Getting Started » History » Version 7
Sergey Smolov, 07/12/2018 05:54 PM
1 | 1 | Sergey Smolov | h1. Getting Started |
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3 | {{toc}} |
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5 | 3 | Sergey Smolov | h2. General notes |
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7 | It is possible to terminate QEMU by hands only. Neither Ctrl-C nor Ctrl-Z works, use _kill <process-id>_ or _killall qemu-system*_. |
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8 | |||
9 | 1 | Sergey Smolov | h2. Aarch64 |
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11 | 5 | Sergey Smolov | It is supposed that the following tools are already installed in your system: |
12 | 1 | Sergey Smolov | - Toolchain for Aarch64 assembler programs compilation, linking, etc. (can be downloaded from "Linaro website":http://releases.linaro.org/components/toolchain/binaries or just below, installation instruction is "here":http://forge.ispras.ru/projects/microtesk-armv8/wiki/Toolchain). |
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14 | 3 | Sergey Smolov | # Write a simple Aarch64 program (it is called @sample.s@) that does nothing but puts 0x10 value to X0 register and then halts. Here it is: |
15 | 1 | Sergey Smolov | <pre> |
16 | .text |
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17 | .globl _start |
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18 | bl _start |
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19 | _start: |
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20 | movz x1, #0x10, LSL #0 |
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21 | hlt #57005 |
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22 | </pre> |
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23 | 3 | Sergey Smolov | # To compile the Aarch64 assembler program, do the following: |
24 | 1 | Sergey Smolov | <pre> |
25 | aarch64-linux-gnu-as sample.s -o sample.o |
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26 | aarch64-linux-gnu-ld sample.o -o sample.elf |
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27 | aarch64-linux-gnu-objcopy -O binary sample.elf sample.bin |
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28 | </pre> |
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29 | # Finally, run _QEMU4V_ emulator with enabled option of microprocessor execution trace logging: |
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30 | <pre> |
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31 | qemu-system-aarch64 -M virt -cpu cortex-a57 -bios sample.bin -d nochain,in_asm -singlestep -nographic -trace-log -D log-file.txt |
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32 | </pre> |
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33 | 6 | Sergey Smolov | # Wait for a while, then stop QEMU4V. The following @log-file.txt@ trace file should be generated: |
34 | 1 | Sergey Smolov | <pre> |
35 | 0 clk IT (0) 0000000000000000 94000001 A svc_ns : bl #+0x4 (addr 0x4) |
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36 | 1 clk IT (1) 0000000000000004 d2800201 A svc_ns : movz x1, #0x10, LSL #0 |
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37 | 2 clk IT (2) 0000000000000008 d45bd5a0 A svc_ns : hlt #57005 |
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38 | </pre> |
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39 | |||
40 | 4 | Sergey Smolov | h2. MIPS32 |
41 | 3 | Sergey Smolov | |
42 | 5 | Sergey Smolov | It is supposed that the following tools are already installed in your system: |
43 | 3 | Sergey Smolov | - Toolchain for MIPS assembler programs compilation, linking, etc. (a list of toolchains is available "here":https://www.linux-mips.org/wiki/Toolchains). |
44 | |||
45 | # First of all, let's write a simple MIPS program (it is called @sample.s@) that stores 0x10 value at x12345678 address. Here it is: |
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46 | <pre> |
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47 | .text |
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48 | .globl _start |
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49 | _start: |
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50 | lui $1, 0x1234 |
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51 | ori $1, $1, 0x5678 |
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52 | addi $8, $0, 10 |
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53 | sw $8, 0($1) |
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54 | </pre> |
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55 | 6 | Sergey Smolov | # To compile the MIPS32 assembler program, do the following: |
56 | 3 | Sergey Smolov | <pre> |
57 | mips-linux-gnu-as sample.s -o sample.o |
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58 | mips-linux-gnu-ld sample.o -Ttext 0xbfc00000 -o sample.elf |
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59 | </pre> |
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60 | # Finally, run _QEMU4V_ emulator: |
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61 | <pre> |
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62 | qemu-system-mips -M mips -cpu mips32r6-generic -d unimp,nochain,in_asm -nographic -singlestep -D log.txt -bios sample.elf |
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63 | </pre> |
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64 | 6 | Sergey Smolov | # Wait for a while, then stop QEMU4V. The following @log-file.txt@ trace file should be generated: |
65 | 3 | Sergey Smolov | <pre> |
66 | ... |
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67 | ---------------- |
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68 | IN: |
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69 | 0xbfc0fffc: nop |
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70 | |||
71 | ---------------- |
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72 | IN: |
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73 | 0xbfc10000: lui at,0x1234 |
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74 | |||
75 | ---------------- |
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76 | IN: |
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77 | 0xbfc10004: ori at,at,0x5678 |
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78 | |||
79 | ---------------- |
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80 | IN: |
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81 | 0xbfc10008: beqzalc zero,t0,0xbfc10034 |
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82 | |||
83 | ---------------- |
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84 | IN: |
