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serenity/Kernel/Devices/Storage/ATA/AHCI/Controller.cpp

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/*
* Copyright (c) 2021-2022, Liav A. <liavalb@hotmail.co.il>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Atomic.h>
#include <AK/BuiltinWrappers.h>
#include <AK/OwnPtr.h>
#include <AK/Types.h>
#include <Kernel/Arch/Delay.h>
#include <Kernel/Boot/CommandLine.h>
#include <Kernel/Bus/PCI/API.h>
#include <Kernel/Devices/Storage/ATA/AHCI/Controller.h>
#include <Kernel/Devices/Storage/ATA/AHCI/InterruptHandler.h>
#include <Kernel/Library/LockRefPtr.h>
#include <Kernel/Memory/MemoryManager.h>
namespace Kernel {
UNMAP_AFTER_INIT ErrorOr<NonnullRefPtr<AHCIController>> AHCIController::initialize(PCI::DeviceIdentifier const& pci_device_identifier)
{
auto controller = adopt_ref_if_nonnull(new (nothrow) AHCIController(pci_device_identifier)).release_nonnull();
TRY(controller->initialize_hba(pci_device_identifier));
return controller;
}
ErrorOr<void> AHCIController::reset()
{
dmesgln_pci(*this, "{}: AHCI controller reset", device_identifier().address());
{
SpinlockLocker locker(m_hba_control_lock);
hba().control_regs.ghc = 1;
dbgln_if(AHCI_DEBUG, "{}: AHCI Controller reset", device_identifier().address());
full_memory_barrier();
size_t retry = 0;
// Note: The HBA is locked or hung if we waited more than 1 second!
while (true) {
if (retry > 1000)
return Error::from_errno(ETIMEDOUT);
if (!(hba().control_regs.ghc & 1))
break;
microseconds_delay(1000);
retry++;
}
// Note: Turn on AHCI HBA and Global HBA Interrupts.
full_memory_barrier();
hba().control_regs.ghc = (1 << 31) | (1 << 1);
full_memory_barrier();
}
// Note: According to the AHCI spec the PI register indicates which ports are exposed by the HBA.
// It is loaded by the BIOS. It indicates which ports that the HBA supports are available for software to use.
// For example, on an HBA that supports 6 ports as indicated in CAP.NP, only ports 1 and 3 could be available,
// with ports 0, 2, 4, and 5 being unavailable.
// Which means that even without clearing the AHCI ports array, we are never able to encounter
// a case that we would have stale left-over ports in there. We still clear the array
// for the sake of clarity and completeness, as it doesn't harm anything anyway.
m_ports.fill({});
auto implemented_ports = AHCI::MaskedBitField((u32 volatile&)(hba().control_regs.pi));
for (auto index : implemented_ports.to_vector()) {
auto port = AHCIPort::create(*this, m_hba_capabilities, static_cast<volatile AHCI::PortRegisters&>(hba().port_regs[index]), index).release_value_but_fixme_should_propagate_errors();
m_ports[index] = port;
port->reset();
}
return {};
}
ErrorOr<void> AHCIController::shutdown()
{
return Error::from_errno(ENOTIMPL);
}
size_t AHCIController::devices_count() const
{
SpinlockLocker locker(m_hba_control_lock);
size_t count = 0;
for (auto port : m_ports) {
if (port && port->connected_device())
count++;
}
return count;
}
void AHCIController::start_request(ATADevice const& device, AsyncBlockDeviceRequest& request)
{
auto port = m_ports[device.ata_address().port];
VERIFY(port);
port->start_request(request);
}
void AHCIController::complete_current_request(AsyncDeviceRequest::RequestResult)
{
VERIFY_NOT_REACHED();
}
volatile AHCI::PortRegisters& AHCIController::port(size_t port_number) const
{
VERIFY(port_number < (size_t)AHCI::Limits::MaxPorts);
return static_cast<volatile AHCI::PortRegisters&>(hba().port_regs[port_number]);
}
volatile AHCI::HBA& AHCIController::hba() const
{
return const_cast<AHCI::HBA&>(*m_hba_mapping);
}
UNMAP_AFTER_INIT AHCIController::AHCIController(PCI::DeviceIdentifier const& pci_device_identifier)
: ATAController()
, PCI::Device(const_cast<PCI::DeviceIdentifier&>(pci_device_identifier))
{
}
UNMAP_AFTER_INIT AHCI::HBADefinedCapabilities AHCIController::capabilities() const
{
u32 capabilities = hba().control_regs.cap;
u32 extended_capabilities = hba().control_regs.cap2;
dbgln_if(AHCI_DEBUG, "{}: AHCI Controller Capabilities = {:#08x}, Extended Capabilities = {:#08x}", device_identifier().address(), capabilities, extended_capabilities);
return (AHCI::HBADefinedCapabilities) {
