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minimal instruction set and assembler/compiler for "Hello World" execution

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full-stack-hello

full-stack-hello is a minimal virtual machine kit capable of performing tasks at any level of the technical stack on which a typical 'Hello World' program execution depends. It means:

  • Instruction Set Architecture (ISA);
  • Virtual machine implementing the ISA;
  • Assembly and/or Compiler following the ISA;
  • Runtime support such as standard libraries and ELF;

Instruction set

Opcode Description
OP_ADD sum two operands
OP_SUB subtract two operands
OP_MUL multiply two operands
OP_DIV divide two two operands
OP_MOD Modulo, remainder of operand 1 divided by operand 2
OP_PRINT print integer or string
OP_JLT jump to specified address (in operand 2) if operand 1 is less than 0
OP_JLE jump to specified address (in operand 2) if operand 1 is less than or equal to 0
OP_JZ jump to specified address (in operand 2) if operand 1 is equal to 0
OP_JGE jump to specified address (in operand 2) if operand 1 is greater than or equal to 0
OP_JGT jump to specified address (in operand 2) if operand 1 is greater than 0
OP_JNZ jump to specified address (in operand 2) if operand 1 is not equal to 0
OP_JMP jump to specified address
OP_CALL call to specified address
OP_RET return to where called from
OP_HALT terminate VM

Assembly Notation

  • Registers are specified by # as temporary storage.
    • print #1 dumps the content of register #1.
  • An immediate value (or simply an immediate or imm) is a piece of data that is stored as part of the instruction itself instead of being in a memory location or a register.
    • mul $-2 $2 #4 stores the result of (-2) * (2) into register #4.
  • A valid Label name ends with : and is referred as :X in any JMP/CALL instructions to jump to label X.
    A:
    print $1
    jmp :A
    
    • Infinite loop that dumps constant 1.

Build and Verify

$ make
cc -Wall -std=gnu99 -g -c -o vm.o -MMD -MF .vm.o.d vm.c
cc -Wall -std=gnu99 -g -c -o as.o -MMD -MF .as.o.d as.c
cc -Wall -std=gnu99 -g -c -o driver.o -MMD -MF .driver.o.d driver.c
cc -Wall -std=gnu99 -g -o as_exec vm.o as.o driver.o
$ make check
42
tests/halt.s pass

Hello World
tests/hello.s pass

42
50
150
tests/test.s pass

$ make test
python tests/run_tests.py
..
----------------------------------------------------------------------
Ran 4 tests in 0.002s

OK

Assembler Usage

Specify -h to obtain the description of the assembler.

$ ./as_exec -h
Usage: as_exec [-w] [-x] [-o <out_file>] <in_file>
       -w Assemble <in_file> and write to an ELF file, see -o below
       -o if -w is specifed, <out_file> is used to store the object code
       -x Load <in_file> and execute it

       <in_file> the file name to be used by commands above

For example, if the assembly file in concern is tests/coverage.s

  1. Assemble an assembly source file and evaluate (execute) it.
    ./as_exec tests/hello.s
    
  2. Assemble an assembly source file and write to default ELF file tests/hello.o.
    ./as_exec -w tests/hello.s
    
  3. Assemble an assembly source file and write to default ELF file tests/temp.o.
    ./as_exec -o tests/temp.o -w tests/hello.s
    
  4. Laod an assembled ELF file tests/hello.o and evaluate (rexcute) it.
    ./as_exec -x tests/hello.o
    

The common ELF tools, such as objdump, can be applied to the output ELF file.

objdump -x tests/hello.o

Currently, the ELF support is very limited and could be improved.

Licensing

full-stack-hello is freely redistributable under the two-clause BSD License. Use of this source code is governed by a BSD-style license that can be found in the LICENSE file.

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