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#pragma once
#include <AK/OwnPtr.h>
#include <Kernel/IRQHandler.h>
#include <Kernel/Net/NetworkAdapter.h>
#include <Kernel/PCI.h>
class E1000NetworkAdapter final : public NetworkAdapter
, public IRQHandler {
public:
static OwnPtr<E1000NetworkAdapter> autodetect();
E1000NetworkAdapter(PCI::Address, u8 irq);
virtual ~E1000NetworkAdapter() override;
virtual void send_raw(const u8*, int) override;
virtual bool link_up() override;
private:
virtual void handle_irq() override;
virtual const char* class_name() const override { return "E1000NetworkAdapter"; }
struct [[gnu::packed]] e1000_rx_desc
{
volatile uint64_t addr { 0 };
volatile uint16_t length { 0 };
volatile uint16_t checksum { 0 };
volatile uint8_t status { 0 };
volatile uint8_t errors { 0 };
volatile uint16_t special { 0 };
};
struct [[gnu::packed]] e1000_tx_desc
{
volatile uint64_t addr { 0 };
volatile uint16_t length { 0 };
volatile uint8_t cso { 0 };
volatile uint8_t cmd { 0 };
volatile uint8_t status { 0 };
volatile uint8_t css { 0 };
volatile uint16_t special { 0 };
};
void detect_eeprom();
u32 read_eeprom(u8 address);
void read_mac_address();
void write_command(u16 address, u32);
u32 read_command(u16 address);
void initialize_rx_descriptors();
void initialize_tx_descriptors();
void out8(u16 address, u8);
void out16(u16 address, u16);
void out32(u16 address, u32);
u8 in8(u16 address);
u16 in16(u16 address);
u32 in32(u16 address);
void receive();
PCI::Address m_pci_address;
u16 m_io_base { 0 };
PhysicalAddress m_mmio_base;
u8 m_interrupt_line { 0 };
bool m_has_eeprom { false };
bool m_use_mmio { false };
static const int number_of_rx_descriptors = 32;
static const int number_of_tx_descriptors = 8;
e1000_rx_desc* m_rx_descriptors;
e1000_tx_desc* m_tx_descriptors;
};
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