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compare: matt:32e0462a69fdedce40ee9c8148b8caa2bd14f2d5
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matt:main

4 Commits
94f00c0cef ... 32e0462a69

Author SHA1 Message Date
Matt Way
32e0462a69 Move packet building and sending logic out of main.cpp 2025-05-24 14:36:32 +10:00
Matt Way
b50edfa4aa Move configuration to json 2025-02-16 15:35:18 +11:00
Matt Way
41af7b508f Replace arduino-timer with PositionWatcher 2025-02-09 22:45:14 +11:00
Matt Way
680b6b3b6a Ignore .vscode/settings.json 2025-02-09 22:41:22 +11:00
12 changed files with 235 additions and 228 deletions
Expand all files Collapse all files

1
.gitignore vendored
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@@ -3,3 +3,4 @@
.vscode/c_cpp_properties.json
.vscode/launch.json
.vscode/ipch
.vscode/settings.json

9
config.example.json Normal file
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@@ -0,0 +1,9 @@
{
"shades": [
{
"radioId": "13AC",
"mqttId": "example_blind",
"friendly_name": "Example Blind"
}
]
}

80
lib/configurator/Configurator.cpp
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@@ -1,62 +1,68 @@
#include "Configurator.h"
#include <cctype>
#include <ArduinoJson.h>
Configurator::Configurator() {
// TODO: Should be using MQTT directly here (and methods for handling methods should be private)
}
std::string Configurator::extractKey(std::string topic) {
int startIndex = topic.find("/") + 1;
int endIndex = topic.find("/", startIndex);
// TODO: need to verify that startIndex and endIndex are valid before substr()
return topic.substr(startIndex, endIndex - startIndex);
}
void Configurator::processIdMessage(std::string topic, std::string payload) {
auto key = extractKey(topic);
if (payload.length() != 4) {
// Ignore payloads that aren't exactly 4 characters
return;
uint16_t Configurator::parseRadioId(const char* rawRadioId) {
if (!rawRadioId) {
return 0; // Or another appropriate error value/exception
}
uint16_t id = 0;
for (char c : payload) {
// Check if valid hex digit (0-9, A-F, a-f)
std::string radioId = std::string(rawRadioId);
if (radioId.size() != 4) {
return 0; // Invalid length
}
for (char c : radioId) {
if (!std::isxdigit(c)) {
return; // Invalid character, not a hex digit
return 0; // Invalid character, not a hex digit
}
// Convert hex digit to numerical value (0-9, A-B=10-11, ...)
int digit = std::toupper(c) - (c <= '9' ? '0' : 'A' - 10);
id = (id << 4) | digit;
}
discoveredIds[key] = id;
tryBuild(key);
return id;
}
void Configurator::processFriendlyNameMessage(std::string topic, std::string friendlyName) {
auto key = extractKey(topic);
void Configurator::processJson(std::string json) {
JsonDocument doc;
discoveredFriendlyNames[key] = friendlyName;
tryBuild(key);
DeserializationError error = deserializeJson(doc, json);
if (error) {
return;
}
JsonArray shades = doc["shades"];
for (JsonObject shade : shades) {
const char* rawRadioId = shade["radioId"];
const char* mqttId = shade["mqttId"];
const char* friendlyName = shade["friendly_name"];
if (rawRadioId && mqttId && friendlyName && std::char_traits<char>::length(mqttId) > 0) {
uint16_t id = parseRadioId(rawRadioId);
if (id != 0) {
Shade s{id, mqttId, friendlyName, "stopped", -1, -1};
for (const auto& callback : shadeConfiguredCallbacks) {
callback(s);
}
}
}
else
{
// Invalid JSON - missing radioId, mqttId, or friendly_name"
}
}
}
void Configurator::addShadeConfiguredCallback(std::function<void (Shade)> callback) {
shadeConfiguredCallbacks.push_back(callback);
}
bool Configurator::tryBuild(std::string key) {
if (auto id = discoveredIds.find(key); id != discoveredIds.end()) {
if (auto friendlyName = discoveredFriendlyNames.find(key); friendlyName != discoveredFriendlyNames.end()) {
auto shade = Shade{id->second, key, friendlyName->second, "stopped", -1, -1};
for (size_t i = 0; i < shadeConfiguredCallbacks.size(); i++) {
shadeConfiguredCallbacks[i](shade);
}
return true;
}
}
return false;
}