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85 | 0xbfc10034: cache 0x0,0(s8) |
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86 | </pre> |
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87 | |||
88 | 1 | Sergey Smolov | h2. RISC-V |
89 | |||
90 | 5 | Sergey Smolov | It is supposed that the following tools are already installed in your system: |
91 | 1 | Sergey Smolov | - Toolchain for RISC-V assembler programs compilation, linking, etc. (the source code and the installation guide are available "here":https://github.com/riscv/riscv-gnu-toolchain). |
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93 | 3 | Sergey Smolov | # Write a simple RISC-V program (it is called @sample.s@) that does nothing but puts 0x18 value to @t1@ register and puts 0x21 value to @t2@ register. Here it is: |
94 | 1 | Sergey Smolov | <pre> |
95 | .text |
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96 | .globl _start |
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97 | _start: |
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98 | addi t1, zero, 0x18 |
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99 | addi t2, zero, 0x21 |
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100 | </pre> |
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101 | 3 | Sergey Smolov | # To compile the RISC-V assembler program, do the following: |
102 | 1 | Sergey Smolov | <pre> |
103 | aarch64-linux-gnu-as sample.s -o sample.o |
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104 | aarch64-linux-gnu-ld sample.o -Ttext 0x1000 -o sample.elf |
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105 | </pre> |
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106 | # Finally, run _QEMU4V_ emulator with enabled option of microprocessor execution trace logging (0x1000 value was used by linker because of QEMU-related features): |
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107 | <pre> |
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108 | 2 | Sergey Smolov | qemu-system-riscv64 -M spike_v1.10 -cpu any -d unimp,nochain,in_asm -nographic -singlestep -trace-log -kernel sample.elf |
109 | 1 | Sergey Smolov | </pre> |
110 | 6 | Sergey Smolov | # Wait for a while, then stop QEMU4V. The following trace should be generated: |
111 | 1 | Sergey Smolov | <pre> |
112 | 0 clk 0 IT (0) 0000000000001000 01800313 A svc_ns : li t1,24 |
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113 | 1 clk R t1 0000000000000018 |
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114 | 1 clk 0 IT (1) 0000000000001004 02100393 A svc_ns : li t2,33 |
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115 | 2 clk R t2 0000000000000021 |
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116 | 2 clk 0 IT (2) 0000000000001008 00000000 A svc_ns : unimp |
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117 | 3 clk 0 IT (3) 0000000000001010 00000000 A svc_ns : unimp |
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118 | 3 | Sergey Smolov | </pre> |
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120 | 7 | Sergey Smolov | h2. X86 (8086 case) |
121 | 3 | Sergey Smolov | |
122 | 5 | Sergey Smolov | It is supposed that the following tools are already installed in your system: |
123 | 7 | Sergey Smolov | - Toolchain for X86 assembler programs compilation, linking, etc. (we use "GCC":https://gcc.gnu.org). |
124 | 1 | Sergey Smolov | |
125 | 7 | Sergey Smolov | # Write a simple X86 program (it is called @sample.s@) that performs some calculations: |
126 | 1 | Sergey Smolov | <pre> |
127 | 7 | Sergey Smolov | .code16 # tell the assembler that we're using 16 bit mode |
128 | .text |
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129 | .global _start |
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130 | 3 | Sergey Smolov | _start: |
131 | 7 | Sergey Smolov | mov $11, %AX |
132 | and $204, %BX |
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133 | mov %AX, %CX |
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134 | add %CX, %BX |
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135 | sub %CX, %AX |
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136 | .org 510 # magic bytes that tell BIOS that this is bootable |
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137 | .word 0xaa55 # magic bytes that tell BIOS that this is bootable |
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138 | 1 | Sergey Smolov | </pre> |
139 | # To compile the X86 GNU assembler program, do the following: |
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140 | <pre> |
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141 | x86_64-linux-gnu-as sample.s -o sample.o |
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142 | 7 | Sergey Smolov | x86_64-linux-gnu-ld sample.o -T 0x7c00 --oformat binary -o sample.elf |
143 | 1 | Sergey Smolov | </pre> |
144 | # Finally, run _QEMU4V_ emulator: |
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145 | <pre> |
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146 | 7 | Sergey Smolov | qemu-system-i386 -M pc -cpu 486 -d unimp,nochain,in_asm -nographic -singlestep -D log.txt -hda sample.elf |
147 | 1 | Sergey Smolov | </pre> |
148 | 7 | Sergey Smolov | # Wait for a while, then stop QEMU4V. The following @log-file.txt@ trace file should be generated (go to the 0x7c00 address and see the program execution fragment): |
149 | 1 | Sergey Smolov | <pre> |
150 | 7 | Sergey Smolov | ---------------- |
151 | IN: |
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152 | 0x00007c00: mov $0xb,%ax |
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153 | |||
154 | ---------------- |
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155 | IN: |
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156 | 0x00007c03: and $0xcc,%bx |
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157 | |||
158 | ---------------- |
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159 | IN: |
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160 | 0x00007c07: mov %ax,%cx |
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161 | |||
162 | ---------------- |
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163 | IN: |
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164 | 0x00007c09: add %cx,%bx |
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165 | |||
166 | ---------------- |
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167 | IN: |
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168 | 0x00007c0b: sub %cx,%ax |
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169 | |||
170 | ---------------- |
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171 | 1 | Sergey Smolov | </pre> |