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ladybird/Kernel/Storage/AHCIController.cpp
Liav A d431e4cd01 Kernel/Storage: Remove the None option from AHCI reset policy 
This was proved to be a problematic option. I tested this option on
bare metal AHCI controller, and if we didn't reset the controller, the
firmware (SeaBIOS) could leave the controller state not clean, so an
plugged device signature was in place although the specific port had no
plugged device after rebooting.
Therefore, we need to ensure we use the controller in a clean state
always.

In addition to that, the Complete option was renamed to Aggressive, as
it represents better the consequences of choosing this option.
2021-05-29 15:51:52 +02:00

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/*
* Copyright (c) 2021, Liav A. <liavalb@hotmail.co.il>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Atomic.h>
#include <AK/OwnPtr.h>
#include <AK/RefPtr.h>
#include <AK/Types.h>
#include <Kernel/CommandLine.h>
#include <Kernel/Storage/AHCIController.h>
#include <Kernel/Storage/SATADiskDevice.h>
#include <Kernel/VM/MemoryManager.h>
namespace Kernel {
NonnullRefPtr<AHCIController> AHCIController::initialize(PCI::Address address)
{
return adopt_ref(*new AHCIController(address));
}
bool AHCIController::reset()
{
hba().control_regs.ghc = 1;
dbgln_if(AHCI_DEBUG, "{}: AHCI Controller reset", pci_address());
full_memory_barrier();
size_t retry = 0;
while (true) {
if (retry > 1000)
return false;
if (!(hba().control_regs.ghc & 1))
break;
IO::delay(1000);
retry++;
}
// The HBA is locked or hung if we waited more than 1 second!
return true;
}
bool AHCIController::shutdown()
{
TODO();
}
size_t AHCIController::devices_count() const
{
size_t count = 0;
for (auto& port_handler : m_handlers) {
port_handler.enumerate_ports([&](const AHCIPort& port) {
if (port.connected_device())
count++;
});
}
return count;
}
void AHCIController::start_request(const StorageDevice&, AsyncBlockDeviceRequest&)
{
VERIFY_NOT_REACHED();
}
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 static_cast<volatile AHCI::HBA&>(*(volatile AHCI::HBA*)(m_hba_region->vaddr().as_ptr()));
}
AHCIController::AHCIController(PCI::Address address)
: StorageController()
, PCI::DeviceController(address)
, m_hba_region(default_hba_region())
, m_capabilities(capabilities())
{
initialize();
}
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 = 0x{:08x}, Extended Capabilities = 0x{:08x}", pci_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
};
}
NonnullOwnPtr<Region> AHCIController::default_hba_region() const
{
auto region = MM.allocate_kernel_region(PhysicalAddress(PCI::get_BAR5(pci_address())).page_base(), page_round_up(sizeof(AHCI::HBA)), "AHCI HBA", Region::Access::Read | Region::Access::Write);
return region.release_nonnull();
}
AHCIController::~AHCIController()
{
}
void AHCIController::initialize()
{
if (!reset()) {
dmesgln("{}: AHCI controller reset failed", pci_address());
return;
}
dmesgln("{}: AHCI controller reset", pci_address());
dbgln("{}: AHCI command list entries count - {}", pci_address(), hba_capabilities().max_command_list_entries_count);
u32 version = hba().control_regs.version;
dbgln_if(AHCI_DEBUG, "{}: AHCI Controller Version = 0x{:08x}", pci_address(), version);
hba().control_regs.ghc = 0x80000000; // Ensure that HBA knows we are AHCI aware.
PCI::enable_interrupt_line(pci_address());
PCI::enable_bus_mastering(pci_address());
enable_global_interrupts();
m_handlers.append(AHCIPortHandler::create(*this, PCI::get_interrupt_line(pci_address()),
AHCI::MaskedBitField((volatile u32&)(hba().control_regs.pi))));
}
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);
}
RefPtr<StorageDevice> AHCIController::device_by_port(u32 port_index) const
{
for (auto& port_handler : m_handlers) {
if (!port_handler.is_responsible_for_port_index(port_index))
continue;
auto port = port_handler.port_at_index(port_index);
if (!port)
return nullptr;
return port->connected_device();
}
return nullptr;
}
RefPtr<StorageDevice> AHCIController::device(u32 index) const
{
NonnullRefPtrVector<StorageDevice> connected_devices;
for (size_t index = 0; index < capabilities().ports_count; index++) {
auto checked_device = device_by_port(index);
if (checked_device.is_null())
continue;
connected_devices.append(checked_device.release_nonnull());
}
if (index >= connected_devices.size())
return nullptr;
return connected_devices[index];
}
}
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