService.queryServices(request, protoReq);
});
#endif
server.on("/api/config/*", HTTP_GET, [](httpd_req_t *request) { return FileSystem::getConfigFile(request); });
server.on("/api/files", HTTP_GET, [&](httpd_req_t *request) { return FileSystem::getFilesProto(request); });
STAITC_PROTO_POST_ENDPOINT(server, "/api/files/delete", file_delete_request, FileSystem::handleDelete);
STAITC_PROTO_POST_ENDPOINT(server, "/api/files/edit", file_edit_request, FileSystem::handleEdit);
STAITC_PROTO_POST_ENDPOINT(server, "/api/files/mkdir", file_mkdir_request, FileSystem::mkdir);
wsSocket.begin();
#if EMBED_WEBAPP
mountStaticAssets(server);
mountSpaFallback(server);
#endif
server.on("/*", HTTP_OPTIONS, [](httpd_req_t *request) {
httpd_resp_set_status(request, "200 OK");
@@ -123,37 +127,23 @@ void setupServer() {
void setupEventSocket() {
FileSystemWS::fsHandler.setSendCallbacks(
[](const socket_message_FSDownloadMetadata &metadata, int clientId) { socket.emit(metadata, clientId); },
[](const socket_message_FSDownloadData &data, int clientId) { socket.emit(data, clientId); },
[](const socket_message_FSDownloadComplete &complete, int clientId) { socket.emit(complete, clientId); },
[](const socket_message_FSUploadComplete &complete, int clientId) { socket.emit(complete, clientId); });
[](const socket_message_FSDownloadMetadata &metadata, int clientId) { wsSocket.emit(metadata, clientId); },
[](const socket_message_FSDownloadData &data, int clientId) { wsSocket.emit(data, clientId); },
[](const socket_message_FSDownloadComplete &complete, int clientId) { wsSocket.emit(complete, clientId); },
[](const socket_message_FSUploadComplete &complete, int clientId) { wsSocket.emit(complete, clientId); });
socket.on<socket_message_ControllerData>(
[&](const socket_message_ControllerData &data, int clientId) { motionService.handleInput(data); });
wsSocket.onPublish<socket_message_ControllerData>();
wsSocket.onPublish<socket_message_ModeData>();
wsSocket.onPublish<socket_message_WalkGaitData>();
wsSocket.onPublish<socket_message_AnglesData>();
wsSocket.onPublish<socket_message_ServoPWMData>();
wsSocket.onPublish<socket_message_ServoStateData>();
socket.on<socket_message_ModeData>([&](const socket_message_ModeData &data, int clientId) {
servoController.setMode(SERVO_CONTROL_STATE::ANGLE);
motionService.handleMode(data);
motionService.isActive() ? servoController.activate() : servoController.deactivate();
});
socket.on<socket_message_WalkGaitData>(
[&](const socket_message_WalkGaitData &data, int clientId) { motionService.handleWalkGait(data); });
socket.on<socket_message_AnglesData>(
[&](const socket_message_AnglesData &data, int clientId) { motionService.handleAngles(data); });
socket.on<socket_message_ServoPWMData>([&](const socket_message_ServoPWMData &data, int clientId) {
servoController.setServoPWM(data.servo_id, data.servo_pwm);
});
socket.on<socket_message_ServoStateData>([&](const socket_message_ServoStateData &data, int clientId) {
data.active ? servoController.activate() : servoController.deactivate();
});
socket.on<socket_message_FSUploadData>(
wsSocket.on<socket_message_FSUploadData>(
[&](const socket_message_FSUploadData &data, int clientId) { FileSystemWS::fsHandler.handleUploadData(data); });
wsSocket.bridgeFromEventBus<socket_message_IMUData>(100);
using CorrelationHandler =
std::function<void(const socket_message_CorrelationRequest &, socket_message_CorrelationResponse &, int)>;
static std::map<pb_size_t, CorrelationHandler> correlationHandlers = {
@@ -225,7 +215,7 @@ void setupEventSocket() {
}},
};
socket.on<socket_message_CorrelationRequest>([&](const socket_message_CorrelationRequest &data, int clientId) {
wsSocket.on<socket_message_CorrelationRequest>([&](const socket_message_CorrelationRequest &data, int clientId) {
auto res = new socket_message_CorrelationResponse();
*res = socket_message_CorrelationResponse_init_default;
res->correlation_id = data.correlation_id;
@@ -235,7 +225,7 @@ void setupEventSocket() {
if (it != correlationHandlers.end()) {
it->second(data, *res, clientId);
if (res->status_code != 0) {
socket.emit(*res, clientId);
wsSocket.emit(*res, clientId);
}
} else {
printf("WARNING: no handler for correlation request: %d\n", data.which_request);
@@ -248,15 +238,22 @@ void setupEventSocket() {
void IRAM_ATTR SpotControlLoopEntry(void *) {
ESP_LOGI("main", "Control task starting");
TickType_t xLastWakeTime = xTaskGetTickCount();
const TickType_t xFrequency = 5 / portTICK_PERIOD_MS;
const TickType_t xFrequency = pdMS_TO_TICKS(10);
peripherals.begin();
servoController.begin();
motionService.begin();
motionService.setModeChangeCallback([](bool active) {
servoController.setMode(SERVO_CONTROL_STATE::ANGLE);
active ? servoController.activate() : servoController.deactivate();
});
#if FT_ENABLED(USE_WS2812)
ledService.begin();
#endif
peripherals.calibrateIMU();
for (;;) {
WARN_IF_SLOW(SpotControlLoopEntry, 5);
WARN_IF_SLOW(SpotControlLoopEntry, 10);
peripherals.update();
motionService.update(&peripherals);
servoController.setAngles(motionService.getAngles());
@@ -264,22 +261,22 @@ void IRAM_ATTR SpotControlLoopEntry(void *) {
#if FT_ENABLED(USE_WS2812)
ledService.loop();
#endif
// CALLS_PER_SECOND_TIMED(SpotControlLoopEntry,
// CALLS_PER_SECOND_TIMED_FUNC_PRINT(SpotControlLoopEntry, peripherals_update)
// CALLS_PER_SECOND_TIMED_FUNC_PRINT(SpotControlLoopEntry, motionService_update)
// CALLS_PER_SECOND_TIMED_FUNC_PRINT(SpotControlLoopEntry, servoController_setAngles)
// CALLS_PER_SECOND_TIMED_FUNC_PRINT(SpotControlLoopEntry, servoController_update)
// );
// vTaskDelayUntil(&xLastWakeTime, xFrequency);
vTaskDelayUntil(&xLastWakeTime, xFrequency);
}
}
void IRAM_ATTR serviceLoopEntry(void *) {
ESP_LOGI("main", "Service task starting");
static EventStorageManager storageManager;
storageManager.initialize();
ESP_LOGI("main", "Event storage initialized, settings loaded and published");
WiFi.init();
wifiService.begin();
MDNS.begin(APP_NAME);
MDNS.setInstanceName(APP_NAME);
mdns_init();
mdns_hostname_set(APP_NAME);
mdns_instance_name_set(APP_NAME);
apService.begin();
#if FT_ENABLED(USE_CAMERA)
@@ -287,8 +284,6 @@ void IRAM_ATTR serviceLoopEntry(void *) {
#endif
setupServer();
socket.begin();
setupEventSocket();
ESP_LOGI("main", "Service task started");
@@ -297,23 +292,21 @@ void IRAM_ATTR serviceLoopEntry(void *) {
apService.loop();
EXECUTE_EVERY_N_MS(2000, {
if (socket.hasSubscribers(socket_message_Message_analytics_tag)) {
if (wsSocket.hasSubscribers(socket_message_Message_analytics_tag)) {
socket_message_AnalyticsData analytics = socket_message_AnalyticsData_init_zero;
system_service::getAnalytics(analytics);
socket.emit(analytics);
wsSocket.emit(analytics);
}
});
EXECUTE_EVERY_N_MS(100, {
if (socket.hasSubscribers(socket_message_Message_imu_tag)) {
socket_message_IMUData imu = socket_message_IMUData_init_zero;
peripherals.getIMUProto(imu);
socket.emit(imu);
}
socket_message_IMUData imu = socket_message_IMUData_init_zero;
peripherals.getIMUProto(imu);
EventBus::publish(imu);
if (socket.hasSubscribers(socket_message_Message_rssi_tag)) {
if (wsSocket.hasSubscribers(socket_message_Message_rssi_tag)) {
socket_message_RSSIData rssi = {.rssi = WiFi.RSSI()};
socket.emit(rssi);
wsSocket.emit(rssi);
}
});
@@ -323,18 +316,23 @@ void IRAM_ATTR serviceLoopEntry(void *) {
}
}
void setup() {
ESP_FS.begin();
extern "C" void app_main(void) {
esp_err_t ret = nvs_flash_init();
if (ret == ESP_ERR_NVS_NO_FREE_PAGES || ret == ESP_ERR_NVS_NEW_VERSION_FOUND) {
ESP_ERROR_CHECK(nvs_flash_erase());
ret = nvs_flash_init();
}
ESP_ERROR_CHECK(ret);
FileSystem::init();
ESP_LOGI("main", "Booting robot");
feature_service::printFeatureConfiguration();
xTaskCreate(serviceLoopEntry, "Service task", 4096, nullptr, 2, nullptr);
xTaskCreate(serviceLoopEntry, "Service task", 8192, nullptr, 2, nullptr);
xTaskCreatePinnedToCore(SpotControlLoopEntry, "Control task", 4096, nullptr, 5, nullptr, 1);
xTaskCreatePinnedToCore(SpotControlLoopEntry, "Control task", 8192, nullptr, 5, nullptr, 1);
ESP_LOGI("main", "Finished booting");
}
void loop() { vTaskDelete(nullptr); }
esp32/src/mdns_service.cpp
+125 -50
View File
@@ -1,17 +1,8 @@
#include <mdns_service.h>
#include <communication/webserver.h>
#include <esp_netif.h>
static const char *TAG = "MDNSService";
