src/devices/internal/drivers/fragment/fragment-proxy.h - fuchsia - Git at Google

 // Copyright 2019 The Fuchsia Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef SRC_DEVICES_INTERNAL_DRIVERS_FRAGMENT_FRAGMENT_PROXY_H_
 #define SRC_DEVICES_INTERNAL_DRIVERS_FRAGMENT_FRAGMENT_PROXY_H_

 #include <fuchsia/hardware/audio/cpp/banjo.h>
 #include <fuchsia/hardware/clock/cpp/banjo.h>
 #include <fuchsia/hardware/ethernet/board/cpp/banjo.h>
 #include <fuchsia/hardware/gpio/cpp/banjo.h>
 #include <fuchsia/hardware/platform/device/cpp/banjo.h>
 #include <fuchsia/hardware/power/cpp/banjo.h>
 #include <fuchsia/hardware/spi/cpp/banjo.h>
 #include <fuchsia/hardware/sysmem/cpp/banjo.h>
 #include <lib/ddk/debug.h>
 #include <lib/ddk/device.h>
 #include <lib/ddk/driver.h>
 #include <lib/zx/channel.h>

 #include <ddktl/device.h>

 #include "proxy-protocol.h"

 namespace fragment {

 class FragmentProxy;
 using FragmentProxyBase = ddk::Device<FragmentProxy, ddk::GetProtocolable>;

 class FragmentProxy : public FragmentProxyBase,
                       public ddk::ClockProtocol<FragmentProxy>,
                       public ddk::EthBoardProtocol<FragmentProxy>,
                       public ddk::GpioProtocol<FragmentProxy>,
                       public ddk::DaiProtocol<FragmentProxy>,
                       public ddk::PDevProtocol<FragmentProxy>,
                       public ddk::PowerProtocol<FragmentProxy>,
                       public ddk::SpiProtocol<FragmentProxy>,
                       public ddk::SysmemProtocol<FragmentProxy> {
  public:
   FragmentProxy(zx_device_t* parent, zx::channel rpc)
       : FragmentProxyBase(parent), rpc_(std::move(rpc)) {}

   static zx_status_t Create(void* ctx, zx_device_t* parent);

   zx_status_t DdkGetProtocol(uint32_t, void*);
   void DdkRelease();

   zx_status_t Rpc(const ProxyRequest* req, size_t req_length, ProxyResponse* resp,
                   size_t resp_length, const zx_handle_t* in_handles, size_t in_handle_count,
                   zx_handle_t* out_handles, size_t out_handle_count, size_t* out_actual);

   zx_status_t Rpc(const ProxyRequest* req, size_t req_length, ProxyResponse* resp,
                   size_t resp_length) {
     return Rpc(req, req_length, resp, resp_length, nullptr, 0, nullptr, 0, nullptr);
   }

   void AcpiConnectServer(zx::channel server);