(capabilities & 0b11111) + 1,
((capabilities >> 8) & 0b11111) + 1,
(u8)((capabilities >> 20) & 0b1111),
(capabilities & (u32)(AHCI::HBACapabilities::SXS)) != 0,
(capabilities & (u32)(AHCI::HBACapabilities::EMS)) != 0,
(capabilities & (u32)(AHCI::HBACapabilities::CCCS)) != 0,
(capabilities & (u32)(AHCI::HBACapabilities::PSC)) != 0,
(capabilities & (u32)(AHCI::HBACapabilities::SSC)) != 0,
(capabilities & (u32)(AHCI::HBACapabilities::PMD)) != 0,
(capabilities & (u32)(AHCI::HBACapabilities::FBSS)) != 0,
(capabilities & (u32)(AHCI::HBACapabilities::SPM)) != 0,
(capabilities & (u32)(AHCI::HBACapabilities::SAM)) != 0,
(capabilities & (u32)(AHCI::HBACapabilities::SCLO)) != 0,
(capabilities & (u32)(AHCI::HBACapabilities::SAL)) != 0,
(capabilities & (u32)(AHCI::HBACapabilities::SALP)) != 0,
(capabilities & (u32)(AHCI::HBACapabilities::SSS)) != 0,
(capabilities & (u32)(AHCI::HBACapabilities::SMPS)) != 0,
(capabilities & (u32)(AHCI::HBACapabilities::SSNTF)) != 0,
(capabilities & (u32)(AHCI::HBACapabilities::SNCQ)) != 0,
(capabilities & (u32)(AHCI::HBACapabilities::S64A)) != 0,
(extended_capabilities & (u32)(AHCI::HBACapabilitiesExtended::BOH)) != 0,
(extended_capabilities & (u32)(AHCI::HBACapabilitiesExtended::NVMP)) != 0,
(extended_capabilities & (u32)(AHCI::HBACapabilitiesExtended::APST)) != 0,
(extended_capabilities & (u32)(AHCI::HBACapabilitiesExtended::SDS)) != 0,
(extended_capabilities & (u32)(AHCI::HBACapabilitiesExtended::SADM)) != 0,
(extended_capabilities & (u32)(AHCI::HBACapabilitiesExtended::DESO)) != 0
};
}
UNMAP_AFTER_INIT ErrorOr<Memory::TypedMapping<AHCI::HBA volatile>> AHCIController::map_default_hba_region(PCI::DeviceIdentifier const& pci_device_identifier)
{
return Memory::map_typed_writable<AHCI::HBA volatile>(PhysicalAddress(PCI::get_BAR5(pci_device_identifier)));
}
AHCIController::~AHCIController() = default;
UNMAP_AFTER_INIT ErrorOr<void> AHCIController::initialize_hba(PCI::DeviceIdentifier const& pci_device_identifier)
{
m_hba_mapping = TRY(map_default_hba_region(pci_device_identifier));
m_hba_capabilities = capabilities();
u32 version = hba().control_regs.version;
hba().control_regs.ghc = 0x80000000; // Ensure that HBA knows we are AHCI aware.
PCI::enable_bus_mastering(device_identifier());
TRY(reserve_irqs(1, true));
auto irq = MUST(allocate_irq(0));
enable_global_interrupts();
auto implemented_ports = AHCI::MaskedBitField((u32 volatile&)(hba().control_regs.pi));
m_irq_handler = AHCIInterruptHandler::create(*this, irq, implemented_ports).release_value_but_fixme_should_propagate_errors();
TRY(reset());
dbgln_if(AHCI_DEBUG, "{}: AHCI Controller Version = {:#08x}", device_identifier().address(), version);
dbgln("{}: AHCI command list entries count - {}", device_identifier().address(), m_hba_capabilities.max_command_list_entries_count);
return {};
}
void AHCIController::handle_interrupt_for_port(Badge<AHCIInterruptHandler>, u32 port_index) const
{
auto port = m_ports[port_index];
VERIFY(port);
port->handle_interrupt();
}
void AHCIController::disable_global_interrupts() const
{
hba().control_regs.ghc = hba().control_regs.ghc & 0xfffffffd;
}
void AHCIController::enable_global_interrupts() const
{
hba().control_regs.ghc = hba().control_regs.ghc | (1 << 1);
}
LockRefPtr<StorageDevice> AHCIController::device_by_port(u32 port_index) const
{
SpinlockLocker locker(m_hba_control_lock);
auto port = m_ports[port_index];
if (!port)
return {};
SpinlockLocker port_hard_locker(port->m_hard_lock);
return port->connected_device();
}
LockRefPtr<StorageDevice> AHCIController::device(u32 index) const
{
Vector<NonnullLockRefPtr<StorageDevice>> connected_devices;
u32 pi = hba().control_regs.pi;
u32 bit = bit_scan_forward(pi);
while (bit) {
dbgln_if(AHCI_DEBUG, "Checking implemented port {}, pi {:b}", bit - 1, pi);
pi &= ~(1u << (bit - 1));
auto checked_device = device_by_port(bit - 1);
bit = bit_scan_forward(pi);
if (checked_device.is_null())
continue;
connected_devices.append(checked_device.release_nonnull());
}
dbgln_if(AHCI_DEBUG, "Connected device count: {}, Index: {}", connected_devices.size(), index);
if (index >= connected_devices.size())
return nullptr;
return connected_devices[index];
}
}
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