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/*
* Copyright (c) 2021, the SerenityOS developers.
* Copyright (c) 2021, Kyle Pereira <hey@xylepereira.me>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <Kernel/Bus/VirtIO/Console.h>
#include <Kernel/Devices/DeviceManagement.h>
#include <Kernel/Sections.h>
#include <Kernel/WorkQueue.h>
namespace Kernel::VirtIO {
unsigned Console::next_device_id = 0;
UNMAP_AFTER_INIT NonnullRefPtr<Console> Console::must_create(PCI::DeviceIdentifier const& pci_device_identifier)
{
return adopt_ref_if_nonnull(new Console(pci_device_identifier)).release_nonnull();
}
UNMAP_AFTER_INIT void Console::initialize()
{
Device::initialize();
if (auto const* cfg = get_config(ConfigurationType::Device)) {
bool success = negotiate_features([&](u64 supported_features) {
u64 negotiated = 0;
if (is_feature_set(supported_features, VIRTIO_CONSOLE_F_SIZE))
dbgln("VirtIO::Console: Console size is not yet supported!");
if (is_feature_set(supported_features, VIRTIO_CONSOLE_F_MULTIPORT))
negotiated |= VIRTIO_CONSOLE_F_MULTIPORT;
return negotiated;
});
if (success) {
u32 max_nr_ports = 0;
u16 cols = 0, rows = 0;
read_config_atomic([&]() {
if (is_feature_accepted(VIRTIO_CONSOLE_F_SIZE)) {
cols = config_read16(*cfg, 0x0);
rows = config_read16(*cfg, 0x2);
}
if (is_feature_accepted(VIRTIO_CONSOLE_F_MULTIPORT)) {
max_nr_ports = config_read32(*cfg, 0x4);
m_ports.resize(max_nr_ports);
}
});
dbgln("VirtIO::Console: cols: {}, rows: {}, max nr ports {}", cols, rows, max_nr_ports);
// Base receiveq/transmitq for port0 + optional control queues and 2 per every additional port
success = setup_queues(2 + max_nr_ports > 0 ? 2 + 2 * max_nr_ports : 0);
}
if (success) {
finish_init();
if (is_feature_accepted(VIRTIO_CONSOLE_F_MULTIPORT)) {
setup_multiport();
} else {
auto port = MUST(DeviceManagement::the().try_create_device<VirtIO::ConsolePort>(0u, *this));
port->init_receive_buffer({});
m_ports.append(port);
}
}
}
}
UNMAP_AFTER_INIT Console::Console(PCI::DeviceIdentifier const& pci_device_identifier)
: VirtIO::Device(pci_device_identifier)
, m_device_id(next_device_id++)
{
}
bool Console::handle_device_config_change()
{
dbgln("VirtIO::Console: Handle device config change");
return true;
}
void Console::handle_queue_update(u16 queue_index)
{
dbgln_if(VIRTIO_DEBUG, "VirtIO::Console: Handle queue update {}", queue_index);
if (queue_index == CONTROL_RECEIVEQ) {
SpinlockLocker ringbuffer_lock(m_control_receive_buffer->lock());
auto& queue = get_queue(CONTROL_RECEIVEQ);
SpinlockLocker queue_lock(queue.lock());
size_t used;
QueueChain popped_chain = queue.pop_used_buffer_chain(used);
while (!popped_chain.is_empty()) {
popped_chain.for_each([&](auto addr, auto) {
auto offset = addr.as_ptr() - m_control_receive_buffer->start_of_region().as_ptr();
auto* message = reinterpret_cast<ControlMessage*>(m_control_receive_buffer->vaddr().offset(offset).as_ptr());
process_control_message(*message);
});
supply_chain_and_notify(CONTROL_RECEIVEQ, popped_chain);
popped_chain = queue.pop_used_buffer_chain(used);
}
} else if (queue_index == CONTROL_TRANSMITQ) {
SpinlockLocker ringbuffer_lock(m_control_transmit_buffer->lock());
auto& queue = get_queue(CONTROL_TRANSMITQ);
SpinlockLocker queue_lock(queue.lock());
size_t used;
QueueChain popped_chain = queue.pop_used_buffer_chain(used);
auto number_of_messages = 0;
do {
popped_chain.for_each([this](PhysicalAddress address, size_t length) {
m_control_transmit_buffer->reclaim_space(address, length);
});
popped_chain.release_buffer_slots_to_queue();
popped_chain = queue.pop_used_buffer_chain(used);
number_of_messages++;
} while (!popped_chain.is_empty());
m_control_wait_queue.wake_n(number_of_messages);
} else {
u32 port_index = queue_index < 2 ? 0 : (queue_index - 2) / 2;