MDNSService::MDNSService()
: protoEndpoint(MDNSSettings_read, MDNSSettings_update, this,
API_REQUEST_EXTRACTOR(mdns_settings, api_MDNSSettings),
API_RESPONSE_ASSIGNER(mdns_settings, api_MDNSSettings)),
_persistence(MDNSSettings_read, MDNSSettings_update, this,
MDNS_SETTINGS_FILE, api_MDNSSettings_fields, api_MDNSSettings_size,
MDNSSettings_defaults()) {
addUpdateHandler([&](const std::string &originId) { reconfigureMDNS(); }, false);
}
MDNSService::MDNSService() {}
MDNSService::~MDNSService() {
if (_started) {
@@ -20,10 +11,32 @@ MDNSService::~MDNSService() {
}
void MDNSService::begin() {
_persistence.readFromFS();
_settingsHandle = EventBus::subscribe<api_MDNSSettings>(
[this](const api_MDNSSettings &settings) { onSettingsChanged(settings); });
api_MDNSSettings initialSettings;
if (EventBus::peek(initialSettings)) {
onSettingsChanged(initialSettings);
}
startMDNS();
}
void MDNSService::onSettingsChanged(const api_MDNSSettings &newSettings) {
strncpy(_settings.hostname, newSettings.hostname, sizeof(_settings.hostname) - 1);
_settings.hostname[sizeof(_settings.hostname) - 1] = '\0';
strncpy(_settings.instance, newSettings.instance, sizeof(_settings.instance) - 1);
_settings.instance[sizeof(_settings.instance) - 1] = '\0';
_settings.services_count = newSettings.services_count;
for (size_t i = 0; i < newSettings.services_count; i++) {
_settings.services[i] = newSettings.services[i];
}
_settings.global_txt_records_count = newSettings.global_txt_records_count;
for (size_t i = 0; i < newSettings.global_txt_records_count; i++) {
_settings.global_txt_records[i] = newSettings.global_txt_records[i];
}
reconfigureMDNS();
}
void MDNSService::reconfigureMDNS() {
if (_started) {
stopMDNS();
@@ -32,43 +45,60 @@ void MDNSService::reconfigureMDNS() {
}
void MDNSService::startMDNS() {
ESP_LOGV(TAG, "Starting MDNS with hostname: %s", state().hostname);
ESP_LOGV(TAG, "Starting MDNS with hostname: %s", _settings.hostname);
if (MDNS.begin(state().hostname)) {
_started = true;
MDNS.setInstanceName(state().instance);
addServices();
ESP_LOGI(TAG, "MDNS started successfully with hostname: %s", state().hostname);
} else {
esp_err_t err = mdns_init();
if (err != ESP_OK) {
ESP_LOGE(TAG, "Failed to initialize MDNS: %s", esp_err_to_name(err));
_started = false;
ESP_LOGE(TAG, "Failed to start MDNS");
return;
}
err = mdns_hostname_set(_settings.hostname);
if (err != ESP_OK) {
ESP_LOGE(TAG, "Failed to set MDNS hostname: %s", esp_err_to_name(err));
mdns_free();
_started = false;
return;
}
err = mdns_instance_name_set(_settings.instance);
if (err != ESP_OK) {
ESP_LOGW(TAG, "Failed to set MDNS instance name: %s", esp_err_to_name(err));
}
_started = true;
addServices();
ESP_LOGI(TAG, "MDNS started successfully with hostname: %s", _settings.hostname);
}
void MDNSService::stopMDNS() {
ESP_LOGV(TAG, "Stopping MDNS");
MDNS.end();
mdns_free();
_started = false;
}
void MDNSService::addServices() {
for (size_t i = 0; i < state().services_count; i++) {
const auto &service = state().services[i];
MDNS.addService(service.service, service.protocol, service.port);
for (size_t i = 0; i < _settings.services_count; i++) {
const auto &service = _settings.services[i];
esp_err_t err = mdns_service_add(nullptr, service.service, service.protocol, service.port, nullptr, 0);
if (err != ESP_OK) {
ESP_LOGW(TAG, "Failed to add service %s: %s", service.service, esp_err_to_name(err));
continue;
}
for (size_t j = 0; j < service.txt_records_count; j++) {
const auto &txt = service.txt_records[j];
MDNS.addServiceTxt(service.service, service.protocol, txt.key, txt.value);
mdns_service_txt_item_set(service.service, service.protocol, txt.key, txt.value);
}
}
for (size_t i = 0; i < state().global_txt_records_count; i++) {
const auto &txt = state().global_txt_records[i];
for (size_t j = 0; j < state().services_count; j++) {
const auto &service = state().services[j];
MDNS.addServiceTxt(service.service, service.protocol, txt.key, txt.value);
for (size_t i = 0; i < _settings.global_txt_records_count; i++) {
const auto &txt = _settings.global_txt_records[i];
for (size_t j = 0; j < _settings.services_count; j++) {
const auto &service = _settings.services[j];
mdns_service_txt_item_set(service.service, service.protocol, txt.key, txt.value);
}
}
}
@@ -79,17 +109,17 @@ esp_err_t MDNSService::getStatus(httpd_req_t *request) {
MDNSStatus &status = response.payload.mdns_status;
status.started = _started;
strncpy(status.hostname, state().hostname, sizeof(status.hostname) - 1);
strncpy(status.instance, state().instance, sizeof(status.instance) - 1);
strncpy(status.hostname, _settings.hostname, sizeof(status.hostname) - 1);
strncpy(status.instance, _settings.instance, sizeof(status.instance) - 1);
status.services_count = state().services_count;
for (size_t i = 0; i < state().services_count; i++) {
status.services[i] = state().services[i];
status.services_count = _settings.services_count;
for (size_t i = 0; i < _settings.services_count; i++) {
status.services[i] = _settings.services[i];
}
status.global_txt_records_count = state().global_txt_records_count;
for (size_t i = 0; i < state().global_txt_records_count; i++) {
status.global_txt_records[i] = state().global_txt_records[i];
status.global_txt_records_count = _settings.global_txt_records_count;
for (size_t i = 0; i < _settings.global_txt_records_count; i++) {
status.global_txt_records[i] = _settings.global_txt_records[i];
}
return WebServer::send(request, 200, response, api_Response_fields);
@@ -103,22 +133,67 @@ esp_err_t MDNSService::queryServices(httpd_req_t *request, api_Request *protoReq
const api_MDNSQueryRequest &queryReq = protoReq->payload.mdns_query_request;
ESP_LOGI(TAG, "Querying for service: %s, protocol: %s", queryReq.service, queryReq.protocol);
int n = MDNS.queryService(queryReq.service, queryReq.protocol);
ESP_LOGI(TAG, "Found %d services", n);
mdns_result_t *results = nullptr;
esp_err_t err = mdns_query_ptr(queryReq.service, queryReq.protocol, 3000, 20, &results);
api_Response response = api_Response_init_zero;
response.which_payload = api_Response_mdns_query_response_tag;
api_MDNSQueryResponse &queryResp = response.payload.mdns_query_response;
// Limit to max_count from options file (16)
size_t count = (n > 16) ? 16 : static_cast<size_t>(n);
queryResp.services_count = count;
for (size_t i = 0; i < count; i++) {
strncpy(queryResp.services[i].name, MDNS.hostname(i).c_str(), sizeof(queryResp.services[i].name) - 1);
strncpy(queryResp.services[i].ip, MDNS.IP(i).toString().c_str(), sizeof(queryResp.services[i].ip) - 1);
queryResp.services[i].port = MDNS.port(i);
if (err != ESP_OK) {
ESP_LOGW(TAG, "MDNS query failed: %s", esp_err_to_name(err));
queryResp.services_count = 0;
return WebServer::send(request, 200, response, api_Response_fields);
}
int count = 0;
mdns_result_t *r = results;
while (r && count < 16) {
count++;
r = r->next;
}
ESP_LOGI(TAG, "Found %d services", count);
queryResp.services_count = count;
r = results;
size_t i = 0;
while (r && i < 16) {
if (r->hostname) {
strncpy(queryResp.services[i].name, r->hostname, sizeof(queryResp.services[i].name) - 1);
}
if (r->addr) {
char ip_str[16];
esp_ip4addr_ntoa(&r->addr->addr.u_addr.ip4, ip_str, sizeof(ip_str));
strncpy(queryResp.services[i].ip, ip_str, sizeof(queryResp.services[i].ip) - 1);
}
queryResp.services[i].port = r->port;
r = r->next;
i++;
}
mdns_query_results_free(results);
return WebServer::send(request, 200, response, api_Response_fields);
}
esp_err_t MDNSService::getSettings(httpd_req_t *request) {
api_Response response = api_Response_init_zero;
response.status_code = 200;
response.which_payload = api_Response_mdns_settings_tag;
response.payload.mdns_settings = _settings;
return WebServer::send(request, 200, response, api_Response_fields);
}
esp_err_t MDNSService::updateSettings(httpd_req_t *request, api_Request *protoReq) {
if (protoReq->which_payload != api_Request_mdns_settings_tag) {
return ESP_FAIL;
}
EventBus::publish(protoReq->payload.mdns_settings, "HTTPEndpoint");
api_Response response = api_Response_init_zero;
response.status_code = 200;
response.which_payload = api_Response_empty_message_tag;
return WebServer::send(request, 200, response, api_Response_fields);
}
esp32/src/motion.cpp
+19 -1
View File
@@ -1,6 +1,23 @@
