Add aarch64-gcc prebuilt.
Change-Id: I028f986d3a62d37c641087a040df1fc41ff1dff2
diff --git a/share/gdb/python/gdb/command/explore.py b/share/gdb/python/gdb/command/explore.py
new file mode 100644
index 0000000..dd77875
--- /dev/null
+++ b/share/gdb/python/gdb/command/explore.py
@@ -0,0 +1,760 @@
+# GDB 'explore' command.
+# Copyright (C) 2012-2013 Free Software Foundation, Inc.
+
+# This program is free software; you can redistribute it and/or modify
+# it under the terms of the GNU General Public License as published by
+# the Free Software Foundation; either version 3 of the License, or
+# (at your option) any later version.
+#
+# This program is distributed in the hope that it will be useful,
+# but WITHOUT ANY WARRANTY; without even the implied warranty of
+# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+# GNU General Public License for more details.
+#
+# You should have received a copy of the GNU General Public License
+# along with this program. If not, see <http://www.gnu.org/licenses/>.
+
+"""Implementation of the GDB 'explore' command using the GDB Python API."""
+
+import gdb
+import sys
+
+if sys.version_info[0] > 2:
+ # Python 3 renamed raw_input to input
+ raw_input = input
+
+class Explorer(object):
+ """Internal class which invokes other explorers."""
+
+ # This map is filled by the Explorer.init_env() function
+ type_code_to_explorer_map = { }
+
+ _SCALAR_TYPE_LIST = (
+ gdb.TYPE_CODE_CHAR,
+ gdb.TYPE_CODE_INT,
+ gdb.TYPE_CODE_BOOL,
+ gdb.TYPE_CODE_FLT,
+ gdb.TYPE_CODE_VOID,
+ gdb.TYPE_CODE_ENUM,
+ )
+
+ @staticmethod
+ def guard_expr(expr):
+ length = len(expr)
+ guard = False
+
+ if expr[0] == '(' and expr[length-1] == ')':
+ pass
+ else:
+ i = 0
+ while i < length:
+ c = expr[i]
+ if (c == '_' or ('a' <= c and c <= 'z') or
+ ('A' <= c and c <= 'Z') or ('0' <= c and c <= '9')):
+ pass
+ else:
+ guard = True
+ break
+ i += 1
+
+ if guard:
+ return "(" + expr + ")"
+ else:
+ return expr
+
+ @staticmethod
+ def explore_expr(expr, value, is_child):
+ """Main function to explore an expression value.
+
+ Arguments:
+ expr: The expression string that is being explored.
+ value: The gdb.Value value of the expression.
+ is_child: Boolean value to indicate if the expression is a child.
+ An expression is a child if it is derived from the main
+ expression entered by the user. For example, if the user
+ entered an expression which evaluates to a struct, then
+ when exploring the fields of the struct, is_child is set
+ to True internally.
+
+ Returns:
+ No return value.
+ """
+ type_code = value.type.code
+ if type_code in Explorer.type_code_to_explorer_map:
+ explorer_class = Explorer.type_code_to_explorer_map[type_code]
+ while explorer_class.explore_expr(expr, value, is_child):
+ pass
+ else:
+ print ("Explorer for type '%s' not yet available.\n" %
+ str(value.type))
+
+ @staticmethod
+ def explore_type(name, datatype, is_child):
+ """Main function to explore a data type.
+
+ Arguments:
+ name: The string representing the path to the data type being
+ explored.
+ datatype: The gdb.Type value of the data type being explored.
+ is_child: Boolean value to indicate if the name is a child.
+ A name is a child if it is derived from the main name
+ entered by the user. For example, if the user entered
+ the name of struct type, then when exploring the fields
+ of the struct, is_child is set to True internally.
+
+ Returns:
+ No return value.
+ """
+ type_code = datatype.code
+ if type_code in Explorer.type_code_to_explorer_map:
+ explorer_class = Explorer.type_code_to_explorer_map[type_code]
+ while explorer_class.explore_type(name, datatype, is_child):
+ pass
+ else:
+ print ("Explorer for type '%s' not yet available.\n" %
+ str(datatype))
+
+ @staticmethod
+ def init_env():
+ """Initializes the Explorer environment.