8
lib/configurator/Configurator.h
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@@ -12,19 +12,15 @@ class Configurator
{
private:
std::vector<std::function<void (Shade)>> shadeConfiguredCallbacks;
std::map<std::string, uint16_t> discoveredIds;
std::map<std::string, std::string> discoveredFriendlyNames;
std::string extractKey(std::string topic);
bool tryBuild(std::string topic);
uint16_t parseRadioId(const char* rawRadioId);
public:
Configurator();
void addShadeConfiguredCallback(std::function<void (Shade)> callback);
void processIdMessage(std::string topic, std::string id);
void processFriendlyNameMessage(std::string topic, std::string friendlyName);
void processJson(std::string json);
};
#endif // CONFIGURATOR_H

84
lib/packet_builder/PacketBuilder.cpp Normal file
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@@ -0,0 +1,84 @@
#include "PacketBuilder.h"
PacketBuilder::PacketBuilder()
{
}
Packet PacketBuilder::buildOpenPacket(uint16_t destination)
{
Packet packet;
auto header = UnicastHeader{};
header.destination = destination;
header.source = 0x0000;
packet.header = header;
packet.type = PacketType::OPEN;
return packet;
}
Packet PacketBuilder::buildClosePacket(uint16_t destination)
{
Packet packet;
auto header = UnicastHeader{};
header.destination = destination;
header.source = 0x0000;
packet.header = header;
packet.type = PacketType::CLOSE;
return packet;
}
Packet PacketBuilder::buildStopPacket(uint16_t destination)
{
Packet packet;
auto header = UnicastHeader{};
header.destination = destination;
header.source = 0x0000;
packet.header = header;
packet.type = PacketType::STOP;
return packet;
}
Packet PacketBuilder::buildSetPositionPacket(uint16_t destination, float percentage)
{
Packet packet;
auto header = UnicastHeader{};
header.destination = destination;
header.source = 0x0000;
packet.header = header;
packet.type = PacketType::FIELD_COMMAND;
std::vector<Field> fields;
uint8_t identifier = 0x50; // position
FieldType type = FieldType::SET;
uint16_t position = (uint16_t)(0xFFFF * percentage);
fields.push_back(Field{identifier, type, true, position});
packet.parameters = FieldsParameters{fields};
return packet;
}
Packet PacketBuilder::buildFetchPositionPacket(uint16_t destination)
{
Packet packet;
auto header = UnicastHeader{};
header.destination = destination;
header.source = 0x0000;
packet.header = header;
packet.type = PacketType::FIELD_COMMAND;
std::vector<Field> fields;
// position
fields.push_back(Field{0x50, FieldType::FETCH, false, std::monostate{}});
// battery
fields.push_back(Field{0x42, FieldType::FETCH, false, std::monostate{}});
packet.parameters = FieldsParameters{fields};
return packet;
}

17
lib/packet_builder/PacketBuilder.h Normal file
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@@ -0,0 +1,17 @@
#ifndef PACKET_BUILDER_H
#define PACKET_BUILDER_H
#include <PacketTypes.h>
class PacketBuilder {
public:
PacketBuilder();
Packet buildOpenPacket(uint16_t destination);
Packet buildClosePacket(uint16_t destination);
Packet buildStopPacket(uint16_t destination);
Packet buildSetPositionPacket(uint16_t destination, float percentage);
Packet buildFetchPositionPacket(uint16_t destination);
};
#endif // PACKET_BUILDER_H