#include <motion.h>
void MotionService::begin() { body_state.updateFeet(KinConfig::default_feet_positions); }
void MotionService::begin() {
body_state.updateFeet(KinConfig::default_feet_positions);
subscribeToEvents();
}
void MotionService::subscribeToEvents() {
controllerHandle_ = EventBus::subscribe<socket_message_ControllerData>(
[this](const socket_message_ControllerData& data) { handleInput(data); });
modeHandle_ =
EventBus::subscribe<socket_message_ModeData>([this](const socket_message_ModeData& data) { handleMode(data); });
anglesHandle_ = EventBus::subscribe<socket_message_AnglesData>(
[this](const socket_message_AnglesData& data) { handleAngles(data); });
walkGaitHandle_ = EventBus::subscribe<socket_message_WalkGaitData>(
[this](const socket_message_WalkGaitData& data) { handleWalkGait(data); });
}
void MotionService::handleAngles(const socket_message_AnglesData& data) {
for (int i = 0; i < 12 && i < data.angles_count; i++) {
@@ -41,6 +58,7 @@ void MotionService::handleMode(const socket_message_ModeData& data) {
case MOTION_STATE::DEACTIVATED: setState(nullptr); break;
default: setState(nullptr); break;
}
if (modeChangeCallback_) modeChangeCallback_(isActive());
}
void MotionService::handleGestures(const gesture_t ges) {
esp32/src/peripherals/camera_service.cpp
+63 -40
View File
@@ -1,10 +1,9 @@
#include <peripherals/camera_service.h>
#include <communication/webserver.h>
#include <esp_heap_caps.h>
namespace Camera {
static const char *const TAG = "CameraService";
static constexpr const char *_STREAM_CONTENT_TYPE = "multipart/x-mixed-replace;boundary=" PART_BOUNDARY;
static constexpr const char *_STREAM_BOUNDARY = "\r\n--" PART_BOUNDARY "\r\n";
static constexpr const char *_STREAM_PART = "Content-Type: image/jpeg\r\nContent-Length: %u\r\n\r\n";
@@ -30,18 +29,16 @@ sensor_t *safe_sensor_get() {
void safe_sensor_return() { xSemaphoreGiveRecursive(cameraMutex); }
CameraService::CameraService()
: protoEndpoint(CameraSettings_read, CameraSettings_update, this,
API_REQUEST_EXTRACTOR(camera_settings, api_CameraSettings),
API_RESPONSE_ASSIGNER(camera_settings, api_CameraSettings)),
_persistence(CameraSettings_read, CameraSettings_update, this,
CAMERA_SETTINGS_FILE, api_CameraSettings_fields, api_CameraSettings_size,
CameraSettings_defaults()) {
addUpdateHandler([&](const std::string &originId) { updateCamera(); }, false);
}
CameraService::CameraService() {}
esp_err_t CameraService::begin() {
_persistence.readFromFS();
_settingsHandle = EventBus::subscribe<api_CameraSettings>(
[this](const api_CameraSettings &settings) { onSettingsChanged(settings); });
api_CameraSettings initialSettings;
if (EventBus::peek(initialSettings)) {
onSettingsChanged(initialSettings);
}
camera_config_t camera_config;
camera_config.ledc_channel = LEDC_CHANNEL_0;
camera_config.ledc_timer = LEDC_TIMER_0;
@@ -66,7 +63,7 @@ esp_err_t CameraService::begin() {
camera_config.xclk_freq_hz = 20000000;
camera_config.pixel_format = PIXFORMAT_JPEG;
if (psramFound()) {
if (heap_caps_get_total_size(MALLOC_CAP_SPIRAM) > 0) {
camera_config.frame_size = FRAMESIZE_SVGA;
camera_config.jpeg_quality = 10;
camera_config.fb_location = CAMERA_FB_IN_PSRAM;
@@ -78,7 +75,7 @@ esp_err_t CameraService::begin() {
camera_config.fb_count = 1;
}
log_i("Initializing camera");
ESP_LOGI(TAG, "Initializing camera");
esp_err_t err = esp_camera_init(&camera_config);
if (err == ESP_OK)
ESP_LOGI(TAG, "Camera probe successful");
@@ -145,39 +142,65 @@ esp_err_t CameraService::cameraStream(httpd_req_t *request) {
return ESP_OK;
}
void CameraService::onSettingsChanged(const api_CameraSettings &newSettings) {
_settings = newSettings;
updateCamera();
}
void CameraService::updateCamera() {
ESP_LOGI("CameraSettings", "Updating camera settings");
ESP_LOGI(TAG, "Updating camera settings");
sensor_t *s = safe_sensor_get();
if (!s) {
ESP_LOGE("CameraSettings", "Failed to update camera settings");
ESP_LOGE(TAG, "Failed to update camera settings");
safe_sensor_return();
return;
}
s->set_pixformat(s, static_cast<pixformat_t>(state().pixformat));
s->set_framesize(s, static_cast<framesize_t>(state().framesize));
s->set_brightness(s, state().brightness);
s->set_contrast(s, state().contrast);
s->set_saturation(s, state().saturation);
s->set_sharpness(s, state().sharpness);
s->set_denoise(s, state().denoise);
s->set_gainceiling(s, static_cast<gainceiling_t>(state().gainceiling));
s->set_quality(s, state().quality);
s->set_colorbar(s, state().colorbar);
s->set_awb_gain(s, state().awb_gain);
s->set_wb_mode(s, state().wb_mode);
s->set_aec2(s, state().aec2);
s->set_ae_level(s, state().ae_level);
s->set_aec_value(s, state().aec_value);
s->set_agc_gain(s, state().agc_gain);
s->set_bpc(s, state().bpc);
s->set_wpc(s, state().wpc);
s->set_special_effect(s, state().special_effect);
s->set_raw_gma(s, state().raw_gma);
s->set_lenc(s, state().lenc);
s->set_hmirror(s, state().hmirror);
s->set_vflip(s, state().vflip);
s->set_dcw(s, state().dcw);
s->set_pixformat(s, static_cast<pixformat_t>(_settings.pixformat));
s->set_framesize(s, static_cast<framesize_t>(_settings.framesize));
s->set_brightness(s, _settings.brightness);
s->set_contrast(s, _settings.contrast);
s->set_saturation(s, _settings.saturation);
s->set_sharpness(s, _settings.sharpness);
s->set_denoise(s, _settings.denoise);
s->set_gainceiling(s, static_cast<gainceiling_t>(_settings.gainceiling));
s->set_quality(s, _settings.quality);
s->set_colorbar(s, _settings.colorbar);
s->set_awb_gain(s, _settings.awb_gain);
s->set_wb_mode(s, _settings.wb_mode);
s->set_aec2(s, _settings.aec2);
s->set_ae_level(s, _settings.ae_level);
s->set_aec_value(s, _settings.aec_value);
s->set_agc_gain(s, _settings.agc_gain);
s->set_bpc(s, _settings.bpc);
s->set_wpc(s, _settings.wpc);
s->set_special_effect(s, _settings.special_effect);
s->set_raw_gma(s, _settings.raw_gma);
s->set_lenc(s, _settings.lenc);
s->set_hmirror(s, _settings.hmirror);
s->set_vflip(s, _settings.vflip);
s->set_dcw(s, _settings.dcw);
safe_sensor_return();
}
esp_err_t CameraService::getSettings(httpd_req_t *request) {
api_Response response = api_Response_init_zero;
response.status_code = 200;
response.which_payload = api_Response_camera_settings_tag;
response.payload.camera_settings = _settings;
return WebServer::send(request, 200, response, api_Response_fields);
}
esp_err_t CameraService::updateSettings(httpd_req_t *request, api_Request *protoReq) {
if (protoReq->which_payload != api_Request_camera_settings_tag) {
return ESP_FAIL;
}
EventBus::publish(protoReq->payload.camera_settings, "HTTPEndpoint");
api_Response response = api_Response_init_zero;
response.status_code = 200;
response.which_payload = api_Response_empty_message_tag;
return WebServer::send(request, 200, response, api_Response_fields);
}
} // namespace Camera
esp32/src/peripherals/peripherals.cpp
+54 -50
View File
@@ -1,55 +1,31 @@
#include <peripherals/peripherals.h>
#include <communication/webserver.h>
Peripherals::Peripherals()
: protoEndpoint(PeripheralsConfiguration_read, PeripheralsConfiguration_update, this,
API_REQUEST_EXTRACTOR(peripheral_settings, api_PeripheralSettings),
API_RESPONSE_ASSIGNER(peripheral_settings, api_PeripheralSettings)),
_persistence(PeripheralsConfiguration_read, PeripheralsConfiguration_update, this,
PERIPHERAL_SETTINGS_FILE, api_PeripheralSettings_fields, api_PeripheralSettings_size,
PeripheralsConfiguration_defaults()) {
_accessMutex = xSemaphoreCreateMutex();
addUpdateHandler([&](const std::string &originId) { updatePins(); }, false);
}
Peripherals::Peripherals() { _accessMutex = xSemaphoreCreateMutex(); }
void Peripherals::begin() {
_persistence.readFromFS();
_settingsHandle = EventBus::subscribe<api_PeripheralSettings>(
[this](const api_PeripheralSettings &settings) { onSettingsChanged(settings); });
api_PeripheralSettings initialSettings;
if (EventBus::peek(initialSettings)) {
onSettingsChanged(initialSettings);
}
updatePins();
#if FT_ENABLED(USE_ICM20948)
#if FT_ENABLED(USE_ICM20948_SPIMODE) > 0
ICM_20948_SPI* icm20948 = new ICM_20948_SPI;
#else
ICM_20948_I2C* icm20948 = new ICM_20948_I2C;
#endif
#endif
// --- IMU ---
#if FT_ENABLED(USE_MPU6050 || USE_BNO055)
if (!_imu.initialize(nullptr)) ESP_LOGE("Peripherals", "IMU initialize failed");
#elif FT_ENABLED(USE_ICM20948)
