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symbian-qemu-0.9.1-12/qemu-symbian-svp/plugins/syborg_timer.py
author Gareth Stockwell <gareth.stockwell@accenture.com>
Mon, 06 Sep 2010 16:25:43 +0100
changeset 107 3bc1a978be44
parent 1 2fb8b9db1c86
permissions -rw-r--r--
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_timer(qemu.devclass):
  REG_ID            = 0
  REG_RUNNING       = 1
  REG_ONESHOT       = 2
  REG_LIMIT         = 3
  REG_VALUE         = 4
  REG_INT_ENABLE    = 5
  REG_INT_STATUS    = 6
  REG_FREQ          = 7

  def update(self):
    self.set_irq_level(0, (self.int_status & self.int_enable) != 0)

  def timer_tick(self):
    self.int_status |= 1
    if (self.oneshot):
      self.running = False
    self.update()

  def create(self):
    self.freq = self.properties["frequency"]
    if self.freq == 0:
      raise ValueError, "Zero/unset frequency"
    self.timer = qemu.ptimer(self.timer_tick, self.freq)
    self.running = False
    self.oneshot = False
    self.int_status = 0
    self.int_enable = 0
    self.limit = 0

  def read_reg(self, offset):
    offset >>= 2
    if offset == self.REG_ID:
      return 0xc51d0003
    elif offset == self.REG_RUNNING:
      return 1 if self.running else 0
    elif offset == self.REG_ONESHOT:
      return 1 if self.oneshot else 0
    elif offset == self.REG_LIMIT:
      return self.limit
    elif offset == self.REG_VALUE:
      return self.timer.count
    elif offset == self.REG_INT_ENABLE:
      return self.int_enable
    elif offset == self.REG_INT_STATUS:
      return self.int_status
    elif offset == self.REG_FREQ:
      return self.freq
    return 0

  def write_reg(self, offset, value):
    offset >>= 2
    if offset == self.REG_RUNNING:
      if self.running != (value != 0):
        self.running = (value != 0)
        if self.running:
          self.timer.run(self.oneshot)
        else:
          self.timer.stop()
    elif offset == self.REG_ONESHOT:
      if self.running:
        self.timer.stop()
      self.oneshot = (value != 0)
      if self.running:
        self.timer.run(self.oneshot);
    elif offset == self.REG_LIMIT:
      self.limit = value
      self.timer.set_limit(value, True)
    elif offset == self.REG_VALUE:
      self.timer.count = value
    elif offset == self.REG_INT_ENABLE:
      self.int_enable = value & 1
      self.update()
    elif offset == self.REG_INT_STATUS:
      self.int_status &= ~value
      self.update()

  def save(self, f):
    f.put_u32(self.running)
    f.put_u32(self.oneshot)
    f.put_u32(self.limit)
    f.put_u32(self.int_status)
    f.put_u32(self.int_enable)
    self.timer.put(f)

  def load(self, f):
    self.running = (f.get_u32() != 0)
    self.oneshot = (f.get_u32() != 0)
    self.limit = f.get_u32()
    self.int_status = f.get_u32()
    self.int_enable = f.get_u32()
    self.timer.get(f)

  # Device class properties
  regions = [qemu.ioregion(0x1000, readl=read_reg, writel=write_reg)]
  irqs = 1
  name = "syborg,timer"
  properties = {"frequency":0}

qemu.register_device(syborg_timer)
MCL/sf/adapt/qemu