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gerrit.openbmc.org / openbmc / bmcweb / 2ae600964780d469058a336eb38e9cfa30d41351 / . / include / web_kvm.hpp
blob: 747a137b8728e2768de9c70bda1136f7c3f70888 [file] [log] [blame]
#include <crow/app.h>
#include <ast_jpeg_decoder.hpp>
#include <ast_video_puller.hpp>
#include <boost/endian/arithmetic.hpp>
#include <string>
namespace crow
{
namespace kvm
{
static const std::string rfb33VersionString = "RFB 003.003\n";
static const std::string rfb37VersionString = "RFB 003.007\n";
static const std::string rfb38VersionString = "RFB 003.008\n";
enum class RfbAuthScheme : uint8_t
{
connection_failed = 0,
no_authentication = 1,
vnc_authentication = 2
};
struct PixelFormatStruct
{
boost::endian::big_uint8_t bitsPerPixel;
boost::endian::big_uint8_t depth;
boost::endian::big_uint8_t isBigEndian;
boost::endian::big_uint8_t isTrueColor;
boost::endian::big_uint16_t redMax;
boost::endian::big_uint16_t greenMax;
boost::endian::big_uint16_t blueMax;
boost::endian::big_uint8_t redShift;
boost::endian::big_uint8_t greenShift;
boost::endian::big_uint8_t blueShift;
boost::endian::big_uint8_t pad1;
boost::endian::big_uint8_t pad2;
boost::endian::big_uint8_t pad3;
};
struct ServerInitializationMsg
{
boost::endian::big_uint16_t framebufferWidth;
boost::endian::big_uint16_t framebufferHeight;
PixelFormatStruct pixelFormat;
boost::endian::big_uint32_t nameLength;
};
enum class client_to_server_msg_type : uint8_t
{
set_pixel_format = 0,
fix_color_map_entries = 1,
set_encodings = 2,
framebuffer_update_request = 3,
key_event = 4,
pointer_event = 5,
client_cut_text = 6
};
enum class server_to_client_message_type : uint8_t
{
framebuffer_update = 0,
set_color_map_entries = 1,
bell_message = 2,
server_cut_text = 3
};
struct SetPixelFormatMsg
{
boost::endian::big_uint8_t pad1;
boost::endian::big_uint8_t pad2;
boost::endian::big_uint8_t pad3;
PixelFormatStruct pixelFormat;
};
struct FrameBufferUpdateReq
{
boost::endian::big_uint8_t incremental;
boost::endian::big_uint16_t xPosition;
boost::endian::big_uint16_t yPosition;
boost::endian::big_uint16_t width;
boost::endian::big_uint16_t height;
};
struct KeyEventMsg
{
boost::endian::big_uint8_t downFlag;
boost::endian::big_uint8_t pad1;
boost::endian::big_uint8_t pad2;
boost::endian::big_uint32_t key;
};
struct PointerEventMsg
{
boost::endian::big_uint8_t buttonMask;
boost::endian::big_uint16_t xPosition;
boost::endian::big_uint16_t yPosition;
};
struct ClientCutTextMsg
{
std::vector<uint8_t> data;
};
enum class encoding_type : uint32_t
{
raw = 0x00,
copy_rectangle = 0x01,
rising_rectangle = 0x02,
corre = 0x04,
hextile = 0x05,
zlib = 0x06,
tight = 0x07,
zlibhex = 0x08,
ultra = 0x09,
zrle = 0x10,
zywrle = 0x011,
cache_enable = 0xFFFF0001,
xor_enable = 0xFFFF0006,
server_state_ultranvc = 0xFFFF8000,
enable_keepAlive = 0xFFFF8001,
enableftp_protocol_version = 0xFFFF8002,
tight_compress_level_0 = 0xFFFFFF00,
tight_compress_level_9 = 0xFFFFFF09,
x_cursor = 0xFFFFFF10,
rich_cursor = 0xFFFFFF11,
pointer_pos = 0xFFFFFF18,
last_rect = 0xFFFFFF20,
new_framebuffer_size = 0xFFFFFF21,
tight_quality_level_0 = 0xFFFFFFE0,
tight_quality_level_9 = 0xFFFFFFE9
};
struct FramebufferRectangle
{
boost::endian::big_uint16_t x{};
boost::endian::big_uint16_t y{};
boost::endian::big_uint16_t width{};
boost::endian::big_uint16_t height{};
boost::endian::big_uint32_t encoding{};
std::vector<uint8_t> data;
};
struct FramebufferUpdateMsg
{
boost::endian::big_uint8_t messageType{};
std::vector<FramebufferRectangle> rectangles;
