Bananymous
/
banan-os
1
1
Fork 1
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

Kernel: Cleanup and fix xHCI interrupt handling 

Always clear EventHandlerBusy bit and remove unnecessary nesting
This commit is contained in:
Bananymous 2024-11-22 22:19:53 +02:00
parent c1d8790623
commit 480368c878
1 changed files with 75 additions and 78 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

153
kernel/kernel/USB/XHCI/Controller.cpp
View File

@ -463,98 +463,95 @@ namespace Kernel
void XHCIController::handle_irq()
{
auto& primary_interrupter = runtime_regs().irs[0];
primary_interrupter.iman = primary_interrupter.iman | XHCI::IMAN::InterruptPending | XHCI::IMAN::InterruptEnable;
auto& operational = operational_regs();
if (!(operational.usbsts & XHCI::USBSTS::EventInterrupt))
return;
operational.usbsts = XHCI::USBSTS::EventInterrupt;
auto& primary_interrupter = runtime_regs().irs[0];
primary_interrupter.iman = primary_interrupter.iman | XHCI::IMAN::InterruptPending | XHCI::IMAN::InterruptEnable;
if (current_event_trb().cycle == m_event_cycle)
for (;;)
{
for (;;)
auto& trb = current_event_trb();
if (trb.cycle != m_event_cycle)
break;
switch (trb.trb_type)
{
auto& trb = current_event_trb();
if (trb.cycle != m_event_cycle)
case XHCI::TRBType::TransferEvent:
{
dprintln_if(DEBUG_XHCI, "TransferEvent");
const uint32_t slot_id = trb.transfer_event.slot_id;
if (slot_id == 0 || slot_id > m_slots.size() || !m_slots[slot_id - 1])
{
dwarnln("TransferEvent for invalid slot {}", slot_id);
dwarnln("Completion error: {}", +trb.transfer_event.completion_code);
break;
}
m_slots[slot_id - 1]->on_transfer_event(trb);
break;
switch (trb.trb_type)
{
case XHCI::TRBType::TransferEvent:
{
dprintln_if(DEBUG_XHCI, "TransferEvent");
const uint32_t slot_id = trb.transfer_event.slot_id;
if (slot_id == 0 || slot_id > m_slots.size() || !m_slots[slot_id - 1])
{
dwarnln("TransferEvent for invalid slot {}", slot_id);
dwarnln("Completion error: {}", +trb.transfer_event.completion_code);
break;
}
m_slots[slot_id - 1]->on_transfer_event(trb);
break;
}
case XHCI::TRBType::CommandCompletionEvent:
{
dprintln_if(DEBUG_XHCI, "CommandCompletionEvent");
const uint32_t trb_index = (trb.command_completion_event.command_trb_pointer - m_command_ring_region->paddr()) / sizeof(XHCI::TRB);
// NOTE: dword2 is last (and atomic) as that is what send_command is waiting for
auto& completion_trb = const_cast<volatile XHCI::TRB&>(m_command_completions[trb_index]);
completion_trb.raw.dword0 = trb.raw.dword0;
completion_trb.raw.dword1 = trb.raw.dword1;
completion_trb.raw.dword3 = trb.raw.dword3;
__atomic_store_n(&completion_trb.raw.dword2, trb.raw.dword2, __ATOMIC_SEQ_CST);
break;
}
case XHCI::TRBType::PortStatusChangeEvent:
{
dprintln_if(DEBUG_XHCI, "PortStatusChangeEvent");
uint8_t port_id = trb.port_status_chage_event.port_id;
if (port_id > capability_regs().hcsparams1.max_ports)
{
dwarnln("PortStatusChangeEvent on non-existent port {}", port_id);
break;
}
m_port_changed = true;
m_port_thread_blocker.unblock();
break;
}
case XHCI::TRBType::BandwidthRequestEvent:
dwarnln("Unhandled BandwidthRequestEvent");
break;
case XHCI::TRBType::DoorbellEvent:
dwarnln("Unhandled DoorbellEvent");
break;
case XHCI::TRBType::HostControllerEvent:
dwarnln("Unhandled HostControllerEvent");
break;
case XHCI::TRBType::DeviceNotificationEvent:
dwarnln("Unhandled DeviceNotificationEvent");
break;
case XHCI::TRBType::MFINDEXWrapEvent:
dwarnln("Unhandled MFINDEXWrapEvent");
break;
default:
dwarnln("Unrecognized event TRB type {}", +trb.trb_type);
break;
}
m_event_dequeue++;
if (m_event_dequeue >= m_event_ring_trb_count)
case XHCI::TRBType::CommandCompletionEvent:
{
m_event_dequeue = 0;
m_event_cycle = !m_event_cycle;
dprintln_if(DEBUG_XHCI, "CommandCompletionEvent");
const uint32_t trb_index = (trb.command_completion_event.command_trb_pointer - m_command_ring_region->paddr()) / sizeof(XHCI::TRB);
// NOTE: dword2 is last (and atomic) as that is what send_command is waiting for
auto& completion_trb = const_cast<volatile XHCI::TRB&>(m_command_completions[trb_index]);
completion_trb.raw.dword0 = trb.raw.dword0;
completion_trb.raw.dword1 = trb.raw.dword1;
completion_trb.raw.dword3 = trb.raw.dword3;
__atomic_store_n(&completion_trb.raw.dword2, trb.raw.dword2, __ATOMIC_SEQ_CST);
break;
}
case XHCI::TRBType::PortStatusChangeEvent:
{
dprintln_if(DEBUG_XHCI, "PortStatusChangeEvent");
uint8_t port_id = trb.port_status_chage_event.port_id;
if (port_id > capability_regs().hcsparams1.max_ports)
{
dwarnln("PortStatusChangeEvent on non-existent port {}", port_id);
break;
}
m_port_changed = true;
m_port_thread_blocker.unblock();
break;
}
case XHCI::TRBType::BandwidthRequestEvent:
dwarnln("Unhandled BandwidthRequestEvent");
break;
case XHCI::TRBType::DoorbellEvent:
dwarnln("Unhandled DoorbellEvent");
break;
case XHCI::TRBType::HostControllerEvent:
dwarnln("Unhandled HostControllerEvent");
break;
case XHCI::TRBType::DeviceNotificationEvent:
dwarnln("Unhandled DeviceNotificationEvent");
break;
case XHCI::TRBType::MFINDEXWrapEvent:
dwarnln("Unhandled MFINDEXWrapEvent");
break;
default:
dwarnln("Unrecognized event TRB type {}", +trb.trb_type);
break;
}
primary_interrupter.erdp = (m_event_ring_region->paddr() + (m_event_dequeue * sizeof(XHCI::TRB))) | XHCI::ERDP::EventHandlerBusy;
m_event_dequeue++;
if (m_event_dequeue >= m_event_ring_trb_count)
{
m_event_dequeue = 0;
m_event_cycle = !m_event_cycle;
}
}
primary_interrupter.erdp = (m_event_ring_region->paddr() + (m_event_dequeue * sizeof(XHCI::TRB))) | XHCI::ERDP::EventHandlerBusy;
}
volatile XHCI::CapabilityRegs& XHCIController::capability_regs()