+ This function should be invoked before starting any exploration. If
+ invoked before an exploration, it need not be invoked for subsequent
+ explorations.
+ """
+ Explorer.type_code_to_explorer_map = {
+ gdb.TYPE_CODE_CHAR : ScalarExplorer,
+ gdb.TYPE_CODE_INT : ScalarExplorer,
+ gdb.TYPE_CODE_BOOL : ScalarExplorer,
+ gdb.TYPE_CODE_FLT : ScalarExplorer,
+ gdb.TYPE_CODE_VOID : ScalarExplorer,
+ gdb.TYPE_CODE_ENUM : ScalarExplorer,
+ gdb.TYPE_CODE_STRUCT : CompoundExplorer,
+ gdb.TYPE_CODE_UNION : CompoundExplorer,
+ gdb.TYPE_CODE_PTR : PointerExplorer,
+ gdb.TYPE_CODE_REF : ReferenceExplorer,
+ gdb.TYPE_CODE_TYPEDEF : TypedefExplorer,
+ gdb.TYPE_CODE_ARRAY : ArrayExplorer
+ }
+
+ @staticmethod
+ def is_scalar_type(type):
+ """Checks whether a type is a scalar type.
+ A type is a scalar type of its type is
+ gdb.TYPE_CODE_CHAR or
+ gdb.TYPE_CODE_INT or
+ gdb.TYPE_CODE_BOOL or
+ gdb.TYPE_CODE_FLT or
+ gdb.TYPE_CODE_VOID or
+ gdb.TYPE_CODE_ENUM.
+
+ Arguments:
+ type: The type to be checked.
+
+ Returns:
+ 'True' if 'type' is a scalar type. 'False' otherwise.
+ """
+ return type.code in Explorer._SCALAR_TYPE_LIST
+
+ @staticmethod
+ def return_to_parent_value():
+ """A utility function which prints that the current exploration session
+ is returning to the parent value. Useful when exploring values.
+ """
+ print ("\nReturning to parent value...\n")
+
+ @staticmethod
+ def return_to_parent_value_prompt():
+ """A utility function which prompts the user to press the 'enter' key
+ so that the exploration session can shift back to the parent value.
+ Useful when exploring values.
+ """
+ raw_input("\nPress enter to return to parent value: ")
+
+ @staticmethod
+ def return_to_enclosing_type():
+ """A utility function which prints that the current exploration session
+ is returning to the enclosing type. Useful when exploring types.
+ """
+ print ("\nReturning to enclosing type...\n")
+
+ @staticmethod
+ def return_to_enclosing_type_prompt():
+ """A utility function which prompts the user to press the 'enter' key
+ so that the exploration session can shift back to the enclosing type.
+ Useful when exploring types.
+ """
+ raw_input("\nPress enter to return to enclosing type: ")
+
+
+class ScalarExplorer(object):
+ """Internal class used to explore scalar values."""
+
+ @staticmethod
+ def explore_expr(expr, value, is_child):
+ """Function to explore scalar values.
+ See Explorer.explore_expr and Explorer.is_scalar_type for more
+ information.
+ """
+ print ("'%s' is a scalar value of type '%s'." %
+ (expr, value.type))
+ print ("%s = %s" % (expr, str(value)))
+
+ if is_child:
+ Explorer.return_to_parent_value_prompt()
+ Explorer.return_to_parent_value()
+
+ return False
+
+ @staticmethod
+ def explore_type(name, datatype, is_child):
+ """Function to explore scalar types.
+ See Explorer.explore_type and Explorer.is_scalar_type for more
+ information.
+ """
+ if datatype.code == gdb.TYPE_CODE_ENUM:
+ if is_child:
+ print ("%s is of an enumerated type '%s'." %
+ (name, str(datatype)))
+ else:
+ print ("'%s' is an enumerated type." % name)
+ else:
+ if is_child:
+ print ("%s is of a scalar type '%s'." %
+ (name, str(datatype)))
+ else:
+ print ("'%s' is a scalar type." % name)
+
+ if is_child:
+ Explorer.return_to_enclosing_type_prompt()
+ Explorer.return_to_enclosing_type()
+
+ return False
+
+
+class PointerExplorer(object):
+ """Internal class used to explore pointer values."""
