def new_context_switcher_cmd(name, tracker):
real_name = new_object_name(name, "switcher")
if real_name == None:
print "An object called '%s' already exists." % name
SIM_command_has_problem()
return
else:
name = real_name
try:
tracker = SIM_get_object(tracker)
except:
print "There is no object called '%s'." % tracker
SIM_command_has_problem()
return
try:
tracker.iface.tracker
except:
print "%s is not a tracker." % tracker.name
SIM_command_has_problem()
return
SIM_create_object("context-switcher", name,
[["tracker", tracker]])
if SIM_is_interactive():
print "New context switcher %s created." % name
return (name,)
def new_linux_process_tracker_cmd(name, kernel):
# Choose a name.
real_name = new_object_name(name, "tracker")
if real_name == None:
print "An object called '%s' already exists." % name
SIM_command_has_problem()
return
else:
name = real_name
# Using canned parameters?
if kernel:
if kernel in ptrack_settings_ifc().settings_id_list():
print ("Using parameters suitable for %s."
% ptrack_settings_ifc().describe_settings(kernel))
else:
print "There is no named set of parameters called '%s'." % kernel
SIM_command_has_problem()
return
# Finally, create the tracker.
tracker = SIM_create_object(class_name, name, [])
if kernel:
ptrack_settings_ifc().use_settings(tracker, kernel)
if SIM_is_interactive():
print "New process tracker %s created." % name
return (name,)
def new_linux_process_tracker_cmd(name, kernel):
# Choose a name.
real_name = new_object_name(name, "tracker")
if real_name == None:
print "An object called '%s' already exists." % name
SIM_command_has_problem()
return
else:
name = real_name
# Using canned parameters?
if kernel:
if kernel in ptrack_settings_ifc().settings_id_list():
print("Using parameters suitable for %s." %
ptrack_settings_ifc().describe_settings(kernel))
else:
print "There is no named set of parameters called '%s'." % kernel
SIM_command_has_problem()
return
# Finally, create the tracker.
tracker = SIM_create_object(class_name, name, [])
if kernel:
ptrack_settings_ifc().use_settings(tracker, kernel)
if SIM_is_interactive():
print "New process tracker %s created." % name
return (name, )
def new_uart_sampler_conf_cmd(name,
file_base_name,
sample_period,
sample_rnd_type,
burst_period,
burst_rnd_type,
burst_size,
line_size_lg2,
master):
real_name = new_object_name(name, "sampler-conf")
if real_name == None:
print "An object called '%s' already exists." % name
SIM_command_has_problem()
return
else:
name = real_name
if not sample_rnd_type:
sample_rnd_type = "exp"
if not burst_rnd_type:
burst_rnd_type = "exp"
conf = SIM_create_object("uart-sampler-conf", name, [])
conf.file_base_name = file_base_name
conf.sample_period = sample_period
conf.sample_rnd_type = sample_rnd_type
conf.burst_period = burst_period
conf.burst_rnd_type = burst_rnd_type
conf.burst_size = burst_size
conf.line_size_lg2 = line_size_lg2
conf.master = master
return (conf,)
def new_uart_sampler_conf_cmd(name, file_base_name, sample_period,
sample_rnd_type, burst_period, burst_rnd_type,
burst_size, line_size_lg2, master):
real_name = new_object_name(name, "sampler-conf")
if real_name == None:
print "An object called '%s' already exists." % name
SIM_command_has_problem()
return
else:
name = real_name
if not sample_rnd_type:
sample_rnd_type = "exp"
if not burst_rnd_type:
burst_rnd_type = "exp"
conf = SIM_create_object("uart-sampler-conf", name, [])
conf.file_base_name = file_base_name
conf.sample_period = sample_period
conf.sample_rnd_type = sample_rnd_type
conf.burst_period = burst_period
conf.burst_rnd_type = burst_rnd_type
conf.burst_size = burst_size
conf.line_size_lg2 = line_size_lg2
conf.master = master
return (conf, )
def new_context_switcher_cmd(name, tracker):
real_name = new_object_name(name, "switcher")
if real_name == None:
print "An object called '%s' already exists." % name
SIM_command_has_problem()
return
else:
name = real_name
try:
tracker = SIM_get_object(tracker)
except:
print "There is no object called '%s'." % tracker
SIM_command_has_problem()
return
try:
tracker.iface.tracker
except:
print "%s is not a tracker." % tracker.name
SIM_command_has_problem()
return
SIM_create_object("context-switcher", name,
[["tracker", tracker]])
if SIM_is_interactive():
print "New context switcher %s created." % name
return (name,)
def new_uart_sampler_cmd(name, conf):
real_name = new_object_name(name, "sampler-conf")
if real_name == None:
print "An object called '%s' already exists." % name
SIM_command_has_problem()
return
else:
name = real_name
SIM_create_object("uart-sampler", name, [["conf", conf]])
def new_uart_sampler_cmd(name, conf):
real_name = new_object_name(name, "sampler-conf")
if real_name == None:
print "An object called '%s' already exists." % name
SIM_command_has_problem()
return
else:
name = real_name
SIM_create_object("uart-sampler", name, [["conf", conf]])
def new_cpu_mode_tracker_cmd(name):
real_name = new_object_name(name, "tracker")
if real_name == None:
print "An object called '%s' already exists." % name
SIM_command_has_problem()
return
else:
name = real_name
SIM_create_object(class_name, name, [])
if SIM_is_interactive():
print "New cpu mode tracker %s created." % name
return (name, )
def new_cpu_mode_tracker_cmd(name):
real_name = new_object_name(name, "tracker")
if real_name == None:
print "An object called '%s' already exists." % name
SIM_command_has_problem()
return
else:
name = real_name
SIM_create_object(class_name, name, [])
if SIM_is_interactive():
print "New cpu mode tracker %s created." % name
return (name, )
def new_ppc64_linux_process_tracker_cmd(name, task_struct_offset, pid_offset,
kernel):
