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ladybird/Kernel/Net/E1000ENetworkAdapter.cpp
Liav A c6480a0426 Kernel/Net: Support Intel 82574 adapter 
We call it E1000E, because the layout for these cards is somewhat not
the same like E1000 supported cards.

Also, this card supports advanced features that are not supported on
8254x cards.
2021-06-09 22:44:09 +04:30

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/*
* Copyright (c) 2018-2021, Andreas Kling <kling@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/MACAddress.h>
#include <Kernel/Debug.h>
#include <Kernel/Net/E1000ENetworkAdapter.h>
#include <Kernel/PCI/IDs.h>
namespace Kernel {
#define REG_EEPROM 0x0014
static bool is_valid_device_id(u16 device_id)
{
switch (device_id) {
case 0x10D3: // 82574
return true;
default:
return false;
}
}
UNMAP_AFTER_INIT RefPtr<E1000ENetworkAdapter> E1000ENetworkAdapter::try_to_initialize(PCI::Address address)
{
auto id = PCI::get_id(address);
if (id.vendor_id != (u16)PCIVendorID::Intel)
return {};
if (!is_valid_device_id(id.device_id))
return {};
u8 irq = PCI::get_interrupt_line(address);
auto adapter = adopt_ref_if_nonnull(new E1000ENetworkAdapter(address, irq));
if (!adapter)
return {};
if (adapter->initialize())
return adapter;
return {};
}
UNMAP_AFTER_INIT bool E1000ENetworkAdapter::initialize()
{
dmesgln("E1000e: Found @ {}", pci_address());
m_io_base = IOAddress(PCI::get_BAR2(pci_address()) & ~1);
enable_bus_mastering(pci_address());
size_t mmio_base_size = PCI::get_BAR_space_size(pci_address(), 0);
m_mmio_region = MM.allocate_kernel_region(PhysicalAddress(page_base_of(PCI::get_BAR0(pci_address()))), page_round_up(mmio_base_size), "E1000e MMIO", Region::Access::Read | Region::Access::Write, Region::Cacheable::No);
if (!m_mmio_region)
return false;
m_mmio_base = m_mmio_region->vaddr();
m_use_mmio = true;
m_interrupt_line = PCI::get_interrupt_line(pci_address());
dmesgln("E1000e: port base: {}", m_io_base);
dmesgln("E1000e: MMIO base: {}", PhysicalAddress(PCI::get_BAR0(pci_address()) & 0xfffffffc));
dmesgln("E1000e: MMIO base size: {} bytes", mmio_base_size);
dmesgln("E1000e: Interrupt line: {}", m_interrupt_line);
detect_eeprom();
dmesgln("E1000e: Has EEPROM? {}", m_has_eeprom);
read_mac_address();
const auto& mac = mac_address();
dmesgln("E1000e: MAC address: {}", mac.to_string());
initialize_rx_descriptors();
initialize_tx_descriptors();
setup_link();
setup_interrupts();
return true;
}
UNMAP_AFTER_INIT E1000ENetworkAdapter::E1000ENetworkAdapter(PCI::Address address, u8 irq)
: E1000NetworkAdapter(address, irq)
{
}
UNMAP_AFTER_INIT E1000ENetworkAdapter::~E1000ENetworkAdapter()
{
}
UNMAP_AFTER_INIT void E1000ENetworkAdapter::detect_eeprom()
{
// FIXME: Try to find a way to detect if EEPROM exists instead of assuming it is
m_has_eeprom = true;
}
UNMAP_AFTER_INIT u32 E1000ENetworkAdapter::read_eeprom(u8 address)
{
VERIFY(m_has_eeprom);
u16 data = 0;
u32 tmp = 0;
if (m_has_eeprom) {
out32(REG_EEPROM, ((u32)address << 2) | 1);
while (!((tmp = in32(REG_EEPROM)) & (1 << 1)))
;
} else {
out32(REG_EEPROM, ((u32)address << 2) | 1);
while (!((tmp = in32(REG_EEPROM)) & (1 << 1)))
;
}
data = (tmp >> 16) & 0xffff;
return data;
}
}
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