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/*
* Copyright (c) 2021, Liav A. <liavalb@hotmail.co.il>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <Kernel/CommandLine.h>
#include <Kernel/Storage/ATA/AHCIPortHandler.h>
namespace Kernel {
NonnullRefPtr<AHCIPortHandler> AHCIPortHandler::create(AHCIController& controller, u8 irq, AHCI::MaskedBitField taken_ports)
{
return adopt_ref(*new AHCIPortHandler(controller, irq, taken_ports));
}
AHCIPortHandler::AHCIPortHandler(AHCIController& controller, u8 irq, AHCI::MaskedBitField taken_ports)
: IRQHandler(irq)
, m_parent_controller(controller)
, m_taken_ports(taken_ports)
, m_pending_ports_interrupts(create_pending_ports_interrupts_bitfield())
{
// FIXME: Use the number of taken ports to determine how many pages we should allocate.
for (size_t index = 0; index < (((size_t)AHCI::Limits::MaxPorts * 512) / PAGE_SIZE); index++) {
m_identify_metadata_pages.append(MM.allocate_supervisor_physical_page().release_value_but_fixme_should_propagate_errors());
}
dbgln_if(AHCI_DEBUG, "AHCI Port Handler: IRQ {}", irq);
// Clear pending interrupts, if there are any!
m_pending_ports_interrupts.set_all();
enable_irq();
if (kernel_command_line().ahci_reset_mode() == AHCIResetMode::Aggressive) {
for (auto index : taken_ports.to_vector()) {
auto port = AHCIPort::create(*this, static_cast<volatile AHCI::PortRegisters&>(controller.hba().port_regs[index]), index);
m_handled_ports.set(index, port);
port->reset();
}
return;
}
for (auto index : taken_ports.to_vector()) {
auto port = AHCIPort::create(*this, static_cast<volatile AHCI::PortRegisters&>(controller.hba().port_regs[index]), index);
m_handled_ports.set(index, port);
port->initialize_without_reset();
}
}
void AHCIPortHandler::enumerate_ports(Function<void(const AHCIPort&)> callback) const
{
for (auto& port : m_handled_ports) {
callback(*port.value);
}
}
RefPtr<AHCIPort> AHCIPortHandler::port_at_index(u32 port_index) const
{
VERIFY(m_taken_ports.is_set_at(port_index));
auto it = m_handled_ports.find(port_index);
if (it == m_handled_ports.end())
return nullptr;
return (*it).value;
}
PhysicalAddress AHCIPortHandler::get_identify_metadata_physical_region(u32 port_index) const
{
dbgln_if(AHCI_DEBUG, "AHCI Port Handler: Get identify metadata physical address of port {} - {}", port_index, (port_index * 512) / PAGE_SIZE);
return m_identify_metadata_pages[(port_index * 512) / PAGE_SIZE].paddr().offset((port_index * 512) % PAGE_SIZE);
}
AHCI::MaskedBitField AHCIPortHandler::create_pending_ports_interrupts_bitfield() const
{
return AHCI::MaskedBitField((volatile u32&)m_parent_controller->hba().control_regs.is, m_taken_ports.bit_mask());
}
AHCI::HBADefinedCapabilities AHCIPortHandler::hba_capabilities() const
{
return m_parent_controller->hba_capabilities();
}
AHCIPortHandler::~AHCIPortHandler() = default;
bool AHCIPortHandler::handle_irq(const RegisterState&)
{
dbgln_if(AHCI_DEBUG, "AHCI Port Handler: IRQ received");
if (m_pending_ports_interrupts.is_zeroed())
return false;
for (auto port_index : m_pending_ports_interrupts.to_vector()) {
auto port = m_handled_ports.get(port_index);
VERIFY(port.has_value());
dbgln_if(AHCI_DEBUG, "AHCI Port Handler: Handling IRQ for port {}", port_index);
port.value()->handle_interrupt();
// We do this to clear the pending interrupt after we handled it.
m_pending_ports_interrupts.set_at(port_index);
}
return true;
}
}
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