};
inline std::string serialize(const FramebufferUpdateMsg& msg)
{
// calculate the size of the needed vector for serialization
size_t vectorSize = 4;
for (const auto& rect : msg.rectangles)
{
vectorSize += 12 + rect.data.size();
}
std::string serialized(vectorSize, 0);
size_t i = 0;
serialized[i++] = static_cast<char>(
server_to_client_message_type::framebuffer_update); // Type
serialized[i++] = 0; // Pad byte
boost::endian::big_uint16_t numberOfRectangles = msg.rectangles.size();
std::memcpy(&serialized[i], &numberOfRectangles,
sizeof(numberOfRectangles));
i += sizeof(numberOfRectangles);
for (const auto& rect : msg.rectangles)
{
// copy the first part of the struct
size_t bufferSize =
sizeof(FramebufferRectangle) - sizeof(std::vector<uint8_t>);
std::memcpy(&serialized[i], &rect, bufferSize);
i += bufferSize;
std::memcpy(&serialized[i], rect.data.data(), rect.data.size());
i += rect.data.size();
}
return serialized;
}
enum class VncState
{
UNSTARTED,
AWAITING_CLIENT_VERSION,
AWAITING_CLIENT_AUTH_METHOD,
AWAITING_CLIENT_INIT_msg,
MAIN_LOOP
};
class ConnectionMetadata
{
public:
ConnectionMetadata(){};
VncState vncState{VncState::UNSTARTED};
};
using meta_list = std::vector<ConnectionMetadata>;
meta_list connectionStates(10);
ConnectionMetadata meta;
template <typename... Middlewares> void requestRoutes(Crow<Middlewares...>& app)
{
BMCWEB_ROUTE(app, "/kvmws")
.websocket()
.onopen([&](crow::websocket::Connection& conn) {
if (meta.vncState == VncState::UNSTARTED)
{
meta.vncState = VncState::AWAITING_CLIENT_VERSION;
conn.sendBinary(rfb38VersionString);
}
else
{ // SHould never happen
conn.close();
}
})
.onclose(
[&](crow::websocket::Connection& conn, const std::string& reason) {
meta.vncState = VncState::UNSTARTED;
})
.onmessage([&](crow::websocket::Connection& conn,
const std::string& data, bool is_binary) {
switch (meta.vncState)
{
case VncState::AWAITING_CLIENT_VERSION:
{
std::cout << "Client sent: " << data;
if (data == rfb38VersionString ||
data == rfb37VersionString)
{
std::string authTypes{
1, (uint8_t)RfbAuthScheme::no_authentication};
conn.sendBinary(authTypes);
meta.vncState = VncState::AWAITING_CLIENT_AUTH_METHOD;
}
else if (data == rfb33VersionString)
{
// TODO(ed) Support older protocols
meta.vncState = VncState::UNSTARTED;
conn.close();
}
else
{
// TODO(ed) Support older protocols
meta.vncState = VncState::UNSTARTED;
conn.close();
}
}
break;
case VncState::AWAITING_CLIENT_AUTH_METHOD:
{
std::string securityResult{{0, 0, 0, 0}};
if (data[0] == (uint8_t)RfbAuthScheme::no_authentication)
{
meta.vncState = VncState::AWAITING_CLIENT_INIT_msg;
}
else
{
// Mark auth as failed
securityResult[3] = 1;
meta.vncState = VncState::UNSTARTED;
}
conn.sendBinary(securityResult);
}
break;
case VncState::AWAITING_CLIENT_INIT_msg:
{
// Now send the server initialization
ServerInitializationMsg serverInitMsg{};
serverInitMsg.framebufferWidth = 800;
serverInitMsg.framebufferHeight = 600;
serverInitMsg.pixelFormat.bitsPerPixel = 32;
serverInitMsg.pixelFormat.isBigEndian = 0;
serverInitMsg.pixelFormat.isTrueColor = 1;
serverInitMsg.pixelFormat.redMax = 255;
serverInitMsg.pixelFormat.greenMax = 255;
serverInitMsg.pixelFormat.blueMax = 255;
serverInitMsg.pixelFormat.redShift = 16;
serverInitMsg.pixelFormat.greenShift = 8;
serverInitMsg.pixelFormat.blueShift = 0;
serverInitMsg.nameLength = 0;
std::cout << "size: " << sizeof(serverInitMsg);
// TODO(ed) this is ugly. Crow should really have a span
// type interface to avoid the copy, but alas, today it does
// not.