27
lib/packet_sender/PacketSender.cpp Normal file
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@@ -0,0 +1,27 @@
#include "PacketSender.h"
PacketSender::PacketSender(RFPowerView& powerView) : powerView(powerView)
{
}
bool PacketSender::send(Packet packet)
{
Serial.println("Attempting to send a packet");
packet.rollingCode1 = lastRollingCode1 + 1;
packet.rollingCode2 = lastRollingCode2 + 1;
bool didSend = powerView.sendPacket(&packet);
if (!didSend) {
Serial.println("Failed to send");
return false;
} else {
lastRollingCode1++;
lastRollingCode2++;
return true;
}
}
void PacketSender::setLastRollingCodes(uint8_t code1, uint8_t code2) {
lastRollingCode1 = code1;
lastRollingCode2 = code2;
}

20
lib/packet_sender/PacketSender.h Normal file
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@@ -0,0 +1,20 @@
#ifndef PACKET_SENDER_H
#define PACKET_SENDER_H
#include <RFPowerView.h>
#include <PacketTypes.h>
class PacketSender {
public:
PacketSender(RFPowerView& powerView);
bool send(Packet packet);
void setLastRollingCodes(uint8_t code1, uint8_t code2);
private:
RFPowerView& powerView;
uint8_t lastRollingCode1 = 0x3D;
uint8_t lastRollingCode2 = 0x96;
};
#endif // PACKET_SENDER_H

1
platformio.ini
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@@ -37,7 +37,6 @@ lib_deps =
[env:test_desktop]
platform = native
build_type = test
lib_compat_mode = off
lib_deps =
${env.lib_deps}
ArduinoFake

1
src/.gitignore vendored
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@@ -1 +1,2 @@
secrets.h
config.h

