/* * \brief Platform-device interface * \author Stefan Kalkowski * \author Norman Feske * \date 2020-04-15 */ /* * Copyright (C) 2020-2021 Genode Labs GmbH * * This file is part of the Genode OS framework, which is distributed * under the terms of the GNU Affero General Public License version 3. */ #ifndef _INCLUDE__PLATFORM_SESSION__DEVICE_H_ #define _INCLUDE__PLATFORM_SESSION__DEVICE_H_ #include #include #include #include #include #include #include #include class Platform::Device : Interface, Noncopyable { public: struct Mmio; struct Irq; struct Io_port_range; typedef Platform::Session::Device_name Name; private: typedef Device_interface::Range Range; friend class Mmio; ::Platform::Connection &_platform; Capability _cap; Irq_session_capability _irq(unsigned index) { return _cap.call(index); } Io_mem_session_capability _io_mem(unsigned index, Range &range, Cache cache) { return _cap.call(index, range, cache); } Io_port_session_capability _io_port_range(unsigned index) { return _cap.call(index); } Region_map &_rm() { return _platform._rm; } public: struct Index { unsigned value; }; explicit Device(Connection &platform) : _platform(platform), _cap(platform.acquire_device()) { } struct Type { String<64> name; }; Device(Connection &platform, Type type) : _platform(platform), _cap(platform.device_by_type(type.name.string())) { } Device(Connection &platform, Name name) : _platform(platform), _cap(platform.acquire_device(name)) { } ~Device() { _platform.release_device(_cap); } }; class Platform::Device::Mmio : Range, Attached_dataspace, public Genode::Mmio { private: Dataspace_capability _ds_cap(Device &device, unsigned id) { Io_mem_session_client io_mem(device._io_mem(id, *this, UNCACHED)); return io_mem.dataspace(); } addr_t _local_addr() { return (addr_t)Attached_dataspace::local_addr() + Range::start; } public: struct Index { unsigned value; }; Mmio(Device &device, Index index) : Attached_dataspace(device._rm(), _ds_cap(device, index.value)), Genode::Mmio(_local_addr()) { } explicit Mmio(Device &device) : Mmio(device, Index { 0 }) { } size_t size() const { return Range::size; } template T *local_addr() { return reinterpret_cast(_local_addr()); } }; class Platform::Device::Irq : Noncopyable { private: Irq_session_client _irq; public: struct Index { unsigned value; }; Irq(Device &device, Index index) : _irq(device._irq(index.value)) { } explicit Irq(Device &device) : Irq(device, Index { 0 }) { } /** * Acknowledge interrupt * * This method must be called by the interrupt handler. */ void ack() { _irq.ack_irq(); } /** * Register interrupt signal handler * * The call of this method implies a one-time trigger of the interrupt * handler once the driver component becomes receptive to signals. This * artificial interrupt signal alleviates the need to place an explicit * 'Irq::ack' respectively a manual call of the interrupt handler * routine during the driver initialization. * * Furthermore, this artificial interrupt reforces drivers to be robust * against spurious interrupts. */ void sigh(Signal_context_capability sigh) { _irq.sigh(sigh); /* trigger initial interrupt */ if (sigh.valid()) Signal_transmitter(sigh).submit(); } /** * Register interrupt signal handler * * This call omits the one-time trigger of the interrupt * handler for ported drivers that cannot handle it sufficiently. */ void sigh_omit_initial_signal(Signal_context_capability sigh) { _irq.sigh(sigh); } }; class Platform::Device::Io_port_range : Noncopyable { private: Io_port_session_client _io_port_range; public: struct Index { unsigned value; }; Io_port_range(Device &device, Index index) : _io_port_range(device._io_port_range(index.value)) { } explicit Io_port_range(Device &device) : Io_port_range(device, Index { 0 }) { } uint8_t inb(uint16_t addr) { return _io_port_range.inb(addr); }; uint16_t inw(uint16_t addr) { return _io_port_range.inw(addr); }; uint32_t inl(uint16_t addr) { return _io_port_range.inl(addr); }; void outb(uint16_t addr, uint8_t value) { _io_port_range.outb(addr, value); }; void outw(uint16_t addr, uint16_t value) { _io_port_range.outw(addr, value); }; void outl(uint16_t addr, uint32_t value) { _io_port_range.outl(addr, value); }; }; #endif /* _INCLUDE__PLATFORM_SESSION__DEVICE_H_ */