std::string s(reinterpret_cast<char*>(&serverInitMsg),
sizeof(serverInitMsg));
std::cout << "s.size() " << s.size();
conn.sendBinary(s);
meta.vncState = VncState::MAIN_LOOP;
}
break;
case VncState::MAIN_LOOP:
{
if (data.size() >= sizeof(client_to_server_msg_type))
{
auto type =
static_cast<client_to_server_msg_type>(data[0]);
std::cout << "Received client message type "
<< static_cast<std::size_t>(type) << "\n";
switch (type)
{
case client_to_server_msg_type::set_pixel_format:
{
}
break;
case client_to_server_msg_type::
fix_color_map_entries:
{
}
break;
case client_to_server_msg_type::set_encodings:
{
}
break;
case client_to_server_msg_type::
framebuffer_update_request:
{
// Make sure the buffer is long enough to handle
// what we're about to do
if (data.size() >=
sizeof(FrameBufferUpdateReq) +
sizeof(client_to_server_msg_type))
{
auto msg = reinterpret_cast<
const FrameBufferUpdateReq*>(
data.data() + // NOLINT
sizeof(client_to_server_msg_type));
// TODO(ed) find a better way to do this
// deserialization
// Todo(ed) lifecycle of the video puller
// and decoder should be with the websocket,
// not recreated every time
ast_video::SimpleVideoPuller p;
p.initialize();
auto out = p.readVideo();
ast_video::AstJpegDecoder d;
d.decode(out.buffer, out.width, out.height,
out.mode, out.ySelector,
out.uvSelector);
FramebufferUpdateMsg bufferUpdateMsg;
// If the viewer is requesting a full
// update, force write of all pixels
FramebufferRectangle thisRect;
thisRect.x = msg->xPosition;
thisRect.y = msg->yPosition;
thisRect.width = out.width;
thisRect.height = out.height;
thisRect.encoding = static_cast<uint8_t>(
encoding_type::raw);
std::cout << "Encoding is "
<< thisRect.encoding;
thisRect.data.reserve(
static_cast<std::size_t>(
thisRect.width) *
static_cast<std::size_t>(
thisRect.height) *
4);
std::cout << "Width " << out.width
<< " Height " << out.height;
for (int i = 0; i < out.width * out.height;
i++)
{
auto& pixel = d.outBuffer[i];
thisRect.data.push_back(pixel.b);
thisRect.data.push_back(pixel.g);
thisRect.data.push_back(pixel.r);
thisRect.data.push_back(0);
}
bufferUpdateMsg.rectangles.push_back(
std::move(thisRect));
auto serialized =
serialize(bufferUpdateMsg);
conn.sendBinary(serialized);
} // TODO(Ed) handle error
}
break;
case client_to_server_msg_type::key_event:
{
}
break;
case client_to_server_msg_type::pointer_event:
{
}
break;
case client_to_server_msg_type::client_cut_text:
{
}
break;
default:
break;
}
}
}
break;
case VncState::UNSTARTED:
// Error? TODO
break;
}
});
}
} // namespace kvm
} // namespace crow