mirror of
https://github.com/RGBCube/serenity
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e5ffa960d7
The new PCI subsystem is initialized during runtime. PCI::Initializer is supposed to be called during early boot, to perform a few tests, and initialize the proper configuration space access mechanism. Kernel boot parameters can be specified by a user to determine what tests will occur, to aid debugging on problematic machines. After that, PCI::Initializer should be dismissed. PCI::IOAccess is a class that is derived from PCI::Access class and implements PCI configuration space access mechanism via x86 IO ports. PCI::MMIOAccess is a class that is derived from PCI::Access and implements PCI configurtaion space access mechanism via memory access. The new PCI subsystem also supports determination of IO/MMIO space needed by a device by checking a given BAR. In addition, Every device or component that use the PCI subsystem has changed to match the last changes.
75 lines
2.1 KiB
C++
75 lines
2.1 KiB
C++
//
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// Parallel ATA (PATA) controller driver
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//
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// This driver describes a logical PATA Channel. Each channel can connect up to 2
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// IDE Hard Disk Drives. The drives themselves can be either the master drive (hd0)
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// or the slave drive (hd1).
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//
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// More information about the ATA spec for PATA can be found here:
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// ftp://ftp.seagate.com/acrobat/reference/111-1c.pdf
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//
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#pragma once
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#include <AK/OwnPtr.h>
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#include <AK/RefPtr.h>
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#include <Kernel/IRQHandler.h>
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#include <Kernel/Lock.h>
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#include <Kernel/PCI/Access.h>
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#include <Kernel/VM/PhysicalAddress.h>
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#include <Kernel/VM/PhysicalPage.h>
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#include <Kernel/WaitQueue.h>
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struct PhysicalRegionDescriptor {
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PhysicalAddress offset;
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u16 size { 0 };
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u16 end_of_table { 0 };
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};
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class PATADiskDevice;
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class PATAChannel final : public IRQHandler {
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friend class PATADiskDevice;
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AK_MAKE_ETERNAL
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public:
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enum class ChannelType : u8 {
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Primary,
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Secondary
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};
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public:
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static OwnPtr<PATAChannel> create(ChannelType type, bool force_pio);
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PATAChannel(ChannelType type, bool force_pio);
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virtual ~PATAChannel() override;
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RefPtr<PATADiskDevice> master_device() { return m_master; };
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RefPtr<PATADiskDevice> slave_device() { return m_slave; };
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private:
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//^ IRQHandler
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virtual void handle_irq() override;
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void initialize(bool force_pio);
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void detect_disks();
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void wait_for_irq();
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bool ata_read_sectors_with_dma(u32, u16, u8*, bool);
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bool ata_write_sectors_with_dma(u32, u16, const u8*, bool);
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bool ata_read_sectors(u32, u16, u8*, bool);
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bool ata_write_sectors(u32, u16, const u8*, bool);
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// Data members
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u8 m_channel_number { 0 }; // Channel number. 0 = master, 1 = slave
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u16 m_io_base { 0x1F0 };
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u16 m_control_base { 0 };
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volatile u8 m_device_error { 0 };
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WaitQueue m_irq_queue;
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PCI::Address m_pci_address;
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PhysicalRegionDescriptor m_prdt;
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RefPtr<PhysicalPage> m_dma_buffer_page;
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u16 m_bus_master_base { 0 };
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Lockable<bool> m_dma_enabled;
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RefPtr<PATADiskDevice> m_master;
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RefPtr<PATADiskDevice> m_slave;
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};
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