126
src/main.cpp
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@@ -4,6 +4,7 @@
#include <RFPowerView.h>
#include <random>
#include <chrono>
#include "config.h"
#include "Shade.h"
#include "Configurator.h"
#include "ShadeRepository.h"
@@ -11,15 +12,14 @@
#include "secrets.h"
#include "ShadeCommand.h"
#include "PositionWatcher.h"
#include "PacketBuilder.h"
#include "PacketSender.h"
#include <queue>
#define SER_BAUDRATE (115200)
RFPowerView powerView(RF_CE_PIN, RF_CS_PIN, RF_IRQ_PIN, RF_ID);
uint8_t lastRollingCode1 = 0x3D;
uint8_t lastRollingCode2 = 0x96;
static std::mt19937 generator(std::chrono::system_clock::now().time_since_epoch().count());
std::string generate_client_id_suffix(int length) {
@@ -60,17 +60,14 @@ HADiscovery haDiscovery(topic_prefix.c_str(), [] (const char* topic, const char*
client.publish(topic, message);
});
PacketBuilder packetBuilder;
PacketSender packetSender(powerView);
void processPacket(const Packet*);
void processCommandMessage(const String& topic, const String &payload);
void processSetPositionMessage(const String& topic, const String &payload);
bool sendOpenPacket(uint16_t destination);
bool sendClosePacket(uint16_t destination);
bool sendStopPacket(uint16_t destination);
bool sendSetPosition(uint16_t destination, float percentage);
bool sendFetchPosition(uint16_t destination);
bool sendPacket(Packet *packet);
void publishPosition(const std::string& shadeKey, const uint8_t position);
void publishState(const std::string& shadeKey, const String& state);
void publishBattery(const std::string& shadeKey, const uint8_t battery);
@@ -113,15 +110,13 @@ void setup() {
publishDiscoveryTopics();
});
delay(100);
configurator.processJson(config_json);
shadeRepository.upsert(Shade{0x4EF1, "study_blind", "Study Blind", "stopped", -1, -1, false});
delay(100);
Serial.println("Ready");
}
int loopCounter = 0;
void loop() {
powerView.loop();
client.loop();
@@ -134,7 +129,7 @@ void loop() {
if (std::holds_alternative<OpenCommand>(command)) {
auto openCommand = std::get<OpenCommand>(command);
Serial.printf("Open command received for shade 0x%04x\n", openCommand.shadeID);
if (sendOpenPacket(openCommand.shadeID)) {
if (packetSender.send(packetBuilder.buildOpenPacket(openCommand.shadeID))) {
auto shade = shadeRepository.findById(openCommand.shadeID);
if (shade != nullptr) {
shade->state = "opening";
@@ -146,7 +141,7 @@ void loop() {
} else if (std::holds_alternative<CloseCommand>(command)) {
auto closeCommand = std::get<CloseCommand>(command);
Serial.printf("Close command received for shade 0x%04x\n", closeCommand.shadeID);
if (sendClosePacket(closeCommand.shadeID)) {
if (packetSender.send(packetBuilder.buildClosePacket(closeCommand.shadeID))) {
auto shade = shadeRepository.findById(closeCommand.shadeID);
if (shade != nullptr) {
shade->state = "closing";
@@ -157,13 +152,13 @@ void loop() {
} else if (std::holds_alternative<StopCommand>(command)) {
auto stopCommand = std::get<StopCommand>(command);
Serial.printf("Stop command received for shade 0x%04x\n", stopCommand.shadeID);
sendStopPacket(stopCommand.shadeID);
packetSender.send(packetBuilder.buildStopPacket(stopCommand.shadeID));
startPositionWatcher(stopCommand.shadeID, -1);
} else if (std::holds_alternative<SetPositionCommand>(command)) {
auto setPositionCommand = std::get<SetPositionCommand>(command);
Serial.printf("Set Position command received for shade 0x%04x (%.2f)\n", setPositionCommand.shadeID, setPositionCommand.percentage);
