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Assembler/Linker/Loader Mooly Sagiv html://www.cs.tau.ac.il/~msagiv/courses/wcc04.html Chapter 4.3.

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Presentation on theme: "Assembler/Linker/Loader Mooly Sagiv html://www.cs.tau.ac.il/~msagiv/courses/wcc04.html Chapter 4.3."— Presentation transcript:

1 Assembler/Linker/Loader Mooly Sagiv html://www.cs.tau.ac.il/~msagiv/courses/wcc04.html Chapter 4.3

2 Outline Where does it fit into the compiler Functionality “Backward” description Assembler design issues Linker design issues

3 A More Realistic Compiler

4 Assembler Generate executable code from assembly Yet another compiler One-to one translation Resolve external references Relocate code How does it fit together? Is it really part of the compiler?

5 Program Runtime State Code segment Stack segment Data Segment Machine Registers

6 Program Run Code segment Stack segment Data Segment Machine Registers Operating System Loader.EXE Code segment Data Segment Initial stack size Start address Debug

7 Program Run Code segment Stack segment Data Segment Machine Registers.EXE Code segment Data Segment Initial stack size Start address

8 Loader (Summary) Part of the operating system Does not depend on the programming language Privileged mode Initializes the runtime state Invisible activation record

9 Linker Code Segment Data Segment Code Segment Data Segment 0 0 100 0 101 Relocation Bits External Symbol Table

10 Linker Merge several executables Resolve external references Relocate addresses User mode Provided by the operating system But can be specific for the compiler –More secure code –Better error diagnosis

11 Relocation information How to change internal addresses Positions in the code which contains addresses (data/code) Two implementations –Bitmap –Linked-lists

12 External References The code may include references to external names (identifiers) –Library calls –External data Stored in external symbol table

13 Example

14 Recap Assembler generates binary code –Unresolved addresses –Relocatable addresses Linker generates executable code Loader generates runtime states (images)

15 Assembler Design Issues Converts symbolic machine code to binary One to one conversion addl %edx, %ecx  000 0001 11 010 001 = 01 D1 (Hex) Some assemblers support overloading –Different opcodes based on types Format conversions Handling internal addresses

16 Handling Internal Addresses

17 Resolving Internal Addresses Two scans of the code –Construct a table label  address –Replace labels with values Backpatching –One scan of the code –Simultaneously construct the table and resolve symbolic addresses – Maintains list of unresolved labels –Useful beyond assemblers

18 Backpatching

19 Handling External Addresses Record symbol table in external table Produce binary version together with the code and relocation bits Output of the assembly –Code segment –Data segment –Relocation bits –External table

20 Example of External Symbol Table

21 Example

22 Linker Design Issues Append –Code segments –Data segments –Relocation bit maps –External symbol tables Retain information about static length Real life complications –Aggregate initializations –Object file formats –Large library –Efficient search procedures

23 Summary Code generation yields code which is still far from executable –Delegate to existing assembler Assembler translates symbolic instructions into binary and creates relocation bits Linker creates executable from several files produced by the assembly Loader creates an image from executable

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