76 lines
5.5 KiB
Markdown
76 lines
5.5 KiB
Markdown
## ISA
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Instructions vary from 1 to 6 bytes.
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### Instructions format
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| 6bit | 1bit | 1bit | 2bit | 3bit | 3bit |
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| ---------------- | --------- | ---- | ---- | ---- | ---- |
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| Opcode | D bit | W bit | MOD | REG | R/M |
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* **D**-bit : The register specified in REG field is a source register (D = 0) or destination register (D =1).
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* **W**-bit : Specifies whether the instruction operates on bytes (W = 0) or words (W = 1).
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On some instructions:
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* **S**-bit : An 8-bit 2's complement number. It can be extended to a 16-bit 2’s complement number internally depending on the W-bit
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| S | W | Operation |
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| --- | --- | ----------------------------------------------------- |
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| 0 | 0 | 8bit operation |
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| 0 | 1 | 16bit operation with 16bit immediate operand |
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| 1 | 0 | invalid? |
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| 1 | 1 | 8bit immediate operand extended to 16 signed internally|
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* **V**-bit : V-bit decides the number of shifts for rotate and shift instructions. If V = 0, then count = 1; if V = 1, the count is in CL register. For example, if V = 1 and CL = 2 then shift or rotate instruction shifts or rotates 2-bits
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* **Z**-bit : Used as a compare bit with the zero flag in conditional repeat and loop instructions. ex branch if zero is set or clear.
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No instruction has parts of its opcode past the first 2 bytes I.e. all bytes after the first two are additional data bytes
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The second byte of the instruction usually identifies the instruction's operands. The **MOD** (mode) field weather or not the operands is in memory or if both are registers. In some instructions like the immediate-to-memory type the **REG** field is used as an extension of the opcode. The function of **R/M** depends on how MOD. if MOD=11 (register-register mode) then **R/M** specifies the second Register, otherwise it specifies how the effective address in memory is calculated
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|R/M | Memory indirect with no displacement [ 0 0 ] | Memory indirect with 8 bit displacement [ 0 1 ] | Memory indirect with 16 bit displacement [ 1 0 ] | Register Mode [ 1 1 ] W = 0| Register Mode [ 1 1 ] W = 1 |
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|---- | ---------------------------------------- | ------------------------------------------- | -------------------------------------------- | --------------------------- | --------------------------- |
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|000 | [BX] + [SI] | [BX] + [SI] + d8 | [BX] + [SI] + d16 | AL | AX |
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|001 | [BX] + [DI] | [BX] + [DI] + d8 | [BX] + [DI] + d16 | CL | CX |
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|010 | [BP] + [SI] | [BP] + [SI] + d8 | [BP] + [SI] + d16 | DL | DX |
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|011 | [BP] + [DI] | [BP] + [DI] + d8 | [BP] + [DI] + d16 | BL | BX |
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|100 | [SI] | [SI] + d8 | [SI] + d16 | AH | SP |
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|101 | [DI] | [DI] + d8 | [DI] + d16 | CH | BP |
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|110 | d16 (direct) | [BP] + d8 | [BP] + d16 | DH | SI |
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|111 | [BX] | [BX] + d8 | [BX] + d16 | BH | DI |
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Example instructions:
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| Bytecode | AT&T Syntax | meaning |
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| ---------- | --------------- | ---------------------------------------------------------- |
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|81 c0 aa 55 | add $0x55aa,%ax | add 0x55aa to register ax |
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|03 06 aa 55 | add 0x55aa,%ax | add the contents of memory locaton 0x55aa to register ax |
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|fe c0 | inc %al | increment register al |
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|ff c0 | inc %ax | increment register ax |
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|40 | inc %ax | increment register ax |
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### Flags
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Flag register:
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|.. |.. |.. |.. | O | D | I | T | S | Z |.. | A |.. | P |.. | C |
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|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
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* C - Carry flag : carry out or borrow into the high order bit (8bit/16bit)
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* P - Parity flag : set if result has even parity
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* A - Auxiliary flag : carry out from the low nibble to the high nibble or an equiv borrow. Used by decimal arithmetic instructions
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* Z - Zero flag : Set when result of Operation is zero
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* S - Sign flag : set if the high order bit of the result is 1. ie the sign of the result
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* T - Trap flag : Set the CPU into single step mode where it generates an interrupt after each instruction
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* I - Interrupt flag : 0: interrupts are masked
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* D - Direction flag : 1: string instructions decrement 0: they increment
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* O - Overflow flag : set on arithmetic overflow
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