if (!_imu.initialize(icm20948)) ESP_LOGE("Peripherals", "IMU initialize failed (ICM20948)");
if (!_imu.initialize()) ESP_LOGE("IMUService", "IMU initialize failed");
#endif
// --- MAGNETOMETER ---
#if FT_ENABLED(USE_HMC5883)
if (!_mag.initialize(nullptr)) ESP_LOGE("Peripherals", "MAG initialize failed");
#elif FT_ENABLED(USE_ICM20948)
if (!_mag.initialize(icm20948)) ESP_LOGE("Peripherals", "MAG initialize failed (ICM20948)");
if (!_mag.initialize()) ESP_LOGE("IMUService", "MAG initialize failed");
#endif
// --- BMP ---
#if FT_ENABLED(USE_BMP180)
if (!_bmp.initialize(nullptr)) ESP_LOGE("Peripherals", "BMP initialize failed");
if (!_bmp.initialize()) ESP_LOGE("IMUService", "BMP initialize failed");
#endif
// --- GESTURE ---
#if FT_ENABLED(USE_PAJ7620U2)
if (!_gesture.initialize(nullptr)) ESP_LOGE("Peripherals", "Gesture initialize failed");
if (!_gesture.initialize()) ESP_LOGE("IMUService", "Gesture initialize failed");
#endif
// --- SONAR ---
#if FT_ENABLED(USE_USS)
_left_sonar = std::make_unique<NewPing>(USS_LEFT_PIN, USS_LEFT_PIN, MAX_DISTANCE);
_right_sonar = std::make_unique<NewPing>(USS_RIGHT_PIN, USS_RIGHT_PIN, MAX_DISTANCE);
@@ -64,14 +40,21 @@ void Peripherals::update() {
EXECUTE_EVERY_N_MS(500, { readSonar(); });
}
void Peripherals::onSettingsChanged(const api_PeripheralSettings &newSettings) {
_settings.sda = newSettings.sda;
_settings.scl = newSettings.scl;
_settings.frequency = newSettings.frequency;
updatePins();
}
void Peripherals::updatePins() {
if (i2c_active) {
I2CBus::instance().end();
}
if (state().sda != -1 && state().scl != -1) {
esp_err_t err = I2CBus::instance().begin(static_cast<gpio_num_t>(state().sda),
static_cast<gpio_num_t>(state().scl), state().frequency);
if (_settings.sda != -1 && _settings.scl != -1) {
esp_err_t err = I2CBus::instance().begin(static_cast<gpio_num_t>(_settings.sda),
static_cast<gpio_num_t>(_settings.scl), _settings.frequency);
i2c_active = (err == ESP_OK);
}
}
@@ -96,7 +79,7 @@ void Peripherals::scanI2C(uint8_t lower, uint8_t higher) {
}
void Peripherals::getIMUProto(socket_message_IMUData &data) {
#if FT_ENABLED(USE_MPU6050 || USE_BNO055 || USE_ICM20948)
#if FT_ENABLED(USE_MPU6050 || USE_BNO055)
data.x = _imu.getAngleX();
data.y = _imu.getAngleY();
data.z = _imu.getAngleZ();
@@ -114,16 +97,37 @@ void Peripherals::getIMUProto(socket_message_IMUData &data) {
}
void Peripherals::getSettingsProto(socket_message_PeripheralSettingsData &data) {
data.sda = state().sda;
data.scl = state().scl;
data.frequency = state().frequency;
data.sda = _settings.sda;
data.scl = _settings.scl;
data.frequency = _settings.frequency;
data.pins_count = 0;
}
esp_err_t Peripherals::getSettings(httpd_req_t *request) {
api_Response response = api_Response_init_zero;
response.status_code = 200;
response.which_payload = api_Response_peripheral_settings_tag;
response.payload.peripheral_settings = _settings;
return WebServer::send(request, 200, response, api_Response_fields);
}
esp_err_t Peripherals::updateSettings(httpd_req_t *request, api_Request *protoReq) {
if (protoReq->which_payload != api_Request_peripheral_settings_tag) {
return ESP_FAIL;
}
EventBus::publish(protoReq->payload.peripheral_settings, "HTTPEndpoint");
api_Response response = api_Response_init_zero;
response.status_code = 200;
response.which_payload = api_Response_empty_message_tag;
return WebServer::send(request, 200, response, api_Response_fields);
}
/* IMU FUNCTIONS */
bool Peripherals::readImu() {
bool updated = false;
#if FT_ENABLED(USE_MPU6050 || USE_BNO055 || USE_ICM20948)
#if FT_ENABLED(USE_MPU6050 || USE_BNO055)
beginTransaction();
updated = _imu.update();
endTransaction();
@@ -133,7 +137,7 @@ bool Peripherals::readImu() {
bool Peripherals::readMag() {
bool updated = false;
#if FT_ENABLED(USE_HMC5883 || USE_ICM20948)
#if FT_ENABLED(USE_HMC5883)
beginTransaction();
updated = _mag.update();
endTransaction();
@@ -171,7 +175,7 @@ void Peripherals::readSonar() {
float Peripherals::angleX() {
return
#if FT_ENABLED(USE_MPU6050 || USE_BNO055 || USE_ICM20948)
#if FT_ENABLED(USE_MPU6050 || USE_BNO055)
_imu.getAngleX();
#else
0;
@@ -180,7 +184,7 @@ float Peripherals::angleX() {
float Peripherals::angleY() {
return
#if FT_ENABLED(USE_MPU6050 || USE_BNO055 || USE_ICM20948)
#if FT_ENABLED(USE_MPU6050 || USE_BNO055)
_imu.getAngleY();
#else
0;
@@ -189,7 +193,7 @@ float Peripherals::angleY() {
float Peripherals::angleZ() {
return
#if FT_ENABLED(USE_MPU6050 || USE_BNO055 || USE_ICM20948)
#if FT_ENABLED(USE_MPU6050 || USE_BNO055)
_imu.getAngleZ();
#else
0;
@@ -209,7 +213,7 @@ float Peripherals::leftDistance() { return _left_distance; }
float Peripherals::rightDistance() { return _right_distance; }
bool Peripherals::calibrateIMU() {
#if FT_ENABLED(USE_MPU6050 || USE_BNO055 || USE_ICM20948)
#if FT_ENABLED(USE_MPU6050 || USE_BNO055)
beginTransaction();
bool result = _imu.calibrate();
endTransaction();
esp32/src/peripherals/servo_controller.cpp
+23
View File
@@ -0,0 +1,23 @@
#include <peripherals/servo_controller.h>
#include <communication/webserver.h>
esp_err_t ServoController::getSettings(httpd_req_t *request) {
api_Response response = api_Response_init_zero;
response.status_code = 200;
response.which_payload = api_Response_servo_settings_tag;
response.payload.servo_settings = _settings;
return WebServer::send(request, 200, response, api_Response_fields);
}
esp_err_t ServoController::updateSettings(httpd_req_t *request, api_Request *protoReq) {
if (protoReq->which_payload != api_Request_servo_settings_tag) {
return ESP_FAIL;
}
EventBus::publish(protoReq->payload.servo_settings, "HTTPEndpoint");
api_Response response = api_Response_init_zero;
response.status_code = 200;
response.which_payload = api_Response_empty_message_tag;
return WebServer::send(request, 200, response, api_Response_fields);
}
esp32/src/system_service.cpp
+135 -19
View File
@@ -1,5 +1,43 @@
#include "system_service.h"
#include <communication/webserver.h>
#include <dirent.h>
#include <esp_chip_info.h>
#include <esp_flash.h>
#include <esp_ota_ops.h>
#include <esp_system.h>
#include <esp_sleep.h>
#include <soc/soc.h>
#if CONFIG_IDF_TARGET_ESP32S2 || CONFIG_IDF_TARGET_ESP32S3 || CONFIG_IDF_TARGET_ESP32C3 || CONFIG_IDF_TARGET_ESP32C6
#include <driver/temperature_sensor.h>
static float temperatureRead() {
static temperature_sensor_handle_t temp_sensor = nullptr;
static bool initialized = false;
if (!initialized) {
temperature_sensor_config_t temp_sensor_config = {
.range_min = -10,
.range_max = 80,
.clk_src = TEMPERATURE_SENSOR_CLK_SRC_DEFAULT,
};
if (temperature_sensor_install(&temp_sensor_config, &temp_sensor) == ESP_OK) {
temperature_sensor_enable(temp_sensor);
initialized = true;
}
}
if (initialized && temp_sensor) {
float temp = 0;
if (temperature_sensor_get_celsius(temp_sensor, &temp) == ESP_OK) {
return temp;
}
}
return 0.0f;
}
#else
static inline float temperatureRead() { return 0.0f; }
#endif
namespace system_service {
@@ -22,12 +60,15 @@ esp_err_t handleSleep(httpd_req_t *request) {
void reset() {
ESP_LOGI(TAG, "Resetting device");
File root = ESP_FS.open(FS_CONFIG_DIRECTORY);
File file;
while (file = root.openNextFile()) {
std::string path = file.path();
file.close();
ESP_FS.remove(path.c_str());
DIR *dir = opendir(FS_CONFIG_DIRECTORY);
if (dir) {
struct dirent *entry;
while ((entry = readdir(dir)) != nullptr) {
if (strcmp(entry->d_name, ".") == 0 || strcmp(entry->d_name, "..") == 0) continue;
std::string path = std::string(FS_CONFIG_DIRECTORY) + "/" + entry->d_name;
remove(path.c_str());
}
closedir(dir);
}
restart();
}
@@ -37,11 +78,11 @@ void restart() {
[](void *pvParameters) {
for (;;) {
vTaskDelay(250 / portTICK_PERIOD_MS);
MDNS.end();
mdns_free();
vTaskDelay(100 / portTICK_PERIOD_MS);
WiFi.disconnect(true);
vTaskDelay(500 / portTICK_PERIOD_MS);
ESP.restart();
esp_restart();
}
},
"Restart task", 4096, nullptr, 10, nullptr);
@@ -52,7 +93,7 @@ void sleep() {
[](void *pvParameters) {
for (;;) {
vTaskDelay(250 / portTICK_PERIOD_MS);
MDNS.end();
mdns_free();
vTaskDelay(100 / portTICK_PERIOD_MS);
WiFi.disconnect(true);
vTaskDelay(500 / portTICK_PERIOD_MS);
@@ -72,22 +113,97 @@ void sleep() {
ESP_LOGI(TAG, "Setting device to sleep");
}
static const char *getChipModel() {
esp_chip_info_t chip_info;
esp_chip_info(&chip_info);
switch (chip_info.model) {