+
+ @staticmethod
+ def explore_expr(expr, value, is_child):
+ """Function to explore pointer values.
+ See Explorer.explore_expr for more information.
+ """
+ print ("'%s' is a pointer to a value of type '%s'" %
+ (expr, str(value.type.target())))
+ option = raw_input("Continue exploring it as a pointer to a single "
+ "value [y/n]: ")
+ if option == "y":
+ deref_value = None
+ try:
+ deref_value = value.dereference()
+ str(deref_value)
+ except gdb.MemoryError:
+ print ("'%s' a pointer pointing to an invalid memory "
+ "location." % expr)
+ if is_child:
+ Explorer.return_to_parent_value_prompt()
+ return False
+ Explorer.explore_expr("*%s" % Explorer.guard_expr(expr),
+ deref_value, is_child)
+ return False
+
+ option = raw_input("Continue exploring it as a pointer to an "
+ "array [y/n]: ")
+ if option == "y":
+ while True:
+ index = 0
+ try:
+ index = int(raw_input("Enter the index of the element you "
+ "want to explore in '%s': " % expr))
+ except ValueError:
+ break
+ element_expr = "%s[%d]" % (Explorer.guard_expr(expr), index)
+ element = value[index]
+ try:
+ str(element)
+ except gdb.MemoryError:
+ print ("Cannot read value at index %d." % index)
+ continue
+ Explorer.explore_expr(element_expr, element, True)
+ return False
+
+ if is_child:
+ Explorer.return_to_parent_value()
+ return False
+
+ @staticmethod
+ def explore_type(name, datatype, is_child):
+ """Function to explore pointer types.
+ See Explorer.explore_type for more information.
+ """
+ target_type = datatype.target()
+ print ("\n%s is a pointer to a value of type '%s'." %
+ (name, str(target_type)))
+
+ Explorer.explore_type("the pointee type of %s" % name,
+ target_type,
+ is_child)
+ return False
+
+
+class ReferenceExplorer(object):
+ """Internal class used to explore reference (TYPE_CODE_REF) values."""
+
+ @staticmethod
+ def explore_expr(expr, value, is_child):
+ """Function to explore array values.
+ See Explorer.explore_expr for more information.
+ """
+ referenced_value = value.referenced_value()
+ Explorer.explore_expr(expr, referenced_value, is_child)
+ return False
+
+ @staticmethod
+ def explore_type(name, datatype, is_child):
+ """Function to explore pointer types.
+ See Explorer.explore_type for more information.
+ """
+ target_type = datatype.target()
+ Explorer.explore_type(name, target_type, is_child)
+ return False
+
+
+class ArrayExplorer(object):
+ """Internal class used to explore arrays."""
+
+ @staticmethod
+ def explore_expr(expr, value, is_child):
+ """Function to explore array values.
+ See Explorer.explore_expr for more information.
+ """
+ target_type = value.type.target()
+ print ("'%s' is an array of '%s'." % (expr, str(target_type)))
+ index = 0
+ try:
+ index = int(raw_input("Enter the index of the element you want to "
+ "explore in '%s': " % expr))
+ except ValueError:
+ if is_child:
+ Explorer.return_to_parent_value()
+ return False
+
+ element = None
+ try:
+ element = value[index]
+ str(element)
+ except gdb.MemoryError:
+ print ("Cannot read value at index %d." % index)
+ raw_input("Press enter to continue... ")
+ return True
+
+ Explorer.explore_expr("%s[%d]" % (Explorer.guard_expr(expr), index),
+ element, True)
+ return True
+
+ @staticmethod
+ def explore_type(name, datatype, is_child):
+ """Function to explore array types.
+ See Explorer.explore_type for more information.
+ """
+ target_type = datatype.target()
+ print ("%s is an array of '%s'." % (name, str(target_type)))
+
+ Explorer.explore_type("the array element of %s" % name, target_type,
+ is_child)
+ return False
+
+
+class CompoundExplorer(object):
+ """Internal class used to explore struct, classes and unions."""
