rubyx/lib/risc/text_writer.rb

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module Risc
# To create a binary, we need a so called Text element. Bad name for what is the code
#
# Binary code is already created by the Machine (by translating risc to arm to binary)
#
# This class serves to write all the objects of the linker (wich also contain the code)
# into one stream or binary text object. This is then written to an ELF text section.
#
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# A word about positions: The c world has a thing called position independent code, and
# baically we follw that idea. Code (ie jumps and constant loads) are all relative.
# But we have pointers. In C the linker takes care of bending those, we have to
# do that ourselves, in write_ref. That's why we need the load adddess and basically
# we just add it to pointers.
class TextWriter
include Util::Logging
log_level :info
def initialize(linker)
@linker = linker
raise "may not me nil" if linker.nil?
end
# objects must be written in same order as positioned by the linker, namely
# - intial jump
# - all objects
# - all BinaryCode
def write_as_string
@stream = StringIO.new
write_init(@linker.cpu_init)
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write_debug
write_objects
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write_code
log.debug "Assembled 0x#{stream_position.to_s(16)} bytes"
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return @stream.string
end
def sorted_objects
@linker.object_positions.keys.sort do |left , right|
Position.get(left).at <=> Position.get(right).at
end
end
# debugging loop to write out positions (in debug)
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def write_debug
sorted_objects.each do |objekt|
next if objekt.is_a?(Risc::Label)
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log.debug "Linked #{objekt.class}:0x#{objekt.object_id.to_s(16)} at #{Position.get(objekt)} / 0x#{objekt.padded_length.to_s(16)}"
end
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end
# Write all the objects in the order that they have been positioed
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def write_objects
sorted_objects.each do |objekt|
next unless Position.is_object(objekt)
write_any( objekt )
end
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end
# Write the BinaryCode objects of all methods to stream.
# Really like any other object, it's just about the ordering
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def write_code
@linker.assemblers.each do |asm|
asm.callable.each_binary do |code|
write_any(code)
end
end
end
# Write any object just logs a bit and passes to write_any_out
def write_any( obj )
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write_any_log( obj , "Write")
if stream_position != Position.get(obj).at
raise "Write #{obj.class}:0x#{obj.object_id.to_s(16)} at 0x#{stream_position.to_s(16)} not #{Position.get(obj)}"
end
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write_any_out(obj)
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write_any_log( obj , "Wrote")
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Position.get(obj)
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end
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def write_any_log( obj , at)
log.debug "#{at} #{obj.class}:0x#{obj.object_id.to_s(16)} at stream 0x#{stream_position.to_s(16)} pos:#{Position.get(obj)} , len:0x#{obj.padded_length.to_s(16)}"
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end
# Most objects are the same and get passed to write_object
# But Strings and BinaryCode write out binary, so they have different methods (for now)
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def write_any_out(obj)
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case obj
when Parfait::Word, Symbol
write_String obj
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when Parfait::BinaryCode
write_BinaryCode( obj )
when Parfait::ReturnAddress
write_return_address( obj )
when Parfait::Integer
write_integer( obj )
when Parfait::Data4
write_data4( obj )
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else
write_object( obj )
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end
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end
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# write type of the instance, and the variables that are passed
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# variables ar values, ie int or refs. For refs the object needs to save the object first
def write_object( object )
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obj_written = write_object_variables(object)
log.debug "instances=#{object.get_instance_variables.inspect} mem_len=0x#{object.padded_length.to_s(16)}"
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indexed_written = write_object_indexed(object)
log.debug "type #{obj_written} , total #{obj_written + indexed_written} (array #{indexed_written})"
log.debug "Len = 0x#{object.get_length.to_s(16)} , inst =0x#{object.get_type.instance_length.to_s(16)}" if object.is_a? Parfait::Type
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pad_after( obj_written + indexed_written )
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Position.get(object)
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end
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def write_object_indexed(object)
written = 0
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if( object.is_a? Parfait::List)
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object.each do |inst|
write_ref_for(inst)
written += 4
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end
end
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written
end
def write_object_variables(object)
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written = 0 # compensate for the "secret" marker
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object.get_instance_variables.each do |var|
inst = object.get_instance_variable(var)
#puts "Nil for #{object.class}.#{var}" unless inst
inst = nil if [:cpu_instructions , :risc_instructions].include?(var)
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write_ref_for(inst)
written += 4
end
written
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end
def write_return_address( addr )
write_ref_for( addr.get_type )
write_ref_for( addr.next_integer )
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val = addr.value ? addr.value + @linker.platform.loaded_at : Parfait.object_space.nil_object
write_ref_for( val )
write_ref_for( 0 )
log.debug "Integer witten stream 0x#{@stream.length.to_s(16)}"
end
def write_integer( int )
write_ref_for( int.get_type )
write_ref_for( int.next_integer )
write_ref_for( int.value )
write_ref_for( 0 )
log.debug "Integer witten stream 0x#{@stream.length.to_s(16)}"
end
def write_data4( code )
write_ref_for( code.get_type )
write_ref_for( code.get_type )
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write_ref_for( code.get_type )
write_ref_for( code.get_type )
log.debug "Data4 witten stream 0x#{@stream.length.to_s(16)}"
end
# first jump,
def write_init( cpu_init )
cpu_init.assemble(@stream)
@stream.write_unsigned_int_8(0) until @linker.platform.padding == stream_position
log.debug "Init witten stream 0x#{@stream.length.to_s(16)}"
end
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def write_BinaryCode( code )
write_ref_for( code.get_type )
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write_ref_for( code.next_code )
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code.each_word do |word|
@stream.write_unsigned_int_32( word || 0 )
end
log.debug "Code16 witten stream 0x#{@stream.length.to_s(16)}"
end
def write_String( string )
if string.is_a? Parfait::Word
str = string.to_string
raise "length mismatch #{str.length} != #{string.char_length}" if str.length != string.char_length
end
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str = string.to_s if string.is_a? Symbol
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log.debug "#{string.class} is #{string} at 0x#{Position.get(string)} length 0x#{string.length.to_s(16)}"
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write_checked_string(string , str)
end
def write_checked_string(string, str)
write_ref_for( string.get_type ) #ref
@stream.write_signed_int_32( str.length ) #int
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@stream.write str
pad_after(str.length + 8 ) # type , length
log.debug "String (0x#{string.length.to_s(16)}) stream 0x#{@stream.length.to_s(16)}"
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end
def write_Symbol(sym)
return write_String(sym)
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end
private
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# write means we write the resulting address straight into the assembler stream
# object means the object of which we write the address
def write_ref_for object
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case object
when nil
@stream.write_signed_int_32(0)
when ::Integer
@stream.write_signed_int_32(object)
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else
@stream.write_signed_int_32(Position.get(object) + @linker.platform.loaded_at)
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end
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end
# pad_after is always in bytes and pads (writes 0's) up to the next 8 word boundary
def pad_after( length )
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before = stream_position
pad = Padding.padding_for(length)
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pad.times do
@stream.write_unsigned_int_8(0)
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end
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after = stream_position
log.debug "padded 0x#{length.to_s(16)} with 0x#{pad.to_s(16)} stream #{before.to_s(16)}/#{after.to_s(16)}"
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end
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# return the stream length as hex
def stream_position
@stream.length
end
end
end