case CHIP_ESP32: return "ESP32";
case CHIP_ESP32S2: return "ESP32-S2";
case CHIP_ESP32S3: return "ESP32-S3";
case CHIP_ESP32C3: return "ESP32-C3";
case CHIP_ESP32C2: return "ESP32-C2";
case CHIP_ESP32C6: return "ESP32-C6";
case CHIP_ESP32H2: return "ESP32-H2";
default: return "Unknown";
}
}
static uint32_t getCpuFreqMHz() { return CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ; }
static uint8_t getChipCores() {
esp_chip_info_t chip_info;
esp_chip_info(&chip_info);
return chip_info.cores;
}
static uint8_t getChipRevision() {
esp_chip_info_t chip_info;
esp_chip_info(&chip_info);
return chip_info.revision;
}
static uint32_t getFlashChipSize() {
uint32_t size = 0;
esp_flash_get_size(NULL, &size);
return size;
}
static uint32_t getFlashChipSpeed() {
#if defined(CONFIG_ESPTOOLPY_FLASHFREQ_120M)
return 120000000;
#elif defined(CONFIG_ESPTOOLPY_FLASHFREQ_80M)
return 80000000;
#elif defined(CONFIG_ESPTOOLPY_FLASHFREQ_64M)
return 64000000;
#elif defined(CONFIG_ESPTOOLPY_FLASHFREQ_60M)
return 60000000;
#elif defined(CONFIG_ESPTOOLPY_FLASHFREQ_48M)
return 48000000;
#elif defined(CONFIG_ESPTOOLPY_FLASHFREQ_40M)
return 40000000;
#elif defined(CONFIG_ESPTOOLPY_FLASHFREQ_30M)
return 30000000;
#elif defined(CONFIG_ESPTOOLPY_FLASHFREQ_26M)
return 26000000;
#elif defined(CONFIG_ESPTOOLPY_FLASHFREQ_20M)
return 20000000;
#else
return 80000000;
#endif
}
static uint32_t getSketchSize() {
const esp_partition_t *running = esp_ota_get_running_partition();
if (running) {
return running->size;
}
return 0;
}
static uint32_t getFreeSketchSpace() {
const esp_partition_t *next = esp_ota_get_next_update_partition(NULL);
if (next) {
return next->size;
}
return 0;
}
void getStaticSystemInformation(socket_message_StaticSystemInformation &info) {
size_t fs_total = 0, fs_used = 0;
esp_littlefs_info("spiffs", &fs_total, &fs_used);
info.esp_platform = (char *)ESP_PLATFORM_NAME;
info.firmware_version = APP_VERSION;
info.cpu_freq_mhz = ESP.getCpuFreqMHz();
info.cpu_type = (char *)ESP.getChipModel();
info.cpu_rev = ESP.getChipRevision();
info.cpu_cores = ESP.getChipCores();
info.sketch_size = ESP.getSketchSize();
info.free_sketch_space = ESP.getFreeSketchSpace();
info.sdk_version = (char *)ESP.getSdkVersion();
info.arduino_version = ARDUINO_VERSION;
info.flash_chip_size = ESP.getFlashChipSize();
info.flash_chip_speed = ESP.getFlashChipSpeed();
info.cpu_freq_mhz = getCpuFreqMHz();
info.cpu_type = (char *)getChipModel();
info.cpu_rev = getChipRevision();
info.cpu_cores = getChipCores();
info.sketch_size = getSketchSize();
info.free_sketch_space = getFreeSketchSpace();
info.sdk_version = (char *)esp_get_idf_version();
info.arduino_version = "";
info.flash_chip_size = getFlashChipSize();
info.flash_chip_speed = getFlashChipSpeed();
info.cpu_reset_reason = (char *)resetReason(esp_reset_reason());
}
esp32/src/wifi/wifi_idf.cpp
+571
View File
@@ -0,0 +1,571 @@
#include <wifi/wifi_idf.h>
static const char* TAG = "WiFiIDF";
WiFiClass WiFi;
WiFiClass::WiFiClass()
: _sta_netif(nullptr),
_ap_netif(nullptr),
_initialized(false),
_autoReconnect(false),
_persistent(false),
_status(WL_DISCONNECTED),
_mode(WIFI_MODE_NULL),
_scanResult(nullptr),
_scanCount(0),
_scanStatus(-2),
_useStaticIp(false) {}
WiFiClass::~WiFiClass() {
if (_scanResult) {
free(_scanResult);
_scanResult = nullptr;
}
}
bool WiFiClass::init() {
if (_initialized) return true;
esp_err_t ret = nvs_flash_init();
if (ret == ESP_ERR_NVS_NO_FREE_PAGES || ret == ESP_ERR_NVS_NEW_VERSION_FOUND) {
nvs_flash_erase();
ret = nvs_flash_init();
}
ret = esp_netif_init();
if (ret != ESP_OK && ret != ESP_ERR_INVALID_STATE) {
ESP_LOGE(TAG, "esp_netif_init failed: %s", esp_err_to_name(ret));
}
ret = esp_event_loop_create_default();
if (ret != ESP_OK && ret != ESP_ERR_INVALID_STATE) {
ESP_LOGE(TAG, "Event loop create failed: %s", esp_err_to_name(ret));
}
_sta_netif = esp_netif_get_handle_from_ifkey("WIFI_STA_DEF");
if (!_sta_netif) {
_sta_netif = esp_netif_create_default_wifi_sta();
}
_ap_netif = esp_netif_get_handle_from_ifkey("WIFI_AP_DEF");
if (!_ap_netif) {
_ap_netif = esp_netif_create_default_wifi_ap();
}
wifi_init_config_t cfg = WIFI_INIT_CONFIG_DEFAULT();
ret = esp_wifi_init(&cfg);
if (ret != ESP_OK && ret != ESP_ERR_INVALID_STATE) {
ESP_LOGE(TAG, "esp_wifi_init failed: %s", esp_err_to_name(ret));
return false;
}
esp_event_handler_instance_register(WIFI_EVENT, ESP_EVENT_ANY_ID, &WiFiClass::eventHandler, this, nullptr);
esp_event_handler_instance_register(IP_EVENT, ESP_EVENT_ANY_ID, &WiFiClass::eventHandler, this, nullptr);
esp_wifi_set_storage(_persistent ? WIFI_STORAGE_FLASH : WIFI_STORAGE_RAM);
_initialized = true;
return true;
}
void WiFiClass::eventHandler(void* arg, esp_event_base_t event_base, int32_t event_id, void* event_data) {
WiFiClass* self = static_cast<WiFiClass*>(arg);
if (event_base == WIFI_EVENT) {
switch (event_id) {
case WIFI_EVENT_STA_START: ESP_LOGI(TAG, "STA Started"); break;
case WIFI_EVENT_STA_STOP:
ESP_LOGI(TAG, "STA Stopped");
self->_status = WL_DISCONNECTED;
break;
case WIFI_EVENT_STA_CONNECTED: ESP_LOGI(TAG, "STA Connected"); break;
case WIFI_EVENT_STA_DISCONNECTED: {
wifi_event_sta_disconnected_t* event = (wifi_event_sta_disconnected_t*)event_data;
ESP_LOGI(TAG, "STA Disconnected, reason: %d", event->reason);
self->_status = WL_DISCONNECTED;
if (self->_autoReconnect) {
esp_wifi_connect();
}
break;
}
case WIFI_EVENT_AP_START: ESP_LOGI(TAG, "AP Started"); break;
case WIFI_EVENT_AP_STOP: ESP_LOGI(TAG, "AP Stopped"); break;
case WIFI_EVENT_AP_STACONNECTED: {
wifi_event_ap_staconnected_t* event = (wifi_event_ap_staconnected_t*)event_data;
ESP_LOGI(TAG, "Station connected, AID=%d", event->aid);
break;
}
case WIFI_EVENT_AP_STADISCONNECTED: {
wifi_event_ap_stadisconnected_t* event = (wifi_event_ap_stadisconnected_t*)event_data;
ESP_LOGI(TAG, "Station disconnected, AID=%d", event->aid);
break;
}
case WIFI_EVENT_SCAN_DONE: {
wifi_event_sta_scan_done_t* event = (wifi_event_sta_scan_done_t*)event_data;
if (event->status == 0) {
self->_scanCount = event->number;
if (self->_scanResult) {
free(self->_scanResult);
}
self->_scanResult = (wifi_ap_record_t*)malloc(sizeof(wifi_ap_record_t) * self->_scanCount);
if (self->_scanResult) {
esp_wifi_scan_get_ap_records(&self->_scanCount, self->_scanResult);
}
self->_scanStatus = self->_scanCount;
} else {
self->_scanStatus = -2;
}
break;
}
}
self->dispatchEvent(event_id, event_data);
} else if (event_base == IP_EVENT) {
if (event_id == IP_EVENT_STA_GOT_IP) {
ip_event_got_ip_t* event = (ip_event_got_ip_t*)event_data;
ESP_LOGI(TAG, "Got IP: " IPSTR, IP2STR(&event->ip_info.ip));
self->_status = WL_CONNECTED;
self->dispatchEvent(event_id + 1000, event_data);
} else if (event_id == IP_EVENT_STA_LOST_IP) {
ESP_LOGI(TAG, "Lost IP");
self->_status = WL_DISCONNECTED;
self->dispatchEvent(event_id + 1000, event_data);
}
}
}
void WiFiClass::dispatchEvent(int32_t event_id, void* event_data) {
for (auto& handler : _eventHandlers) {
if (handler.event_id == event_id || handler.event_id == -1) {
handler.callback(event_id, event_data);
}
}
}
void WiFiClass::onEvent(WiFiEventCb callback, int32_t event_id) { _eventHandlers.push_back({event_id, callback}); }
bool WiFiClass::mode(wifi_mode_t m) {
if (!_initialized) init();
if (_mode == m) return true;
esp_err_t err;
if (_mode == WIFI_MODE_NULL) {
err = esp_wifi_set_mode(m);
if (err == ESP_OK) {
err = esp_wifi_start();
}
} else if (m == WIFI_MODE_NULL) {
err = esp_wifi_stop();
} else {
err = esp_wifi_set_mode(m);
}
if (err == ESP_OK) {
_mode = m;
return true;
}
ESP_LOGE(TAG, "Failed to set mode: %s", esp_err_to_name(err));
return false;
}
wifi_mode_t WiFiClass::getMode() {
if (!_initialized) return WIFI_MODE_NULL;
wifi_mode_t m;
if (esp_wifi_get_mode(&m) == ESP_OK) {
return m;
}
return WIFI_MODE_NULL;
}
bool WiFiClass::begin(const char* ssid, const char* password, int32_t channel, const uint8_t* bssid) {
if (!_initialized) init();
wifi_mode_t currentMode = getMode();
if (currentMode == WIFI_MODE_NULL || currentMode == WIFI_MODE_AP) {
mode(currentMode == WIFI_MODE_AP ? WIFI_MODE_APSTA : WIFI_MODE_STA);
vTaskDelay(500 / portTICK_PERIOD_MS);
}
wifi_config_t wifi_config = {};
strncpy((char*)wifi_config.sta.ssid, ssid, sizeof(wifi_config.sta.ssid) - 1);
if (password) {
