#!/usr/bin/env python
#coding: utf-8
#
# Usage: run `command script import -r misc/lldb_cruby.py` on LLDB
#
# Test: misc/test_lldb_cruby.rb
#
import lldb
import commands
import os
import shlex
def lldb_init(debugger):
target = debugger.GetSelectedTarget()
global SIZEOF_VALUE
SIZEOF_VALUE = target.FindFirstType("VALUE").GetByteSize()
value_types = []
g = globals()
for enum in target.FindFirstGlobalVariable('ruby_dummy_gdb_enums'):
enum = enum.GetType()
members = enum.GetEnumMembers()
for i in xrange(0, members.GetSize()):
member = members.GetTypeEnumMemberAtIndex(i)
name = member.GetName()
value = member.GetValueAsUnsigned()
g[name] = value
if name.startswith('RUBY_T_'):
value_types.append(name)
g['value_types'] = value_types
def string2cstr(rstring):
"""Returns the pointer to the C-string in the given String object"""
flags = rstring.GetValueForExpressionPath(".basic->flags").unsigned
if flags & RUBY_T_MASK != RUBY_T_STRING:
raise TypeError("not a string")
if flags & RUBY_FL_USER1:
cptr = int(rstring.GetValueForExpressionPath(".as.heap.ptr").value, 0)
clen = int(rstring.GetValueForExpressionPath(".as.heap.len").value, 0)
else:
cptr = int(rstring.GetValueForExpressionPath(".as.ary").value, 0)
clen = (flags & RSTRING_EMBED_LEN_MASK) >> RSTRING_EMBED_LEN_SHIFT
return cptr, clen
def output_string(ctx, rstring):
cptr, clen = string2cstr(rstring)
expr = 'printf("%%.*s", (size_t)%d, (const char*)%d)' % (clen, cptr)
ctx.frame.EvaluateExpression(expr)
def fixnum_p(x):
return x & RUBY_FIXNUM_FLAG != 0
def flonum_p(x):
return (x&RUBY_FLONUM_MASK) == RUBY_FLONUM_FLAG
def lldb_rp(debugger, command, result, internal_dict):
target = debugger.GetSelectedTarget()
process = target.GetProcess()
thread = process.GetSelectedThread()
frame = thread.GetSelectedFrame()
if frame.IsValid():
val = frame.EvaluateExpression(command)
else:
val = target.EvaluateExpression(command)
error = val.GetError()
if error.Fail():
print >> result, error
return
num = val.GetValueAsSigned()
if num == RUBY_Qfalse:
print >> result, 'false'
elif num == RUBY_Qtrue:
print >> result, 'true'
elif num == RUBY_Qnil:
print >> result, 'nil'
elif num == RUBY_Qundef:
print >> result, 'undef'
elif fixnum_p(num):
print >> result, num >> 1
elif flonum_p(num):
debugger.HandleCommand("print rb_float_value(%0#x)" % val.GetValueAsUnsigned())
elif num & RUBY_IMMEDIATE_MASK:
print >> result, 'immediate(%x)' % num
else:
tRBasic = target.FindFirstType("struct RBasic").GetPointerType()
val = val.Cast(tRBasic)
flags = val.GetValueForExpressionPath("->flags").GetValueAsUnsigned()
if (flags & RUBY_FL_PROMOTED) == RUBY_FL_PROMOTED:
print >> result, "[PROMOTED] "
flType = flags & RUBY_T_MASK
if flType == RUBY_T_NONE:
print >> result, 'T_NONE: %s' % val.Dereference()
elif flType == RUBY_T_NIL:
print >> result, 'T_NIL: %s' % val.Dereference()
elif flType == RUBY_T_OBJECT:
tRObject = target.FindFirstType("struct RObject").GetPointerType()
val = val.Cast(tRObject)
print >> result, 'T_OBJECT: %s' % val.Dereference()
elif flType == RUBY_T_STRING:
tRString = target.FindFirstType("struct RString").GetPointerType()
val = val.Cast(tRString)
if flags & RSTRING_NOEMBED:
print >> result, val.GetValueForExpressionPath("->as.heap")
else:
print >> result, val.GetValueForExpressionPath("->as.ary")
elif flType == RUBY_T_ARRAY:
tRArray = target.FindFirstType("struct RArray").GetPointerType()
val = val.Cast(tRArray)
if flags & RUBY_FL_USER1:
len = ((flags & (RUBY_FL_USER3|RUBY_FL_USER4)) >> (RUBY_FL_USHIFT+3))
print >> result, "T_ARRAY: len=%d (embed)" % len
if len == 0:
print >> result, "{(empty)}"
else:
print >> result, val.GetValueForExpressionPath("->as.ary")
else:
len = val.GetValueForExpressionPath("->as.heap.len").GetValueAsSigned()
print >> result, "T_ARRAY: len=%d " % len
#print >> result, val.GetValueForExpressionPath("->as.heap")
if flags & RUBY_FL_USER2:
shared = val.GetValueForExpressionPath("->as.heap.aux.shared").GetValueAsUnsigned()
print >> result, "(shared) shared=%016x " % shared
else:
capa = val.GetValueForExpressionPath("->as.heap.aux.capa").GetValueAsSigned()
print >> result, "(ownership) capa=%d " % capa
if len == 0:
print >> result, "{(empty)}"
else:
debugger.HandleCommand("expression -Z %d -fx -- (const VALUE*)((struct RArray*)%d)->as.heap.ptr" % (len, val.GetValueAsUnsigned()))
debugger.HandleCommand("p (struct RArray *) %0#x" % val.GetValueAsUnsigned())
def count_objects(debugger, command, ctx, result, internal_dict):
objspace = ctx.frame.EvaluateExpression("ruby_current_vm->objspace")
num_pages = objspace.GetValueForExpressionPath(".heap_pages.allocated_pages").unsigned
counts = {}
total = 0
for t in range(0x00, RUBY_T_MASK+1):
counts[t] = 0
for i in range(0, num_pages):
print "\rcounting... %d/%d" % (i, num_pages),
page = objspace.GetValueForExpressionPath('.heap_pages.sorted[%d]' % i)
p = page.GetChildMemberWithName('start')
num_slots = page.GetChildMemberWithName('total_slots').unsigned
for j in range(0, num_slots):
obj = p.GetValueForExpressionPath('[%d]' % j)
flags = obj.GetValueForExpressionPath('.as.basic.flags').unsigned
obj_type = flags & RUBY_T_MASK
counts[obj_type] += 1
total += num_slots
print "\rTOTAL: %d, FREE: %d" % (total, counts[0x00])
for sym in value_types:
print "%s: %d" % (sym, counts[globals()[sym]])
def stack_dump_raw(debugger, command, ctx, result, internal_dict):
ctx.frame.EvaluateExpression("rb_vmdebug_stack_dump_raw_current()")
def dump_node(debugger, command, ctx, result, internal_dict):
args = shlex.split(command)
if not args:
return
node = args[0]
dump = ctx.frame.EvaluateExpression("(struct RString*)rb_parser_dump_tree((NODE*)(%s), 0)" % node)
output_string(ctx, dump)
def __lldb_init_module(debugger, internal_dict):
debugger.HandleCommand("command script add -f lldb_cruby.lldb_rp rp")
debugger.HandleCommand("command script add -f lldb_cruby.count_objects rb_count_objects")
debugger.HandleCommand("command script add -f lldb_cruby.stack_dump_raw SDR")
debugger.HandleCommand("command script add -f lldb_cruby.dump_node dump_node")
lldb_init(debugger)
print "lldb scripts for ruby has been installed."