+
+ @staticmethod
+ def _print_fields(print_list):
+ """Internal function which prints the fields of a struct/class/union.
+ """
+ max_field_name_length = 0
+ for pair in print_list:
+ if max_field_name_length < len(pair[0]):
+ max_field_name_length = len(pair[0])
+
+ for pair in print_list:
+ print (" %*s = %s" % (max_field_name_length, pair[0], pair[1]))
+
+ @staticmethod
+ def _get_real_field_count(fields):
+ real_field_count = 0;
+ for field in fields:
+ if not field.artificial:
+ real_field_count = real_field_count + 1
+
+ return real_field_count
+
+ @staticmethod
+ def explore_expr(expr, value, is_child):
+ """Function to explore structs/classes and union values.
+ See Explorer.explore_expr for more information.
+ """
+ datatype = value.type
+ type_code = datatype.code
+ fields = datatype.fields()
+
+ if type_code == gdb.TYPE_CODE_STRUCT:
+ type_desc = "struct/class"
+ else:
+ type_desc = "union"
+
+ if CompoundExplorer._get_real_field_count(fields) == 0:
+ print ("The value of '%s' is a %s of type '%s' with no fields." %
+ (expr, type_desc, str(value.type)))
+ if is_child:
+ Explorer.return_to_parent_value_prompt()
+ return False
+
+ print ("The value of '%s' is a %s of type '%s' with the following "
+ "fields:\n" % (expr, type_desc, str(value.type)))
+
+ has_explorable_fields = False
+ choice_to_compound_field_map = { }
+ current_choice = 0
+ print_list = [ ]
+ for field in fields:
+ if field.artificial:
+ continue
+ field_full_name = Explorer.guard_expr(expr) + "." + field.name
+ if field.is_base_class:
+ field_value = value.cast(field.type)
+ else:
+ field_value = value[field.name]
+ literal_value = ""
+ if type_code == gdb.TYPE_CODE_UNION:
+ literal_value = ("<Enter %d to explore this field of type "
+ "'%s'>" % (current_choice, str(field.type)))
+ has_explorable_fields = True
+ else:
+ if Explorer.is_scalar_type(field.type):
+ literal_value = ("%s .. (Value of type '%s')" %
+ (str(field_value), str(field.type)))
+ else:
+ if field.is_base_class:
+ field_desc = "base class"
+ else:
+ field_desc = "field"
+ literal_value = ("<Enter %d to explore this %s of type "
+ "'%s'>" %
+ (current_choice, field_desc,
+ str(field.type)))
+ has_explorable_fields = True
+
+ choice_to_compound_field_map[str(current_choice)] = (
+ field_full_name, field_value)
+ current_choice = current_choice + 1
+
+ print_list.append((field.name, literal_value))
+
+ CompoundExplorer._print_fields(print_list)
+ print ("")
+
+ if has_explorable_fields:
+ choice = raw_input("Enter the field number of choice: ")
+ if choice in choice_to_compound_field_map:
+ Explorer.explore_expr(choice_to_compound_field_map[choice][0],
+ choice_to_compound_field_map[choice][1],
+ True)
+ return True
+ else:
+ if is_child:
+ Explorer.return_to_parent_value()
+ else:
+ if is_child:
+ Explorer.return_to_parent_value_prompt()
+
+ return False
+
+ @staticmethod
+ def explore_type(name, datatype, is_child):
+ """Function to explore struct/class and union types.
+ See Explorer.explore_type for more information.