strncpy((char*)wifi_config.sta.password, password, sizeof(wifi_config.sta.password) - 1);
}
if (channel > 0) {
wifi_config.sta.channel = channel;
}
if (bssid) {
memcpy(wifi_config.sta.bssid, bssid, 6);
wifi_config.sta.bssid_set = true;
}
wifi_config.sta.scan_method = WIFI_ALL_CHANNEL_SCAN;
wifi_config.sta.sort_method = WIFI_CONNECT_AP_BY_SIGNAL;
wifi_config.sta.threshold.authmode = password && strlen(password) > 0 ? WIFI_AUTH_WPA2_PSK : WIFI_AUTH_OPEN;
esp_err_t err = esp_wifi_set_config(WIFI_IF_STA, &wifi_config);
if (err != ESP_OK) {
ESP_LOGE(TAG, "Failed to set STA config: %s", esp_err_to_name(err));
return false;
}
if (_useStaticIp) {
esp_netif_dhcpc_stop(_sta_netif);
esp_netif_ip_info_t ip_info = {};
ip_info.ip = _sta_static_ip;
ip_info.gw = _sta_static_gw;
ip_info.netmask = _sta_static_sn;
esp_netif_set_ip_info(_sta_netif, &ip_info);
if (static_cast<uint32_t>(_sta_static_dns1) != 0) {
esp_netif_dns_info_t dns;
dns.ip.u_addr.ip4 = _sta_static_dns1;
dns.ip.type = ESP_IPADDR_TYPE_V4;
esp_netif_set_dns_info(_sta_netif, ESP_NETIF_DNS_MAIN, &dns);
}
if (static_cast<uint32_t>(_sta_static_dns2) != 0) {
esp_netif_dns_info_t dns;
dns.ip.u_addr.ip4 = _sta_static_dns2;
dns.ip.type = ESP_IPADDR_TYPE_V4;
esp_netif_set_dns_info(_sta_netif, ESP_NETIF_DNS_BACKUP, &dns);
}
} else {
esp_netif_dhcpc_start(_sta_netif);
}
err = esp_wifi_connect();
if (err != ESP_OK) {
ESP_LOGE(TAG, "Failed to connect: %s", esp_err_to_name(err));
return false;
}
return true;
}
bool WiFiClass::disconnect(bool wifiOff) {
esp_err_t err = esp_wifi_disconnect();
if (wifiOff) {
wifi_mode_t m = getMode();
if (m == WIFI_MODE_APSTA) {
mode(WIFI_MODE_AP);
} else if (m == WIFI_MODE_STA) {
mode(WIFI_MODE_NULL);
}
}
_status = WL_DISCONNECTED;
return err == ESP_OK;
}
bool WiFiClass::reconnect() { return esp_wifi_connect() == ESP_OK; }
bool WiFiClass::config(IPAddress local_ip, IPAddress gateway, IPAddress subnet, IPAddress dns1, IPAddress dns2) {
_sta_static_ip = local_ip;
_sta_static_gw = gateway;
_sta_static_sn = subnet;
_sta_static_dns1 = dns1;
_sta_static_dns2 = dns2;
_useStaticIp = (static_cast<uint32_t>(local_ip) != 0);
return true;
}
bool WiFiClass::setHostname(const char* hostname) {
_hostname = hostname;
if (_sta_netif) {
return esp_netif_set_hostname(_sta_netif, hostname) == ESP_OK;
}
return true;
}
const char* WiFiClass::getHostname() {
const char* hostname = nullptr;
if (_sta_netif) {
esp_netif_get_hostname(_sta_netif, &hostname);
}
return hostname ? hostname : _hostname.c_str();
}
wl_status_t WiFiClass::status() { return _status; }
bool WiFiClass::isConnected() { return _status == WL_CONNECTED; }
IPAddress WiFiClass::localIP() {
esp_netif_ip_info_t ip_info;
if (_sta_netif && esp_netif_get_ip_info(_sta_netif, &ip_info) == ESP_OK) {
return IPAddress(ip_info.ip);
}
return IPAddress();
}
IPAddress WiFiClass::subnetMask() {
esp_netif_ip_info_t ip_info;
if (_sta_netif && esp_netif_get_ip_info(_sta_netif, &ip_info) == ESP_OK) {
return IPAddress(ip_info.netmask);
}
return IPAddress();
}
IPAddress WiFiClass::gatewayIP() {
esp_netif_ip_info_t ip_info;
if (_sta_netif && esp_netif_get_ip_info(_sta_netif, &ip_info) == ESP_OK) {
return IPAddress(ip_info.gw);
}
return IPAddress();
}
IPAddress WiFiClass::dnsIP(uint8_t dns_no) {
esp_netif_dns_info_t dns;
esp_netif_dns_type_t type = dns_no == 0 ? ESP_NETIF_DNS_MAIN : ESP_NETIF_DNS_BACKUP;
if (_sta_netif && esp_netif_get_dns_info(_sta_netif, type, &dns) == ESP_OK) {
return IPAddress(dns.ip.u_addr.ip4);
}
return IPAddress();
}
std::string WiFiClass::macAddress() {
uint8_t mac[6];
char buf[18];
esp_wifi_get_mac(WIFI_IF_STA, mac);
snprintf(buf, sizeof(buf), "%02X:%02X:%02X:%02X:%02X:%02X", mac[0], mac[1], mac[2], mac[3], mac[4], mac[5]);
return std::string(buf);
}
std::string WiFiClass::SSID() {
wifi_ap_record_t info;
if (esp_wifi_sta_get_ap_info(&info) == ESP_OK) {
return std::string((char*)info.ssid);
}
return "";
}
std::string WiFiClass::BSSIDstr() {
wifi_ap_record_t info;
if (esp_wifi_sta_get_ap_info(&info) == ESP_OK) {
char buf[18];
snprintf(buf, sizeof(buf), "%02X:%02X:%02X:%02X:%02X:%02X", info.bssid[0], info.bssid[1], info.bssid[2],
info.bssid[3], info.bssid[4], info.bssid[5]);
return std::string(buf);
}
return "";
}
int32_t WiFiClass::RSSI() {
wifi_ap_record_t info;
if (esp_wifi_sta_get_ap_info(&info) == ESP_OK) {
return info.rssi;
}
return 0;
}
uint8_t WiFiClass::channel() {
wifi_ap_record_t info;
if (esp_wifi_sta_get_ap_info(&info) == ESP_OK) {
return info.primary;
}
return 0;
}
int16_t WiFiClass::scanNetworks(bool async) {
if (!_initialized) init();
wifi_mode_t currentMode = getMode();
if (currentMode == WIFI_MODE_NULL || currentMode == WIFI_MODE_AP) {
mode(currentMode == WIFI_MODE_AP ? WIFI_MODE_APSTA : WIFI_MODE_STA);
vTaskDelay(500 / portTICK_PERIOD_MS);
}
_scanStatus = -1;
wifi_scan_config_t scan_config = {};
scan_config.show_hidden = true;
esp_err_t err = esp_wifi_scan_start(&scan_config, !async);
if (err != ESP_OK) {
ESP_LOGE(TAG, "Scan start failed: %s", esp_err_to_name(err));
_scanStatus = -2;
return -2;
}
if (!async) {
if (_scanResult) {
free(_scanResult);
_scanResult = nullptr;
}
esp_wifi_scan_get_ap_num(&_scanCount);
_scanResult = (wifi_ap_record_t*)malloc(sizeof(wifi_ap_record_t) * _scanCount);
if (_scanResult) {
esp_wifi_scan_get_ap_records(&_scanCount, _scanResult);
}
_scanStatus = _scanCount;
return _scanCount;
}
return -1;
}
int16_t WiFiClass::scanComplete() { return _scanStatus; }
void WiFiClass::scanDelete() {
if (_scanResult) {
free(_scanResult);
_scanResult = nullptr;
}
_scanCount = 0;
_scanStatus = -2;
}
std::string WiFiClass::SSID(uint8_t i) {
if (i < _scanCount && _scanResult) {
return std::string((char*)_scanResult[i].ssid);
}
return "";
}
int32_t WiFiClass::RSSI(uint8_t i) {
if (i < _scanCount && _scanResult) {
return _scanResult[i].rssi;
}
return 0;
}
wifi_enc_type_t WiFiClass::encryptionType(uint8_t i) {
if (i < _scanCount && _scanResult) {
switch (_scanResult[i].authmode) {
case WIFI_AUTH_OPEN: return WIFI_AUTH_OPEN_IDF;
case WIFI_AUTH_WEP: return WIFI_AUTH_WEP_IDF;
case WIFI_AUTH_WPA_PSK: return WIFI_AUTH_WPA_PSK_IDF;
default: return WIFI_AUTH_WPA2_PSK_IDF;
}
}
return WIFI_AUTH_OPEN_IDF;
}
std::string WiFiClass::BSSIDstr(uint8_t i) {
if (i < _scanCount && _scanResult) {
char buf[18];
snprintf(buf, sizeof(buf), "%02X:%02X:%02X:%02X:%02X:%02X", _scanResult[i].bssid[0], _scanResult[i].bssid[1],
_scanResult[i].bssid[2], _scanResult[i].bssid[3], _scanResult[i].bssid[4], _scanResult[i].bssid[5]);
return std::string(buf);
}
return "";
}
int32_t WiFiClass::channel(uint8_t i) {
if (i < _scanCount && _scanResult) {
return _scanResult[i].primary;
}
return 0;
}
void WiFiClass::getNetworkInfo(uint8_t i, std::string& ssid, uint8_t& encType, int32_t& rssi, uint8_t*& bssid,
int32_t& ch) {
if (i < _scanCount && _scanResult) {
ssid = std::string((char*)_scanResult[i].ssid);
encType = static_cast<uint8_t>(encryptionType(i));
rssi = _scanResult[i].rssi;
bssid = _scanResult[i].bssid;
ch = _scanResult[i].primary;
}
}
bool WiFiClass::softAP(const char* ssid, const char* password, int channel, bool ssid_hidden, int max_connection) {
if (!_initialized) init();
wifi_mode_t currentMode = getMode();
if (currentMode == WIFI_MODE_NULL || currentMode == WIFI_MODE_STA) {
mode(currentMode == WIFI_MODE_STA ? WIFI_MODE_APSTA : WIFI_MODE_AP);
}
wifi_config_t wifi_config = {};
strncpy((char*)wifi_config.ap.ssid, ssid, sizeof(wifi_config.ap.ssid) - 1);
wifi_config.ap.ssid_len = strlen(ssid);
wifi_config.ap.channel = channel;
wifi_config.ap.ssid_hidden = ssid_hidden ? 1 : 0;
wifi_config.ap.max_connection = max_connection;
if (password && strlen(password) > 0) {
strncpy((char*)wifi_config.ap.password, password, sizeof(wifi_config.ap.password) - 1);
wifi_config.ap.authmode = WIFI_AUTH_WPA2_PSK;
} else {
wifi_config.ap.authmode = WIFI_AUTH_OPEN;
}
esp_err_t err = esp_wifi_set_config(WIFI_IF_AP, &wifi_config);
if (err != ESP_OK) {
ESP_LOGE(TAG, "Failed to set AP config: %s", esp_err_to_name(err));
return false;
}
return true;
}
bool WiFiClass::softAPConfig(IPAddress local_ip, IPAddress gateway, IPAddress subnet) {
if (!_ap_netif) return false;
esp_netif_dhcps_stop(_ap_netif);
esp_netif_ip_info_t ip_info = {};
ip_info.ip = local_ip;
ip_info.gw = gateway;
ip_info.netmask = subnet;
esp_err_t err = esp_netif_set_ip_info(_ap_netif, &ip_info);