   zx_status_t ClockEnable();
   zx_status_t ClockDisable();
   zx_status_t ClockIsEnabled(bool* out_enabled);
   zx_status_t ClockSetRate(uint64_t hz);
   zx_status_t ClockQuerySupportedRate(uint64_t max_rate, uint64_t* out_max_supported_rate);
   zx_status_t ClockGetRate(uint64_t* out_current_rate);
   zx_status_t ClockSetInput(uint32_t idx);
   zx_status_t ClockGetNumInputs(uint32_t* out_num_inputs);
   zx_status_t ClockGetInput(uint32_t* out_current_input);
   zx_status_t EthBoardResetPhy();
   zx_status_t GpioConfigIn(uint32_t flags);
   zx_status_t GpioConfigOut(uint8_t initial_value);
   zx_status_t GpioSetAltFunction(uint64_t function);
   zx_status_t GpioRead(uint8_t* out_value);
   zx_status_t GpioWrite(uint8_t value);
   zx_status_t GpioGetInterrupt(uint32_t flags, zx::interrupt* out_irq);
   zx_status_t GpioReleaseInterrupt();
   zx_status_t GpioSetPolarity(gpio_polarity_t polarity);
   zx_status_t GpioSetDriveStrength(uint64_t ds_ua, uint64_t* out_actual_ds_ua);
   zx_status_t GpioGetDriveStrength(uint64_t* ds_ua);
   zx_status_t PDevGetMmio(uint32_t index, pdev_mmio_t* out_mmio);
   zx_status_t PDevGetInterrupt(uint32_t index, uint32_t flags, zx::interrupt* out_irq);
   zx_status_t PDevGetBti(uint32_t index, zx::bti* out_bti);
   zx_status_t PDevGetSmc(uint32_t index, zx::resource* out_smc);
   zx_status_t PDevGetDeviceInfo(pdev_device_info_t* out_info);
   zx_status_t PDevGetBoardInfo(pdev_board_info_t* out_info);
   zx_status_t PDevDeviceAdd(uint32_t index, const device_add_args_t* args,
                             zx_device_t** out_device);
   zx_status_t PDevGetProtocol(uint32_t proto_id, uint32_t index, void* out_out_protocol_buffer,
                               size_t out_protocol_size, size_t* out_out_protocol_actual);
   zx_status_t PowerRegisterPowerDomain(uint32_t min_needed_voltage, uint32_t max_supported_voltage);
   zx_status_t PowerUnregisterPowerDomain();
   zx_status_t PowerGetPowerDomainStatus(power_domain_status_t* out_status);
   zx_status_t PowerGetSupportedVoltageRange(uint32_t* min_voltage, uint32_t* max_voltage);
   zx_status_t PowerRequestVoltage(uint32_t _voltage, uint32_t* actual_voltage);
   zx_status_t PowerGetCurrentVoltage(uint32_t index, uint32_t* current_voltage);
   zx_status_t PowerWritePmicCtrlReg(uint32_t reg_addr, uint32_t value);
   zx_status_t PowerReadPmicCtrlReg(uint32_t reg_addr, uint32_t* out_value);
   zx_status_t SpiTransmit(const uint8_t* txdata_list, size_t txdata_count);
   zx_status_t SpiReceive(uint32_t size, uint8_t* out_rxdata_list, size_t rxdata_count,
                          size_t* out_rxdata_actual);
   zx_status_t SpiExchange(const uint8_t* txdata_list, size_t txdata_count, uint8_t* out_rxdata_list,
                           size_t rxdata_count, size_t* out_rxdata_actual);
   zx_status_t SysmemConnect(zx::channel allocator2_request);
   zx_status_t SysmemRegisterHeap(uint64_t heap, zx::channel heap_connection);
   zx_status_t SysmemRegisterSecureMem(zx::channel tee_connection);
   zx_status_t SysmemUnregisterSecureMem();

   zx_status_t DaiConnect(zx::channel chan);

  private:
   zx::channel rpc_;
 };

 }  // namespace fragment

 #endif  // SRC_DEVICES_INTERNAL_DRIVERS_FRAGMENT_FRAGMENT_PROXY_H_
	// Copyright 2019 The Fuchsia Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef SRC_DEVICES_INTERNAL_DRIVERS_FRAGMENT_FRAGMENT_PROXY_H_
	#define SRC_DEVICES_INTERNAL_DRIVERS_FRAGMENT_FRAGMENT_PROXY_H_

	#include <fuchsia/hardware/audio/cpp/banjo.h>
	#include <fuchsia/hardware/clock/cpp/banjo.h>
	#include <fuchsia/hardware/ethernet/board/cpp/banjo.h>
	#include <fuchsia/hardware/gpio/cpp/banjo.h>
	#include <fuchsia/hardware/platform/device/cpp/banjo.h>
	#include <fuchsia/hardware/power/cpp/banjo.h>
	#include <fuchsia/hardware/spi/cpp/banjo.h>
	#include <fuchsia/hardware/sysmem/cpp/banjo.h>
	#include <lib/ddk/debug.h>
	#include <lib/ddk/device.h>
	#include <lib/ddk/driver.h>
	#include <lib/zx/channel.h>

	#include <ddktl/device.h>

	#include "proxy-protocol.h"

	namespace fragment {

	class FragmentProxy;
	using FragmentProxyBase = ddk::Device<FragmentProxy, ddk::GetProtocolable>;

	class FragmentProxy : public FragmentProxyBase,
	public ddk::ClockProtocol<FragmentProxy>,
	public ddk::EthBoardProtocol<FragmentProxy>,
	public ddk::GpioProtocol<FragmentProxy>,
	public ddk::DaiProtocol<FragmentProxy>,
	public ddk::PDevProtocol<FragmentProxy>,
	public ddk::PowerProtocol<FragmentProxy>,
	public ddk::SpiProtocol<FragmentProxy>,
	public ddk::SysmemProtocol<FragmentProxy> {
	public:
	FragmentProxy(zx_device_t* parent, zx::channel rpc)
	: FragmentProxyBase(parent), rpc_(std::move(rpc)) {}

	static zx_status_t Create(void* ctx, zx_device_t* parent);

	zx_status_t DdkGetProtocol(uint32_t, void*);
	void DdkRelease();

