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Tactility/TactilityKernel/Source/device.cpp
Ken Van Hoeylandt c9185740d7
Kernel improvements (#468) 
* **New Features**
  * Plugin-style modules for platforms and devices with start/stop lifecycle and a runtime-consumable device tree array.

* **Refactor**
  * Consolidated initialization into a kernel/module startup flow.
  * Generated devicetree artifacts moved to the build Generated directory.

* **Changes**
  * Removed legacy no-op registration hooks and I2C lock/unlock wrappers.
  * Driver ownership and private state moved to explicit module/owner model.
  * Added ERROR_NOT_ALLOWED error code.
2026-01-31 09:18:02 +01:00

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// SPDX-License-Identifier: Apache-2.0
#include <tactility/driver.h>
#include <tactility/device.h>
#include <tactility/error.h>
#include <tactility/log.h>
#include <ranges>
#include <cassert>
#include <cstring>
#include <sys/errno.h>
#include <vector>
#define TAG LOG_TAG(device)
struct DevicePrivate {
std::vector<Device*> children;
};
struct DeviceLedger {
std::vector<Device*> devices;
Mutex mutex { 0 };
DeviceLedger() {
mutex_construct(&mutex);
}
~DeviceLedger() {
mutex_destruct(&mutex);
}
};
static DeviceLedger& get_ledger() {
static DeviceLedger ledger;
return ledger;
}
#define ledger get_ledger()
extern "C" {
#define ledger_lock() mutex_lock(&ledger.mutex)
#define ledger_unlock() mutex_unlock(&ledger.mutex)
#define get_device_private(device) static_cast<DevicePrivate*>(device->internal.device_private)
error_t device_construct(Device* device) {
device->internal.device_private = new(std::nothrow) DevicePrivate;
if (device->internal.device_private == nullptr) {
return ERROR_OUT_OF_MEMORY;
}
LOG_I(TAG, "construct %s", device->name);
mutex_construct(&device->internal.mutex);
return ERROR_NONE;
}
error_t device_destruct(Device* device) {
if (device->internal.state.started || device->internal.state.added) {
return ERROR_INVALID_STATE;
}
if (!get_device_private(device)->children.empty()) {
return ERROR_INVALID_STATE;
}
LOG_I(TAG, "destruct %s", device->name);
mutex_destruct(&device->internal.mutex);
delete get_device_private(device);
device->internal.device_private = nullptr;
return ERROR_NONE;
}
/** Add a child to the list of children */
static void device_add_child(struct Device* device, struct Device* child) {
device_lock(device);
assert(device->internal.state.added);
get_device_private(device)->children.push_back(child);
device_unlock(device);
}
/** Remove a child from the list of children */
static void device_remove_child(struct Device* device, struct Device* child) {
device_lock(device);
auto* parent_data = get_device_private(device);
const auto iterator = std::ranges::find(parent_data->children, child);
if (iterator != parent_data->children.end()) {
parent_data->children.erase(iterator);
}
device_unlock(device);
}
error_t device_add(Device* device) {
LOG_I(TAG, "add %s", device->name);
// Already added
if (device->internal.state.started || device->internal.state.added) {
return ERROR_INVALID_STATE;
}
// Add to ledger
ledger_lock();
ledger.devices.push_back(device);
ledger_unlock();
// Add self to parent's children list
auto* parent = device->parent;
if (parent != nullptr) {
device_add_child(parent, device);
}
device->internal.state.added = true;
return ERROR_NONE;
}
error_t device_remove(Device* device) {
LOG_I(TAG, "remove %s", device->name);
if (device->internal.state.started || !device->internal.state.added) {
return ERROR_INVALID_STATE;
}
// Remove self from parent's children list
auto* parent = device->parent;
if (parent != nullptr) {
device_remove_child(parent, device);
}
ledger_lock();
const auto iterator = std::ranges::find(ledger.devices, device);
if (iterator == ledger.devices.end()) {
ledger_unlock();
goto failed_ledger_lookup;
}
ledger.devices.erase(iterator);
ledger_unlock();
device->internal.state.added = false;
return ERROR_NONE;
failed_ledger_lookup:
// Re-add to parent
if (parent != nullptr) {
device_add_child(parent, device);
}
return ERROR_NOT_FOUND;
}
error_t device_start(Device* device) {
LOG_I(TAG, "start %s", device->name);
if (!device->internal.state.added) {
return ERROR_INVALID_STATE;
}
if (device->internal.driver == nullptr) {
return ERROR_INVALID_STATE;
}
// Already started
if (device->internal.state.started) {
return ERROR_NONE;
}
error_t bind_error = driver_bind(device->internal.driver, device);
device->internal.state.started = (bind_error == ERROR_NONE);
device->internal.state.start_result = bind_error;
return bind_error == ERROR_NONE ? ERROR_NONE : ERROR_RESOURCE;
}
error_t device_stop(struct Device* device) {
LOG_I(TAG, "stop %s", device->name);
if (!device->internal.state.added) {
return ERROR_INVALID_STATE;
}
if (!device->internal.state.started) {
return ERROR_NONE;
}
if (driver_unbind(device->internal.driver, device) != ERROR_NONE) {
return ERROR_RESOURCE;
}
device->internal.state.started = false;
device->internal.state.start_result = 0;
return ERROR_NONE;
}
error_t device_construct_add(struct Device* device, const char* compatible) {
struct Driver* driver = driver_find_compatible(compatible);
if (driver == nullptr) {
LOG_E(TAG, "Can't find driver '%s' for device '%s'", compatible, device->name);
return ERROR_RESOURCE;
}
error_t error = device_construct(device);
if (error != ERROR_NONE) {
LOG_E(TAG, "Failed to construct device %s: %s", device->name, error_to_string(error));
goto on_construct_error;
}
device_set_driver(device, driver);
error = device_add(device);
if (error != ERROR_NONE) {
LOG_E(TAG, "Failed to add device %s: %s", device->name, error_to_string(error));
goto on_add_error;
}
return ERROR_NONE;
on_add_error:
device_destruct(device);
on_construct_error:
return error;
}
error_t device_construct_add_start(struct Device* device, const char* compatible) {
error_t error = device_construct_add(device, compatible);
if (error != ERROR_NONE) {
goto on_construct_add_error;
}
error = device_start(device);
if (error != ERROR_NONE) {
LOG_E(TAG, "Failed to start device %s: %s", device->name, error_to_string(error));
goto on_start_error;
}
return ERROR_NONE;
on_start_error:
device_remove(device);
device_destruct(device);
on_construct_add_error:
return error;
}
void device_set_parent(Device* device, Device* parent) {
assert(!device->internal.state.started);
device->parent = parent;
}
void for_each_device(void* callback_context, bool(*on_device)(Device* device, void* context)) {
ledger_lock();
for (auto* device : ledger.devices) {
if (!on_device(device, callback_context)) {
break;
}
}
ledger_unlock();
}
void for_each_device_child(Device* device, void* callbackContext, bool(*on_device)(struct Device* device, void* context)) {
auto* data = get_device_private(device);
for (auto* child_device : data->children) {
if (!on_device(child_device, callbackContext)) {
break;
}
}
}
void for_each_device_of_type(const DeviceType* type, void* callbackContext, bool(*on_device)(Device* device, void* context)) {
ledger_lock();
for (auto* device : ledger.devices) {
auto* driver = device->internal.driver;
if (driver != nullptr) {
if (driver->deviceType == type) {
if (!on_device(device, callbackContext)) {
break;
}
}
}
}
ledger_unlock();
}
} // extern "C"
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