if (err != ESP_OK) {
ESP_LOGE(TAG, "Failed to set AP IP info: %s", esp_err_to_name(err));
return false;
}
esp_netif_dhcps_start(_ap_netif);
return true;
}
bool WiFiClass::softAPdisconnect(bool wifiOff) {
wifi_mode_t m = getMode();
if (wifiOff) {
if (m == WIFI_MODE_APSTA) {
return mode(WIFI_MODE_STA);
} else if (m == WIFI_MODE_AP) {
return mode(WIFI_MODE_NULL);
}
}
return true;
}
IPAddress WiFiClass::softAPIP() {
esp_netif_ip_info_t ip_info;
if (_ap_netif && esp_netif_get_ip_info(_ap_netif, &ip_info) == ESP_OK) {
return IPAddress(ip_info.ip);
}
return IPAddress();
}
std::string WiFiClass::softAPmacAddress() {
uint8_t mac[6];
char buf[18];
esp_wifi_get_mac(WIFI_IF_AP, mac);
snprintf(buf, sizeof(buf), "%02X:%02X:%02X:%02X:%02X:%02X", mac[0], mac[1], mac[2], mac[3], mac[4], mac[5]);
return std::string(buf);
}
uint8_t WiFiClass::softAPgetStationNum() {
wifi_sta_list_t sta_list;
if (esp_wifi_ap_get_sta_list(&sta_list) == ESP_OK) {
return sta_list.num;
}
return 0;
}
bool WiFiClass::setAutoReconnect(bool autoReconnect) {
_autoReconnect = autoReconnect;
return true;
}
bool WiFiClass::persistent(bool persistent) {
_persistent = persistent;
if (_initialized) {
return esp_wifi_set_storage(persistent ? WIFI_STORAGE_FLASH : WIFI_STORAGE_RAM) == ESP_OK;
}
return true;
}
bool WiFiClass::setTxPower(int8_t power) { return esp_wifi_set_max_tx_power(power * 4) == ESP_OK; }
esp32/src/wifi_service.cpp
+87 -100
View File
@@ -1,45 +1,72 @@
#include <wifi_service.h>
#include <communication/webserver.h>
WiFiService::WiFiService()
: _persistence(WiFiSettings_read, WiFiSettings_update, this, WIFI_SETTINGS_FILE,
api_WifiSettings_fields, api_WifiSettings_size, WiFiSettings_defaults()),
protoEndpoint(WiFiSettings_read, WiFiSettings_update, this,
API_REQUEST_EXTRACTOR(wifi_settings, api_WifiSettings),
API_RESPONSE_ASSIGNER(wifi_settings, api_WifiSettings)) {
addUpdateHandler([&](const std::string &originId) { reconfigureWiFiConnection(); }, false);
}
WiFiService::WiFiService() : _initialized(false), _lastConnectionAttempt(0), _stopping(false) {}
WiFiService::~WiFiService() {}
void WiFiService::begin() {
WiFi.mode(WIFI_MODE_STA);
WiFi.persistent(false);
WiFi.setAutoReconnect(false);
WiFi.onEvent(std::bind(&WiFiService::onStationModeDisconnected, this, std::placeholders::_1, std::placeholders::_2),
WiFiEvent_t::ARDUINO_EVENT_WIFI_STA_DISCONNECTED);
WiFi.onEvent(std::bind(&WiFiService::onStationModeStop, this, std::placeholders::_1, std::placeholders::_2),
WiFiEvent_t::ARDUINO_EVENT_WIFI_STA_STOP);
WiFi.onEvent([this](int32_t event, void *data) { this->onStationModeDisconnected(event, data); },
WIFI_EVENT_STA_DISCONNECTED);
WiFi.onEvent([this](int32_t event, void *data) { this->onStationModeStop(event, data); }, WIFI_EVENT_STA_STOP);
WiFi.onEvent(onStationModeGotIP, IP_EVENT_STA_GOT_IP_IDF);
WiFi.onEvent(onStationModeGotIP, WiFiEvent_t::ARDUINO_EVENT_WIFI_STA_GOT_IP);
_settingsHandle = EventBus::subscribe<api_WifiSettings>(
[this](const api_WifiSettings &settings) { onSettingsChanged(settings); });
_persistence.readFromFS();
reconfigureWiFiConnection();
api_WifiSettings initialSettings;
if (EventBus::peek(initialSettings)) {
ESP_LOGI(TAG, "Applying initial WiFi settings from storage");
onSettingsChanged(initialSettings);
} else {
ESP_LOGW(TAG, "No WiFi settings found, using defaults");
}
}
if (state().wifi_networks_count == 1) {
configureNetwork(state().wifi_networks[0]);
vTaskDelay(500 / portTICK_PERIOD_MS);
void WiFiService::onSettingsChanged(const api_WifiSettings &newSettings) {
api_WifiSettings oldSettings = getSettings();
bool needsReconnect = _initialized && (strcmp(oldSettings.hostname, newSettings.hostname) != 0 ||
oldSettings.selected_network != newSettings.selected_network ||
oldSettings.wifi_networks_count != newSettings.wifi_networks_count);
if (!_initialized) {
_initialized = true;
_lastConnectionAttempt = 0;
ESP_LOGI(TAG, "Initializing WiFi with loaded settings");
if (newSettings.wifi_networks_count >= 1) {
WiFi.mode(WIFI_MODE_STA);
vTaskDelay(100 / portTICK_PERIOD_MS);
uint32_t idx = newSettings.selected_network;
if (idx >= newSettings.wifi_networks_count) idx = 0;
configureNetwork(newSettings.wifi_networks[idx]);
}
} else if (needsReconnect) {
ESP_LOGI(TAG, "Settings changed, reconnecting");
reconfigureWiFiConnection();
}
}
void WiFiService::reconfigureWiFiConnection() {
_lastConnectionAttempt = 0;
if (WiFi.disconnect(true)) _stopping = true;
}
void WiFiService::selectNetwork(uint32_t index) {
api_WifiSettings settings = getSettings();
if (index >= settings.wifi_networks_count) return;
settings.selected_network = index;
EventBus::publish(settings, "WiFiService");
reconfigureWiFiConnection();
}
void WiFiService::loop() { EXECUTE_EVERY_N_MS(reconnectDelay, manageSTA()); }
esp_err_t WiFiService::handleScan(httpd_req_t *request) {
@@ -47,7 +74,6 @@ esp_err_t WiFiService::handleScan(httpd_req_t *request) {
WiFi.scanDelete();
WiFi.scanNetworks(true);
}
// Return 202 with empty_message payload (no pointer fields to encode)
api_Response response = api_Response_init_zero;
response.status_code = 202;
response.which_payload = api_Response_empty_message_tag;
@@ -57,7 +83,6 @@ esp_err_t WiFiService::handleScan(httpd_req_t *request) {
esp_err_t WiFiService::getNetworks(httpd_req_t *request) {
int numNetworks = WiFi.scanComplete();
if (numNetworks == -1) {
// Scan in progress - return 202 with empty_message payload
api_Response response = api_Response_init_zero;
response.status_code = 202;
response.which_payload = api_Response_empty_message_tag;
@@ -66,10 +91,8 @@ esp_err_t WiFiService::getNetworks(httpd_req_t *request) {
return handleScan(request);
}
// Limit to 20 networks max
size_t count = (numNetworks > 20) ? 20 : static_cast<size_t>(numNetworks);
// Allocate networks array on stack (pointer type in proto)
api_WifiNetworkScan networks[20] = {};
for (size_t i = 0; i < count; i++) {
@@ -90,11 +113,14 @@ esp_err_t WiFiService::getNetworks(httpd_req_t *request) {
}
void WiFiService::setupMDNS(const char *hostname) {
MDNS.begin(state().hostname);
MDNS.setInstanceName(hostname);
MDNS.addService("http", "tcp", 80);
MDNS.addService("ws", "tcp", 80);
MDNS.addServiceTxt("http", "tcp", "Firmware Version", APP_VERSION);
mdns_init();
api_WifiSettings settings = getSettings();
mdns_hostname_set(settings.hostname);
mdns_instance_name_set(hostname);
mdns_service_add(nullptr, "_http", "_tcp", 80, nullptr, 0);
mdns_service_add(nullptr, "_ws", "_tcp", 80, nullptr, 0);
mdns_txt_item_t txtData = {"Firmware Version", APP_VERSION};
mdns_service_txt_set("_http", "_tcp", &txtData, 1);
}
esp_err_t WiFiService::getNetworkStatus(httpd_req_t *request) {
@@ -114,7 +140,6 @@ esp_err_t WiFiService::getNetworkStatus(httpd_req_t *request) {
wifiStatus.channel = WiFi.channel();
wifiStatus.subnet_mask = static_cast<uint32_t>(WiFi.subnetMask());
wifiStatus.gateway_ip = static_cast<uint32_t>(WiFi.gatewayIP());
IPAddress dnsIP1 = WiFi.dnsIP(0);
IPAddress dnsIP2 = WiFi.dnsIP(1);
if (dnsIP1 != IPAddress(0, 0, 0, 0)) {
@@ -129,99 +154,61 @@ esp_err_t WiFiService::getNetworkStatus(httpd_req_t *request) {
}
void WiFiService::manageSTA() {
if (WiFi.isConnected() || state().wifi_networks_count == 0) return;
if ((WiFi.getMode() & WIFI_STA) == 0) connectToWiFi();
}
api_WifiSettings settings = getSettings();
if (WiFi.isConnected() || settings.wifi_networks_count == 0) return;
wifi_mode_t mode = WiFi.getMode();
if (mode == WIFI_MODE_NULL || mode == WIFI_MODE_AP) return;
void WiFiService::connectToWiFi() {
int scanResult = WiFi.scanNetworks();
if (scanResult == WIFI_SCAN_FAILED) {
ESP_LOGE("WiFiSettingsService", "WiFi scan failed.");
} else if (scanResult == 0) {
ESP_LOGI("WiFiSettingsService", "No networks found.");
} else {
ESP_LOGI("WiFiSettingsService", "%d networks found.", scanResult);
static uint32_t startTime = 0;
static bool attempted = false;
WiFiNetwork *bestNetwork = nullptr;
int32_t bestNetworkDb = FACTORY_WIFI_RSSI_THRESHOLD;
if (startTime == 0) {
startTime = esp_timer_get_time() / 1000;
return;
}
for (int i = 0; i < scanResult; ++i) {
String ssid_scan;
int32_t rssi_scan;
uint8_t sec_scan;
uint8_t *BSSID_scan;
int32_t chan_scan;
uint32_t now = esp_timer_get_time() / 1000;
if (now - startTime < 3000) return;