+ """
+ type_code = datatype.code
+ type_desc = ""
+ if type_code == gdb.TYPE_CODE_STRUCT:
+ type_desc = "struct/class"
+ else:
+ type_desc = "union"
+
+ fields = datatype.fields()
+ if CompoundExplorer._get_real_field_count(fields) == 0:
+ if is_child:
+ print ("%s is a %s of type '%s' with no fields." %
+ (name, type_desc, str(datatype)))
+ Explorer.return_to_enclosing_type_prompt()
+ else:
+ print ("'%s' is a %s with no fields." % (name, type_desc))
+ return False
+
+ if is_child:
+ print ("%s is a %s of type '%s' "
+ "with the following fields:\n" %
+ (name, type_desc, str(datatype)))
+ else:
+ print ("'%s' is a %s with the following "
+ "fields:\n" %
+ (name, type_desc))
+
+ has_explorable_fields = False
+ current_choice = 0
+ choice_to_compound_field_map = { }
+ print_list = [ ]
+ for field in fields:
+ if field.artificial:
+ continue
+ if field.is_base_class:
+ field_desc = "base class"
+ else:
+ field_desc = "field"
+ rhs = ("<Enter %d to explore this %s of type '%s'>" %
+ (current_choice, field_desc, str(field.type)))
+ print_list.append((field.name, rhs))
+ choice_to_compound_field_map[str(current_choice)] = (
+ field.name, field.type, field_desc)
+ current_choice = current_choice + 1
+
+ CompoundExplorer._print_fields(print_list)
+ print ("")
+
+ if len(choice_to_compound_field_map) > 0:
+ choice = raw_input("Enter the field number of choice: ")
+ if choice in choice_to_compound_field_map:
+ if is_child:
+ new_name = ("%s '%s' of %s" %
+ (choice_to_compound_field_map[choice][2],
+ choice_to_compound_field_map[choice][0],
+ name))
+ else:
+ new_name = ("%s '%s' of '%s'" %
+ (choice_to_compound_field_map[choice][2],
+ choice_to_compound_field_map[choice][0],
+ name))
+ Explorer.explore_type(new_name,
+ choice_to_compound_field_map[choice][1], True)
+ return True
+ else:
+ if is_child:
+ Explorer.return_to_enclosing_type()
+ else:
+ if is_child:
+ Explorer.return_to_enclosing_type_prompt()
+
+ return False
+
+
+class TypedefExplorer(object):
+ """Internal class used to explore values whose type is a typedef."""
+
+ @staticmethod
+ def explore_expr(expr, value, is_child):
+ """Function to explore typedef values.
+ See Explorer.explore_expr for more information.
+ """
+ actual_type = value.type.strip_typedefs()
+ print ("The value of '%s' is of type '%s' "
+ "which is a typedef of type '%s'" %
+ (expr, str(value.type), str(actual_type)))
+
+ Explorer.explore_expr(expr, value.cast(actual_type), is_child)
+ return False
+
+ @staticmethod
+ def explore_type(name, datatype, is_child):
+ """Function to explore typedef types.
+ See Explorer.explore_type for more information.
+ """
+ actual_type = datatype.strip_typedefs()
+ if is_child:
+ print ("The type of %s is a typedef of type '%s'." %
+ (name, str(actual_type)))
+ else:
+ print ("The type '%s' is a typedef of type '%s'." %
+ (name, str(actual_type)))
+
+ Explorer.explore_type(name, actual_type, is_child)
+ return False
+
+
+class ExploreUtils(object):
+ """Internal class which provides utilities for the main command classes."""
+
+ @staticmethod
+ def check_args(name, arg_str):
+ """Utility to check if adequate number of arguments are passed to an
+ explore command.
+
+ Arguments:
+ name: The name of the explore command.
+ arg_str: The argument string passed to the explore command.
+
+ Returns:
+ True if adequate arguments are passed, false otherwise.
+
+ Raises:
+ gdb.GdbError if adequate arguments are not passed.
+ """
+ if len(arg_str) < 1:
+ raise gdb.GdbError("ERROR: '%s' requires an argument."
+ % name)
+ return False
+ else:
+ return True
+
+ @staticmethod
+ def get_type_from_str(type_str):
+ """A utility function to deduce the gdb.Type value from a string
+ representing the type.
+
+ Arguments:
+ type_str: The type string from which the gdb.Type value should be
+ deduced.
+
+ Returns:
+ The deduced gdb.Type value if possible, None otherwise.
+ """
+ try:
+ # Assume the current language to be C/C++ and make a try.