	zx_status_t Rpc(const ProxyRequest* req, size_t req_length, ProxyResponse* resp,
	size_t resp_length, const zx_handle_t* in_handles, size_t in_handle_count,
	zx_handle_t* out_handles, size_t out_handle_count, size_t* out_actual);

	zx_status_t Rpc(const ProxyRequest* req, size_t req_length, ProxyResponse* resp,
	size_t resp_length) {
	return Rpc(req, req_length, resp, resp_length, nullptr, 0, nullptr, 0, nullptr);
	}

	void AcpiConnectServer(zx::channel server);

	zx_status_t ClockEnable();
	zx_status_t ClockDisable();
	zx_status_t ClockIsEnabled(bool* out_enabled);
	zx_status_t ClockSetRate(uint64_t hz);
	zx_status_t ClockQuerySupportedRate(uint64_t max_rate, uint64_t* out_max_supported_rate);
	zx_status_t ClockGetRate(uint64_t* out_current_rate);
	zx_status_t ClockSetInput(uint32_t idx);
	zx_status_t ClockGetNumInputs(uint32_t* out_num_inputs);
	zx_status_t ClockGetInput(uint32_t* out_current_input);
	zx_status_t EthBoardResetPhy();
	zx_status_t GpioConfigIn(uint32_t flags);
	zx_status_t GpioConfigOut(uint8_t initial_value);
	zx_status_t GpioSetAltFunction(uint64_t function);
	zx_status_t GpioRead(uint8_t* out_value);
	zx_status_t GpioWrite(uint8_t value);
	zx_status_t GpioGetInterrupt(uint32_t flags, zx::interrupt* out_irq);
	zx_status_t GpioReleaseInterrupt();
	zx_status_t GpioSetPolarity(gpio_polarity_t polarity);
	zx_status_t GpioSetDriveStrength(uint64_t ds_ua, uint64_t* out_actual_ds_ua);
	zx_status_t GpioGetDriveStrength(uint64_t* ds_ua);
	zx_status_t PDevGetMmio(uint32_t index, pdev_mmio_t* out_mmio);
	zx_status_t PDevGetInterrupt(uint32_t index, uint32_t flags, zx::interrupt* out_irq);
	zx_status_t PDevGetBti(uint32_t index, zx::bti* out_bti);
	zx_status_t PDevGetSmc(uint32_t index, zx::resource* out_smc);
	zx_status_t PDevGetDeviceInfo(pdev_device_info_t* out_info);
	zx_status_t PDevGetBoardInfo(pdev_board_info_t* out_info);
	zx_status_t PDevDeviceAdd(uint32_t index, const device_add_args_t* args,
	zx_device_t** out_device);
	zx_status_t PDevGetProtocol(uint32_t proto_id, uint32_t index, void* out_out_protocol_buffer,
	size_t out_protocol_size, size_t* out_out_protocol_actual);
	zx_status_t PowerRegisterPowerDomain(uint32_t min_needed_voltage, uint32_t max_supported_voltage);
	zx_status_t PowerUnregisterPowerDomain();
	zx_status_t PowerGetPowerDomainStatus(power_domain_status_t* out_status);
	zx_status_t PowerGetSupportedVoltageRange(uint32_t* min_voltage, uint32_t* max_voltage);
	zx_status_t PowerRequestVoltage(uint32_t _voltage, uint32_t* actual_voltage);
	zx_status_t PowerGetCurrentVoltage(uint32_t index, uint32_t* current_voltage);
	zx_status_t PowerWritePmicCtrlReg(uint32_t reg_addr, uint32_t value);
	zx_status_t PowerReadPmicCtrlReg(uint32_t reg_addr, uint32_t* out_value);
	zx_status_t SpiTransmit(const uint8_t* txdata_list, size_t txdata_count);
	zx_status_t SpiReceive(uint32_t size, uint8_t* out_rxdata_list, size_t rxdata_count,
	size_t* out_rxdata_actual);
	zx_status_t SpiExchange(const uint8_t* txdata_list, size_t txdata_count, uint8_t* out_rxdata_list,
	size_t rxdata_count, size_t* out_rxdata_actual);
	zx_status_t SysmemConnect(zx::channel allocator2_request);
	zx_status_t SysmemRegisterHeap(uint64_t heap, zx::channel heap_connection);
	zx_status_t SysmemRegisterSecureMem(zx::channel tee_connection);
	zx_status_t SysmemUnregisterSecureMem();

	zx_status_t DaiConnect(zx::channel chan);

	private:
	zx::channel rpc_;
	};

	} // namespace fragment

	#endif // SRC_DEVICES_INTERNAL_DRIVERS_FRAGMENT_FRAGMENT_PROXY_H_