WiFi.getNetworkInfo(i, ssid_scan, sec_scan, rssi_scan, BSSID_scan, chan_scan);
for (pb_size_t j = 0; j < state().wifi_networks_count; j++) {
WiFiNetwork &network = state().wifi_networks[j];
if (ssid_scan == network.ssid) {
if (rssi_scan >= FACTORY_WIFI_RSSI_THRESHOLD) {
// Network is available
}
if (rssi_scan > bestNetworkDb) {
bestNetworkDb = rssi_scan;
bestNetwork = &network;
}
}
}
}
if (!state().priority_rssi) {
for (pb_size_t j = 0; j < state().wifi_networks_count; j++) {
WiFiNetwork &network = state().wifi_networks[j];
// Check if this network was found in scan
for (int i = 0; i < scanResult; ++i) {
if (WiFi.SSID(i) == network.ssid) {
ESP_LOGI("WiFiSettingsService", "Connecting to first available network: %s", network.ssid);
configureNetwork(network);
WiFi.scanDelete();
return;
}
}
}
} else if (bestNetwork) {
ESP_LOGI("WiFiSettingsService", "Connecting to strongest network: %s", bestNetwork->ssid);
configureNetwork(*bestNetwork);
} else {
ESP_LOGI("WiFiSettingsService", "No known networks found.");
}
WiFi.scanDelete();
if (!attempted && settings.wifi_networks_count > 0) {
attempted = true;
uint32_t idx = settings.selected_network;
if (idx >= settings.wifi_networks_count) idx = 0;
ESP_LOGI(TAG, "Connecting to: %s", settings.wifi_networks[idx].ssid);
configureNetwork(settings.wifi_networks[idx]);
}
}
void WiFiService::configureNetwork(WiFiNetwork &network) {
void WiFiService::configureNetwork(const WiFiNetwork &network) {
if (network.static_ip_config) {
WiFi.config(IPAddress(network.local_ip), IPAddress(network.gateway_ip),
IPAddress(network.subnet_mask), IPAddress(network.dns_ip_1), IPAddress(network.dns_ip_2));
WiFi.config(IPAddress(network.local_ip), IPAddress(network.gateway_ip), IPAddress(network.subnet_mask),
IPAddress(network.dns_ip_1), IPAddress(network.dns_ip_2));
} else {
WiFi.config(IPAddress(0, 0, 0, 0), IPAddress(0, 0, 0, 0), IPAddress(0, 0, 0, 0));
}
WiFi.setHostname(state().hostname);
api_WifiSettings settings = getSettings();
WiFi.setHostname(settings.hostname);
WiFi.begin(network.ssid, network.password);
#if CONFIG_IDF_TARGET_ESP32C3
WiFi.setTxPower(WIFI_POWER_8_5dBm);
WiFi.setTxPower(8);
#endif
}
void WiFiService::onStationModeDisconnected(WiFiEvent_t event, WiFiEventInfo_t info) {
void WiFiService::onStationModeDisconnected(int32_t event, void *event_data) {
WiFi.disconnect(true);
ESP_LOGI("WiFiStatus", "WiFi Disconnected. Reason code=%d", info.wifi_sta_disconnected.reason);
wifi_event_sta_disconnected_t *info = static_cast<wifi_event_sta_disconnected_t *>(event_data);
ESP_LOGI(TAG, "WiFi Disconnected. Reason code=%d", info ? info->reason : 0);
}
void WiFiService::onStationModeStop(WiFiEvent_t event, WiFiEventInfo_t info) {
void WiFiService::onStationModeStop(int32_t event, void *event_data) {
if (_stopping) {
_lastConnectionAttempt = 0;
_stopping = false;
}
ESP_LOGI("WiFiStatus", "WiFi Connected.");
ESP_LOGI(TAG, "WiFi STA stopped.");
}
void WiFiService::onStationModeGotIP(WiFiEvent_t event, WiFiEventInfo_t info) {
ESP_LOGI("WiFiStatus", "WiFi Got IP. localIP=%s, hostName=%s", WiFi.localIP().toString().c_str(),
WiFi.getHostname());
void WiFiService::onStationModeGotIP(int32_t event, void *event_data) {
ESP_LOGI(TAG, "WiFi Got IP. localIP=%s, hostName=%s", WiFi.localIP().toString().c_str(), WiFi.getHostname());
}
esp32/src/www_mount.cpp
+25 -2
View File
@@ -1,4 +1,14 @@
#include "www_mount.hpp"
#include <cstring>
static const WebAsset* findAsset(const char* uri) {
for (size_t i = 0; i < WWW_ASSETS_COUNT; i++) {
if (strcmp(WWW_ASSETS[i].uri, uri) == 0) {
return &WWW_ASSETS[i];
}
}
return nullptr;
}
static esp_err_t web_send(httpd_req_t* req, const WebAsset& asset) {
httpd_resp_set_status(req, "200 OK");
@@ -7,11 +17,11 @@ static esp_err_t web_send(httpd_req_t* req, const WebAsset& asset) {
if (WWW_OPT.add_vary) httpd_resp_set_hdr(req, "Vary", "Accept-Encoding");
char cc[64];
snprintf(cc, sizeof(cc), "public, immutable, max-age=%u", WWW_OPT.max_age);
snprintf(cc, sizeof(cc), "public, immutable, max-age=%lu", (unsigned long)WWW_OPT.max_age);
httpd_resp_set_hdr(req, "Cache-Control", cc);
char et[34];
snprintf(et, sizeof(et), "\"%08x\"", asset.etag);
snprintf(et, sizeof(et), "\"%08lx\"", (unsigned long)asset.etag);
httpd_resp_set_hdr(req, "ETag", et);
return httpd_resp_send(req, (const char*)asset.data, asset.len);
@@ -23,3 +33,16 @@ void mountStaticAssets(WebServer& server) {
server.on(a->uri, HTTP_GET, [a](httpd_req_t* req) { return web_send(req, *a); });
}
}
void mountSpaFallback(WebServer& server) {
const WebAsset* indexAsset = findAsset(WWW_OPT.default_uri);
if (indexAsset) {
server.on("/*", HTTP_GET, [indexAsset](httpd_req_t* req) {
if (strncmp(req->uri, "/api/", 5) == 0) {
httpd_resp_send_err(req, HTTPD_404_NOT_FOUND, "Not found");
return ESP_FAIL;
}
return web_send(req, *indexAsset);
});
}
}
platform_shared/api.proto
+1
View File
@@ -82,6 +82,7 @@ message WifiSettings {
string hostname = 1;
bool priority_rssi = 2;
repeated WifiNetwork wifi_networks = 3; // max 5 networks
uint32 selected_network = 4;
}
message WifiSettingsRequest {}
platformio.ini
+14 -22
View File
@@ -40,14 +40,13 @@ build_flags=
[env:esp32-wroom-camera]
board = esp32-s3-devkitc-1
board_build.arduino.memory_type = qio_opi
board_build.flash_mode = qio
board_upload.flash_size = 8MB
upload_speed = 921600
board_build.partitions = esp32/partition_table/default_8MB.csv
build_flags =
${env.build_flags}
-DBOARD_HAS_PSRAM
-mfix-esp32-psram-cache-issue
-D USE_CAMERA=1
-D CAMERA_MODEL_ESP32S3_EYE=1
-D WS2812_PIN=48
@@ -55,10 +54,6 @@ build_flags =
-D USS_RIGHT_PIN=14
-D SDA_PIN=47
-D SCL_PIN=21
-D SPI_SCK=41
-D SPI_MISO=19
-D SPI_MOSI=20
-D ICM20948_SPI_CS=2 # Only needed if ICM20948 is in SPI mode
[env:seeed-xiao-esp32s3]
platform = espressif32
@@ -84,17 +79,15 @@ build_flags =
[env]
platform = espressif32 @ 6.8.1
framework = arduino
framework = espidf
monitor_speed = 115200
monitor_filters =
esp32_exception_decoder
default
colorize
monitor_filters =
direct
esp32_exception_decoder
build_flags =
${factory_settings.build_flags}
${features.build_flags}
${build_settings.build_flags}
-D SPI_PORT=SPI # Define which spi port to use for external components
-D CORE_DEBUG_LEVEL=4
-D register=
-std=gnu++2a
@@ -103,26 +96,25 @@ build_flags =
-fdata-sections
-Wl,--gc-sections
-I submodules/nanopb
-Wno-missing-braces ; Added to suppress protobufs extra nested braces causing warning
-Wno-missing-braces
-Wno-format
-D CONFIG_HTTPD_WS_SUPPORT=1
build_unflags = -std=gnu++11
build_src_filter =
+<*>
+<../../submodules/nanopb/pb_*.c>
build_src_flags =
-Wformat=2
-Wformat-truncation
-Wstack-usage=4096
-Wno-format
test_ignore = test_embedded
board_build.filesystem = littlefs
board_build.embed_txtfiles =
board_build.sdkconfig_defaults = esp32/sdkconfig.defaults
lib_deps =
ArduinoJson@>=7.0.0
teckel12/NewPing@^1.9.7
FastLED@3.5.0
sparkfun/SparkFun 9DoF IMU Breakout - ICM 20948 - Arduino Library@^1.3.2
lib_ldf_mode = deep
lib_compat_mode = strict
extra_scripts =
pre:esp32/scripts/pre_build.py
pre:esp32/scripts/build_app.py
lib_compat_mode = strict
; debug_tool = esp-builtin
; debug_init_break =
; upload_port = COM[13] # Only use this when upload port is not correctly detected due to multiple COM ports attached.
; upload_port = COM[13] # Only use this when upload port is not correctly detected due to multiple COM ports attached.
sdkconfig.defaults
+40
View File
@@ -0,0 +1,40 @@
# HTTP Server WebSocket support
CONFIG_HTTPD_WS_SUPPORT=y
CONFIG_HTTPD_MAX_REQ_HDR_LEN=2048
CONFIG_HTTPD_MAX_URI_LEN=1024
# mDNS
CONFIG_MDNS_MAX_SERVICES=10
# LittleFS
CONFIG_LITTLEFS_MAX_PARTITIONS=3
#
# ESP System Settings
#
# CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ_80 is not set
# CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ_160 is not set
CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ_240=y
CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ=240
# Main task stack
CONFIG_ESP_MAIN_TASK_STACK_SIZE=8192
CONFIG_PTHREAD_TASK_STACK_SIZE_DEFAULT=4096
# PSRAM for S3
CONFIG_SPIRAM=y
CONFIG_SPIRAM_MODE_OCT=y
CONFIG_SPIRAM_SPEED_80M=y
# DSP library
CONFIG_DSP_MAX_FFT_SIZE_4096=y
# Compiler
CONFIG_COMPILER_OPTIMIZATION_PERF=y
# Partition table
CONFIG_PARTITION_TABLE_CUSTOM=y
# CONFIG_FATFS_LFN_NONE is not set
# CONFIG_FATFS_LFN_HEAP is not set
CONFIG_FATFS_LFN_STACK=y