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This class is intended to replace all IOAddress usages in the Kernel codebase altogether. The idea is to ensure IO can be done in arch-specific manner that is determined mostly in compile-time, but to still be able to use most of the Kernel code in non-x86 builds. Specific devices that rely on x86-specific IO instructions are already placed in the Arch/x86 directory and are omitted for non-x86 builds. The reason this works so well is the fact that x86 IO space acts in a similar fashion to the traditional memory space being available in most CPU architectures - the x86 IO space is essentially just an array of bytes like the physical memory address space, but requires x86 IO instructions to load and store data. Therefore, many devices allow host software to interact with the hardware registers in both ways, with a noticeable trend even in the modern x86 hardware to move away from the old x86 IO space to exclusively using memory-mapped IO. Therefore, the IOWindow class encapsulates both methods for x86 builds. The idea is to allow PCI devices to be used in either way in x86 builds, so when trying to map an IOWindow on a PCI BAR, the Kernel will try to find the proper method being declared with the PCI BAR flags. For old PCI hardware on non-x86 builds this might turn into a problem as we can't use port mapped IO, so the Kernel will gracefully fail with ENOTSUP error code if that's the case, as there's really nothing we can do within such case. For general IO, the read{8,16,32} and write{8,16,32} methods are available as a convenient API for other places in the Kernel. There are simply no direct 64-bit IO API methods yet, as it's not needed right now and is not considered to be Arch-agnostic too - the x86 IO space doesn't support generating 64 bit cycle on IO bus and instead requires two 2 32-bit accesses. If for whatever reason it appears to be necessary to do IO in such manner, it could probably be added with some neat tricks to do so. It is recommended to use Memory::TypedMapping struct if direct 64 bit IO is actually needed.
56 lines
2.2 KiB
C++
56 lines
2.2 KiB
C++
/*
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* Copyright (c) 2021, Idan Horowitz <idan.horowitz@serenityos.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <Kernel/Bus/PCI/API.h>
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#include <Kernel/Devices/PCISerialDevice.h>
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#include <Kernel/IOWindow.h>
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#include <Kernel/Sections.h>
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namespace Kernel {
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static SerialDevice* s_the = nullptr;
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UNMAP_AFTER_INIT void PCISerialDevice::detect()
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{
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size_t current_device_minor = 68;
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MUST(PCI::enumerate([&](PCI::DeviceIdentifier const& device_identifier) {
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for (auto& board_definition : board_definitions) {
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if (board_definition.device_id != device_identifier.hardware_id())
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continue;
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auto registers_io_window = IOWindow::create_for_pci_device_bar(device_identifier, static_cast<PCI::HeaderType0BaseRegister>(board_definition.pci_bar)).release_value_but_fixme_should_propagate_errors();
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auto first_offset_registers_io_window = registers_io_window->create_from_io_window_with_offset(board_definition.first_offset).release_value_but_fixme_should_propagate_errors();
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for (size_t i = 0; i < board_definition.port_count; i++) {
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auto port_registers_io_window = first_offset_registers_io_window->create_from_io_window_with_offset(board_definition.port_size * i).release_value_but_fixme_should_propagate_errors();
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auto serial_device = new SerialDevice(move(port_registers_io_window), current_device_minor++);
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if (board_definition.baud_rate != SerialDevice::Baud::Baud38400) // non-default baud
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serial_device->set_baud(board_definition.baud_rate);
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// If this is the first port of the first pci serial device, store it as the debug PCI serial port (TODO: Make this configurable somehow?)
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if (!is_available())
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s_the = serial_device;
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// NOTE: We intentionally leak the reference to serial_device here.
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}
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dmesgln("PCISerialDevice: Found {} @ {}", board_definition.name, device_identifier.address());
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return;
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}
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}));
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}
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SerialDevice& PCISerialDevice::the()
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{
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VERIFY(s_the);
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return *s_the;
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}
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bool PCISerialDevice::is_available()
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{
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return s_the;
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}
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}
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