Fix for Bug 3671 - QEMU GDB stub listens on IPv6-only port on Windows 7
The connection string used by the GDB stub does not specify which
version of the Internet Protocol should be used by the port on
which it listens. On host platforms with IPv6 support, such as
Windows 7, this means that the stub listens on an IPv6-only port.
Since the GDB client uses IPv4, this means that the client cannot
connect to QEMU.
import qemu
class syborg_fb(qemu.devclass):
REG_ID = 0
REG_BASE = 1
REG_HEIGHT = 2
REG_WIDTH = 3
REG_ORIENTATION = 4
REG_BLANK = 5
REG_INT_MASK = 6
REG_INT_CAUSE = 7
REG_BPP = 8
REG_COLOR_ORDER = 9
REG_BYTE_ORDER = 10
REG_PIXEL_ORDER = 11
REG_ROW_PITCH = 12
REG_ENABLED = 13
REG_PALETTE = 0x100
INT_VSYNC = (1 << 0)
INT_BASE_UPDATE = (1 << 1)
def update_irq(self):
self.set_irq_level(0, (self.int_status & self.int_enable) != 0)
def do_update(self):
old_status = self.int_status
if self.need_int:
self.int_status |= self.INT_BASE_UPDATE
self.need_int = False
if self.render.blank == 0:
self.int_status |= self.INT_VSYNC
if self.int_status != old_status:
self.update_irq()
return self.enabled
def create(self):
self.enabled = False
self.int_status = 0
self.int_enable = 0
self.need_int = True
width = self.properties["width"]
height = self.properties["height"]
self.render = qemu.render(self.name, width, height)
self.render.update = self.do_update
def read_reg(self, offset):
offset >>= 2
if offset == self.REG_ID:
return 0xc51d0006
elif offset == self.REG_BASE:
return self.render.base;
elif offset == self.REG_WIDTH:
return self.render.width;
elif offset == self.REG_HEIGHT:
return self.render.height;
elif offset == self.REG_ORIENTATION:
return self.render.orientation;
elif offset == self.REG_BLANK:
return self.render.blank;
elif offset == self.REG_INT_MASK:
return self.int_enable;
elif offset == self.REG_INT_CAUSE:
return self.int_status;
elif offset == self.REG_BPP:
return self.render.bpp;
elif offset == self.REG_COLOR_ORDER:
return self.render.color_order;
elif offset == self.REG_BYTE_ORDER:
return self.render.byte_order;
elif offset == self.REG_PIXEL_ORDER:
return self.render.pixel_order;
elif offset == self.REG_ROW_PITCH:
return self.render.row_pitch;
elif offset == self.REG_ENABLED:
return 1 if self.enabled else 0;
elif (offset >= self.REG_PALETTE) and (offset < self.REG_PALETTE + 256):
return self.render.palette[offset - self.REG_PALETTE];
return 0
def write_reg(self, offset, value):
offset >>= 2
if offset == self.REG_BASE:
self.render.base = value;
self.need_int = True
elif offset == self.REG_WIDTH:
self.render.width = value;
elif offset == self.REG_HEIGHT:
self.render.height = value;
elif offset == self.REG_ORIENTATION:
self.render.orientation = value;
elif offset == self.REG_BLANK:
self.render.blank = value;
elif offset == self.REG_INT_CAUSE:
self.int_status &= ~value;
self.update_irq()
elif offset == self.REG_INT_MASK:
self.int_enable = value & 3;
self.update_irq()
elif offset == self.REG_BPP:
self.render.bpp = value;
elif offset == self.REG_COLOR_ORDER:
self.render.color_order = value;
elif offset == self.REG_BYTE_ORDER:
self.render.byte_order = value;
elif offset == self.REG_PIXEL_ORDER:
self.render.pixel_order = value;
elif offset == self.REG_ROW_PITCH:
self.render.row_pitch = value;
elif offset == self.REG_ENABLED:
self.enabled = value != 0;
elif (offset >= self.REG_PALETTE) and (offset < self.REG_PALETTE + 256):
self.render.palette[offset - self.REG_PALETTE] = value;
def save(self, f):
f.put_u32(1 if self.need_int else 0)
f.put_u32(self.int_status)
f.put_u32(self.int_enable)
f.put_u32(1 if self.enabled else 0)
self.render.put(f)
def load(self, f):
self.need_int = (f.get_u32() != 0)
self.int_status = f.get_u32();
self.int_enable = f.get_u32();
self.enabled = (f.get_u32() != 0)
self.render.get(f)
# Device class properties
regions = [qemu.ioregion(0x1000, readl=read_reg, writel=write_reg)]
irqs = 1
name = "syborg,framebuffer"
properties = {"width":0, "height":0}
qemu.register_device(syborg_fb)