+ return gdb.parse_and_eval("(%s *)0" % type_str).type.target()
+ except RuntimeError:
+ # If assumption of current language to be C/C++ was wrong, then
+ # lookup the type using the API.
+ try:
+ return gdb.lookup_type(type_str)
+ except RuntimeError:
+ return None
+
+ @staticmethod
+ def get_value_from_str(value_str):
+ """A utility function to deduce the gdb.Value value from a string
+ representing the value.
+
+ Arguments:
+ value_str: The value string from which the gdb.Value value should
+ be deduced.
+
+ Returns:
+ The deduced gdb.Value value if possible, None otherwise.
+ """
+ try:
+ return gdb.parse_and_eval(value_str)
+ except RuntimeError:
+ return None
+
+
+class ExploreCommand(gdb.Command):
+ """Explore a value or a type valid in the current context.
+
+ Usage:
+
+ explore ARG
+
+ - ARG is either a valid expression or a type name.
+ - At any stage of exploration, hit the return key (instead of a
+ choice, if any) to return to the enclosing type or value.
+ """
+
+ def __init__(self):
+ super(ExploreCommand, self).__init__(name = "explore",
+ command_class = gdb.COMMAND_DATA,
+ prefix = True)
+
+ def invoke(self, arg_str, from_tty):
+ if ExploreUtils.check_args("explore", arg_str) == False:
+ return
+
+ # Check if it is a value
+ value = ExploreUtils.get_value_from_str(arg_str)
+ if value is not None:
+ Explorer.explore_expr(arg_str, value, False)
+ return
+
+ # If it is not a value, check if it is a type
+ datatype = ExploreUtils.get_type_from_str(arg_str)
+ if datatype is not None:
+ Explorer.explore_type(arg_str, datatype, False)
+ return
+
+ # If it is neither a value nor a type, raise an error.
+ raise gdb.GdbError(
+ ("'%s' neither evaluates to a value nor is a type "
+ "in the current context." %
+ arg_str))
+
+
+class ExploreValueCommand(gdb.Command):
+ """Explore value of an expression valid in the current context.
+
+ Usage:
+
+ explore value ARG
+
+ - ARG is a valid expression.
+ - At any stage of exploration, hit the return key (instead of a
+ choice, if any) to return to the enclosing value.
+ """
+
+ def __init__(self):
+ super(ExploreValueCommand, self).__init__(
+ name = "explore value", command_class = gdb.COMMAND_DATA)
+
+ def invoke(self, arg_str, from_tty):
+ if ExploreUtils.check_args("explore value", arg_str) == False:
+ return
+
+ value = ExploreUtils.get_value_from_str(arg_str)
+ if value is None:
+ raise gdb.GdbError(
+ (" '%s' does not evaluate to a value in the current "
+ "context." %
+ arg_str))
+ return
+
+ Explorer.explore_expr(arg_str, value, False)
+
+
+class ExploreTypeCommand(gdb.Command):
+ """Explore a type or the type of an expression valid in the current
+ context.
+
+ Usage:
+
+ explore type ARG
+
+ - ARG is a valid expression or a type name.
+ - At any stage of exploration, hit the return key (instead of a
+ choice, if any) to return to the enclosing type.
+ """
+
+ def __init__(self):
+ super(ExploreTypeCommand, self).__init__(
+ name = "explore type", command_class = gdb.COMMAND_DATA)
+
+ def invoke(self, arg_str, from_tty):
+ if ExploreUtils.check_args("explore type", arg_str) == False:
+ return
+
+ datatype = ExploreUtils.get_type_from_str(arg_str)
+ if datatype is not None:
+ Explorer.explore_type(arg_str, datatype, False)
+ return
+
+ value = ExploreUtils.get_value_from_str(arg_str)
+ if value is not None:
+ print ("'%s' is of type '%s'." % (arg_str, str(value.type)))
+ Explorer.explore_type(str(value.type), value.type, False)
+ return
+
+ raise gdb.GdbError(("'%s' is not a type or value in the current "
+ "context." % arg_str))
+
+
+Explorer.init_env()
+
+ExploreCommand()
+ExploreValueCommand()
+ExploreTypeCommand()