if (sendSetPosition(setPositionCommand.shadeID, setPositionCommand.percentage)) {
if (packetSender.send(packetBuilder.buildSetPositionPacket(setPositionCommand.shadeID, setPositionCommand.percentage))) {
auto shade = shadeRepository.findById(setPositionCommand.shadeID);
if (shade != nullptr) {
if (setPositionCommand.percentage > shade->lastPosition / 100.0f) {
@@ -185,7 +180,7 @@ void loop() {
for (auto& [shadeID, watcher] : positionWatchers) {
if (watcher.shouldFetch()) {
if (sendFetchPosition(shadeID)) {
if (packetSender.send(packetBuilder.buildFetchPositionPacket(shadeID))) {
watcher.fetchQueued();
}
} else if (!watcher.isWatching()) {
@@ -240,8 +235,7 @@ void processPacket(const Packet *packet) {
// Update last rolling codes each time a packet from a real hub is detected
if (source == 0x0000) {
Serial.println("Updating rolling codes");
lastRollingCode1 = packet->rollingCode1;
lastRollingCode2 = packet->rollingCode2;
packetSender.setLastRollingCodes(packet->rollingCode1, packet->rollingCode2);
}
if (packet->type == PacketType::FIELDS) {
@@ -297,96 +291,6 @@ void onConnectionEstablished() {
});
}
bool sendOpenPacket(uint16_t destination) {
Packet packet;
auto header = UnicastHeader {};
header.destination = destination;
header.source = 0x0000;
packet.header = header;
packet.type = PacketType::OPEN;
return sendPacket(&packet);
}
bool sendClosePacket(uint16_t destination) {
Packet packet;
auto header = UnicastHeader {};
header.destination = destination;
header.source = 0x0000;
packet.header = header;
packet.type = PacketType::CLOSE;
return sendPacket(&packet);
}
bool sendStopPacket(uint16_t destination) {
Packet packet;
auto header = UnicastHeader {};
header.destination = destination;
header.source = 0x0000;
packet.header = header;
packet.type = PacketType::STOP;
return sendPacket(&packet);
}
bool sendSetPosition(uint16_t destination, float percentage) {
Packet packet;
auto header = UnicastHeader {};
header.destination = destination;
header.source = 0x0000;
packet.header = header;
packet.type = PacketType::FIELD_COMMAND;
std::vector<Field> fields;
uint8_t identifier = 0x50; // position
FieldType type = FieldType::SET;
uint16_t position = (uint16_t)(0xFFFF * percentage);
fields.push_back(Field{identifier, type, true, position});
packet.parameters = FieldsParameters {fields};
return sendPacket(&packet);
}
bool sendFetchPosition(uint16_t destination) {
Packet packet;
auto header = UnicastHeader {};
header.destination = destination;
header.source = 0x0000;
packet.header = header;
packet.type = PacketType::FIELD_COMMAND;
std::vector<Field> fields;
// position
fields.push_back(Field{0x50, FieldType::FETCH, false, std::monostate{}});
// battery
fields.push_back(Field{0x42, FieldType::FETCH, false, std::monostate{}});
packet.parameters = FieldsParameters {fields};
return sendPacket(&packet);
}
bool sendPacket(Packet *packet) {
Serial.println("Attempting to send a packet");
packet->rollingCode1 = lastRollingCode1 + 1;
packet->rollingCode2 = lastRollingCode2 + 1;
bool didSend = powerView.sendPacket(packet);
if (!didSend) {
Serial.println("Failed to send");
return false;
} else {
lastRollingCode1++;
lastRollingCode2++;
return true;
}
}
void startPositionWatcher(uint16_t shadeID, uint8_t targetValue) {
auto& watcher = positionWatchers.try_emplace(shadeID).first->second;
watcher.start(targetValue);