if (port_index >= m_ports.size() || !m_ports.at(port_index)) {
dbgln("Invalid queue_index {}", queue_index);
return;
}
m_ports.at(port_index)->handle_queue_update({}, queue_index);
}
}
void Console::setup_multiport()
{
m_control_receive_buffer = Memory::RingBuffer::try_create("VirtIOConsole control receive queue"sv, CONTROL_BUFFER_SIZE).release_value_but_fixme_should_propagate_errors();
m_control_transmit_buffer = Memory::RingBuffer::try_create("VirtIOConsole control transmit queue"sv, CONTROL_BUFFER_SIZE).release_value_but_fixme_should_propagate_errors();
auto& queue = get_queue(CONTROL_RECEIVEQ);
SpinlockLocker queue_lock(queue.lock());
QueueChain chain(queue);
auto offset = 0ul;
while (offset < CONTROL_BUFFER_SIZE) {
auto buffer_start = m_control_receive_buffer->start_of_region().offset(offset);
auto did_add_buffer = chain.add_buffer_to_chain(buffer_start, CONTROL_MESSAGE_SIZE, BufferType::DeviceWritable);
VERIFY(did_add_buffer);
offset += CONTROL_MESSAGE_SIZE;
supply_chain_and_notify(CONTROL_RECEIVEQ, chain);
}
ControlMessage ready_event {
.id = 0, // Unused
.event = (u16)ControlEvent::DeviceReady,
.value = (u16)ControlMessage::Status::Success
};
write_control_message(ready_event);
}
void Console::process_control_message(ControlMessage message)
{
switch (message.event) {
case (u16)ControlEvent::DeviceAdd: {
g_io_work->queue([message, this]() -> void {
u32 id = message.id;
if (id >= m_ports.size()) {
dbgln("Device provided an invalid port number {}. max_nr_ports: {}", id, m_ports.size());
return;
}
if (!m_ports.at(id).is_null()) {
dbgln("Device tried to add port {} which was already added!", id);
return;
}
m_ports.at(id) = MUST(DeviceManagement::the().try_create_device<VirtIO::ConsolePort>(id, *this));
ControlMessage ready_event {
.id = static_cast<u32>(id),
.event = (u16)ControlEvent::PortReady,
.value = (u16)ControlMessage::Status::Success
};
write_control_message(ready_event);
});
break;
}
case (u16)ControlEvent::ConsolePort:
case (u16)ControlEvent::PortOpen: {
if (message.id >= m_ports.size()) {
dbgln("Device provided an invalid port number {}. max_nr_ports: {}", message.id, m_ports.size());
return;
}
if (m_ports.at(message.id).is_null()) {
dbgln("Device tried to open port {} which was not added!", message.id);
return;
}
if (message.value == (u16)ControlMessage::PortStatus::Open) {
auto is_open = m_ports.at(message.id)->is_open();
if (!is_open) {
m_ports.at(message.id)->set_open({}, true);
send_open_control_message(message.id, true);
}
} else if (message.value == (u16)ControlMessage::PortStatus::Close) {
m_ports.at(message.id)->set_open({}, false);
} else {
dbgln("Device specified invalid value {}. Must be 0 or 1.", message.value);
}
break;
}
default:
dbgln("Unhandled message event {}!", message.event);
}
}
void Console::write_control_message(ControlMessage message)
{
SpinlockLocker ringbuffer_lock(m_control_transmit_buffer->lock());
PhysicalAddress start_of_chunk;
size_t length_of_chunk;
auto data = UserOrKernelBuffer::for_kernel_buffer((u8*)&message);
while (!m_control_transmit_buffer->copy_data_in(data, 0, sizeof(message), start_of_chunk, length_of_chunk)) {
ringbuffer_lock.unlock();
m_control_wait_queue.wait_forever();
ringbuffer_lock.lock();
}
auto& queue = get_queue(CONTROL_TRANSMITQ);
SpinlockLocker queue_lock(queue.lock());
QueueChain chain(queue);
bool did_add_buffer = chain.add_buffer_to_chain(start_of_chunk, length_of_chunk, BufferType::DeviceReadable);
VERIFY(did_add_buffer);
supply_chain_and_notify(CONTROL_TRANSMITQ, chain);
}
void Console::send_open_control_message(unsigned port_number, bool open)
{
ControlMessage port_open {
.id = static_cast<u32>(port_number),
.event = (u16)ControlEvent::PortOpen,
.value = open
};
write_control_message(port_open);
}
}
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