# Input validation.
if (task_struct_offset == None) != (pid_offset == None):
print("You must specify none or both of task_struct_offset" +
" and pid_offset.")
return
if task_struct_offset == None and kernel == None:
print("You must specify either kernel, or task_struct_offset" +
" and pid_offset.")
return
if task_struct_offset != None and kernel != None:
print("You cannot specify both kernel and" +
" task_struct_offset/pid_offset.")
return
# Choose a name.
real_name = new_object_name(name, "tracker")
if real_name == None:
print "An object called '%s' already exists." % name
return
else:
name = real_name
# Using canned parameters?
if kernel:
if kernel in ppc64_ptrack_settings_ifc().settings_id_list():
print("Using parameters suitable for %s." %
ppc64_ptrack_settings_ifc().describe_settings(kernel))
else:
print "There is no named set of parameters called '%s'." % kernel
return
# Finally, create the tracker.
tracker = SIM_create_object(class_name, name, [])
if kernel:
ppc64_ptrack_settings_ifc().use_settings(tracker, kernel)
else:
tracker.task_struct_offset_in_paca = task_struct_offset
tracker.pid_offset_in_task_struct = pid_offset
print "New process tracker %s created." % name
print " task_struct_offset %d" % tracker.task_struct_offset_in_paca
print " pid_offset %d" % tracker.pid_offset_in_task_struct
def new_x86_linux_process_tracker_cmd(name, pid_offset,
kernel_stack_size, kernel):
# Input validation.
if (kernel_stack_size == None) != (pid_offset == None):
print ("You must specify none or both of kernel_stack_size"
+ " and pid_offset.")
return
if kernel_stack_size == None and kernel == None:
print ("You must specify either kernel, or kernel_stack_size"
+ " and pid_offset.")
return
if kernel_stack_size != None and kernel != None:
print ("You cannot specify both kernel and"
+ " kernel_stack_size/pid_offset.")
return
# Choose a name.
real_name = new_object_name(name, "tracker")
if real_name == None:
print "An object called '%s' already exists." % name
return
else:
name = real_name
# Using canned parameters?
if kernel:
if kernel in x86_ptrack_settings_ifc().settings_id_list():
print ("Using parameters suitable for %s."
% x86_ptrack_settings_ifc().describe_settings(kernel))
else:
print "There is no named set of parameters called '%s'." % kernel
return
# Finally, create the tracker.
tracker = SIM_create_object(class_name, name, [])
if kernel:
x86_ptrack_settings_ifc().use_settings(tracker, kernel)
else:
tracker.thread_offset = thread_offset
tracker.pid_offset = pid_offset
print "New process tracker %s created." % name
print " kernel_stack_size %d" % tracker.kernel_stack_size
print " pid_offset %d" % tracker.pid_offset
return arch
elif len(archs) == 1:
[arch] = archs
return arch
raise cli.CliError(
'Cannot guess processor architecture; please specify it')
def new_gdb_remote(name, port, cpu, architecture, context):
if not any([cpu, context]):
print "Neither CPU nor context specified; using current processor."
try:
cpu = cli.current_processor()
except Exception, msg:
raise cli.CliError(msg)
name = cli_impl.new_object_name(name, 'gdb')
attrs = [['processor', cpu], ['context_object', context], ['listen', port],
['architecture',
get_arch(architecture, cpu, context)], ['log_level', 2]]
try:
simics.SIM_create_object("gdb-remote", name, attrs)
except LookupError, msg:
print "Failed creating a gdb-remote object: %s" % msg
print "Make sure the gdb-remote module is available."
except Exception, msg:
print "Could not create a gdb-remote object: %s" % msg
def arch_expander(s):
return cli.get_completions(s, get_all_archs())