87
test/test_configurator/test_configurator.cpp
View File

@@ -10,6 +10,11 @@ void tearDown()
{
}
std::string singleBlindJson = R"({"shades": [{"radioId": "ABCD","mqttId": "test_shade","friendly_name": "Test Shade"}]})";
std::string doubleBlindJson = R"({"shades": [{"radioId": "ABCD","mqttId": "test_shade","friendly_name": "Test Shade"}, {"radioId": "1234","mqttId": "test_shade2","friendly_name": "Test Shade 2"}]})";
std::string invalidRadioIdBlindJson = R"({"shades": [{"radioId": "XYZ9","mqttId": "test_shade","friendly_name": "Test Shade"}, {"mqttId": "test_shade","friendly_name": "Test Shade"}, {"radioId": "","mqttId": "test_shade","friendly_name": "Test Shade"}, {"radioId": "ABCDE","mqttId": "test_shade","friendly_name": "Test Shade"}]})";
std::string invalidMqttIdBlindJson = R"({"shades": [{"radioId": "ABCD","mqttId": "","friendly_name": "Test Shade"}, {"radioId": "ABCD","friendly_name": "Test Shade"}]})";
void test_shade_is_configured_with_id_and_friendly_name()
{
int callbackInvokedCount = 0;
@@ -23,71 +28,26 @@ void test_shade_is_configured_with_id_and_friendly_name()
TEST_ASSERT_EQUAL_STRING("test_shade", shade.key.c_str());
});
configurator.processIdMessage("hotdog/test_shade/id", "ABCD");
configurator.processFriendlyNameMessage("hotdog/test_shade/friendly_name", "Test Shade");
configurator.processJson(singleBlindJson);
TEST_ASSERT_EQUAL_INT(1, callbackInvokedCount);
}
void test_shade_is_configured_again_with_new_friendly_name()
void test_multiple_shades_are_configured()
{
int callbackInvokedCount = 0;
Configurator configurator = Configurator();
configurator.addShadeConfiguredCallback([&] (Shade shade) {
callbackInvokedCount++;
if (callbackInvokedCount == 1) {
TEST_ASSERT_EQUAL_STRING("Test Shade", shade.friendlyName.c_str());
} else if (callbackInvokedCount == 2) {
TEST_ASSERT_EQUAL_STRING("Updated Test Shade", shade.friendlyName.c_str());
} else {
TEST_ABORT();
}
TEST_ASSERT_EQUAL_HEX16(0xABCD, shade.ID);
TEST_ASSERT_EQUAL_STRING("test_shade", shade.key.c_str());
});
configurator.processIdMessage("hotdog/test_shade/id", "ABCD");
configurator.processFriendlyNameMessage("hotdog/test_shade/friendly_name", "Test Shade");
TEST_ASSERT_EQUAL_INT(1, callbackInvokedCount);
configurator.processFriendlyNameMessage("hotdog/test_shade/friendly_name", "Updated Test Shade");
configurator.processJson(doubleBlindJson);
TEST_ASSERT_EQUAL_INT(2, callbackInvokedCount);
}
void test_shade_is_configured_again_with_new_id()
{
int callbackInvokedCount = 0;
Configurator configurator = Configurator();
configurator.addShadeConfiguredCallback([&] (Shade shade) {
callbackInvokedCount++;
TEST_ASSERT_EQUAL_STRING("Test Shade", shade.friendlyName.c_str());
if (callbackInvokedCount == 1) {
TEST_ASSERT_EQUAL_HEX16(0xABCD, shade.ID);
} else if (callbackInvokedCount == 2) {
TEST_ASSERT_EQUAL_HEX16(0x9876, shade.ID);
} else {
TEST_ABORT();
}
TEST_ASSERT_EQUAL_STRING("test_shade", shade.key.c_str());
});
configurator.processIdMessage("hotdog/test_shade/id", "ABCD");
configurator.processFriendlyNameMessage("hotdog/test_shade/friendly_name", "Test Shade");
TEST_ASSERT_EQUAL_INT(1, callbackInvokedCount);
configurator.processIdMessage("hotdog/test_shade/id", "9876");
TEST_ASSERT_EQUAL_INT(2, callbackInvokedCount);
}
void test_shade_is_not_configured_without_friendly_name()
void test_invalid_radio_id_is_ignored()
{
int callbackInvokedCount = 0;
@@ -96,12 +56,12 @@ void test_shade_is_not_configured_without_friendly_name()
callbackInvokedCount++;
});
configurator.processIdMessage("hotdog/test_shade/id", "ABCD");
configurator.processJson(invalidRadioIdBlindJson);
TEST_ASSERT_EQUAL_INT(0, callbackInvokedCount);
}
void test_shade_is_not_configured_without_id()
void test_invalid_mqtt_id_is_ignored()
{
int callbackInvokedCount = 0;
@@ -110,22 +70,7 @@ void test_shade_is_not_configured_without_id()
callbackInvokedCount++;
});
configurator.processFriendlyNameMessage("hotdog/test_shade/friendly_name", "Test Shade");
TEST_ASSERT_EQUAL_INT(0, callbackInvokedCount);
}
void test_shade_is_not_configured_with_invalid_id()
{
int callbackInvokedCount = 0;
Configurator configurator = Configurator();
configurator.addShadeConfiguredCallback([&] (Shade shade) {
callbackInvokedCount++;
});
configurator.processIdMessage("hotdog/test_shade/id", "ZZZZ");
configurator.processFriendlyNameMessage("hotdog/test_shade/friendly_name", "Test Shade");
configurator.processJson(invalidMqttIdBlindJson);
TEST_ASSERT_EQUAL_INT(0, callbackInvokedCount);
}
@@ -134,11 +79,9 @@ int runUnityTests(void)
{
UNITY_BEGIN();
RUN_TEST(test_shade_is_configured_with_id_and_friendly_name);
RUN_TEST(test_shade_is_configured_again_with_new_friendly_name);
RUN_TEST(test_shade_is_configured_again_with_new_id);
RUN_TEST(test_shade_is_not_configured_without_friendly_name);
RUN_TEST(test_shade_is_not_configured_without_id);
RUN_TEST(test_shade_is_not_configured_with_invalid_id);
RUN_TEST(test_multiple_shades_are_configured);
RUN_TEST(test_invalid_radio_id_is_ignored);
RUN_TEST(test_invalid_mqtt_id_is_ignored);
return UNITY_END();
}