# HoleyBytes ISA Specification # Bytecode format - All numbers are encoded little-endian - There is 60 registers (0 – 59), they are represented by a byte - Immediate values are 64 bit ### Instruction encoding - Instruction parameters are packed (no alignment) - [opcode, …parameters…] ### Instruction parameter types - R = Register - I = Immediate | Name | Size | |:----:|:--------| | RRRR | 32 bits | | RRR | 24 bits | | RRI | 80 bits | | RR | 16 bits | | RI | 72 bits | | I | 64 bits | | N | 0 bits | # Instructions - `#n`: register in parameter *n* - `imm #n`: for immediate in parameter *n* - `P ← V`: Set register P to value V - `[x]`: Address x ## No-op - N type | Opcode | Name | Action | |:------:|:----:|:----------:| | 0 | NOP | Do nothing | ## Integer binary ops. - RRR type - `#0 ← #1 #2` | Opcode | Name | Action | |:------:|:----:|:-----------------------:| | 1 | ADD | Wrapping addition | | 2 | SUB | Wrapping subtraction | | 3 | MUL | Wrapping multiplication | | 4 | AND | Bitand | | 5 | OR | Bitor | | 6 | XOR | Bitxor | | 7 | SL | Unsigned left bitshift | | 8 | SR | Unsigned right bitshift | | 9 | SRS | Signed right bitshift | ### Comparsion | Opcode | Name | Action | |:------:|:----:|:-------------------:| | 10 | CMP | Signed comparsion | | 11 | CMPU | Unsigned comparsion | #### Comparsion table | #1 *op* #2 | Result | |:----------:|:------:| | < | -1 | | = | 0 | | > | 1 | ### Division-remainder - Type RRRR - In case of `#3` is zero, the resulting value is all-ones - `#0 ← #2 ÷ #3` - `#1 ← #2 % #3` | Opcode | Name | Action | |:------:|:----:|:-------------------------------:| | 12 | DIR | Divide and remainder combinated | ### Negations - Type RR - `#0 ← #1 #2` | Opcode | Name | Action | |:------:|:----:|:----------------:| | 13 | NEG | Bit negation | | 14 | NOT | Logical negation | ## Integer immediate binary ops. - Type RRI - `#0 ← #1 imm #2` | Opcode | Name | Action | |:------:|:----:|:-----------------------:| | 18 | ADDI | Wrapping addition | | 19 | MULI | Wrapping subtraction | | 20 | ANDI | Bitand | | 21 | ORI | Bitor | | 22 | XORI | Bitxor | | 23 | SLI | Unsigned left bitshift | | 24 | SRI | Unsigned right bitshift | | 25 | SRSI | Signed right bitshift | ### Comparsion - Comparsion is the same as when RRR type | Opcode | Name | Action | |:------:|:-----:|:-------------------:| | 26 | CMPI | Signed comparsion | | 27 | CMPUI | Unsigned comparsion | ## Register value set / copy ### Copy - Type RR - `#0 ← #1` | Opcode | Name | Action | |:------:|:----:|:------:| | 28 | CP | Copy | ### Load immediate - Type RI - `#0 ← #1` | Opcode | Name | Action | |:------:|:----:|:--------------:| | 29 | LI | Load immediate | ## Memory operations - Type RRI ### Load - `#0 ← [#1 + imm #2]` | Opcode | Name | Action | |:------:|:----:|:----------------------:| | 30 | LB | Load byte (8 bits) | | 31 | LD | Load doublet (16 bits) | | 32 | LQ | Load quadlet (32 bits) | | 33 | LO | Load octlet (64 bits) | ### Store - `[#1 + imm #2] ← #0` | Opcode | Name | Action | |:------:|:----:|:-----------------------:| | 34 | SB | Store byte (8 bits) | | 35 | SD | Store doublet (16 bits) | | 36 | SQ | Store quadlet (32 bits) | | 37 | SO | Store octlet (64 bits) | ## Control flow ### Unconditional jump - Type RI | Opcode | Name | Action | |:------:|:----:|:---------------------:| | 38 | JMP | Jump at `#0 + imm #1` | ### Conditional jumps - Type RRI - Jump at `imm #2` if `#0 #1` | Opcode | Name | Comparsion | |:------:|:----:|:------------:| | 39 | JEQ | = | | 40 | JNE | ≠ | | 41 | JLT | < (signed) | | 42 | JGT | > (signed) | | 43 | JLTU | < (unsigned) | | 44 | JGTU | > (unsigned) | ### Environment call - Type N | Opcode | Name | Action | |:------:|:-----:|:-------------------------------------:| | 45 | ECALL | Cause an trap to the host environment | ## Floating point operations - Type RRR - `#0 ← #1 #2` | Opcode | Name | Action | |:------:|:----:|:--------------:| | 46 | ADDF | Addition | | 47 | MULF | Multiplication | ### Division-remainder - Type RRRR | Opcode | Name | Action | |:------:|:----:|:--------------------------------------:| | 48 | DIRF | Same flow applies as for integer `DIR` | ## Floating point immediate operations - Type RRI - `#0 ← #1 imm #2` | Opcode | Name | Action | |:------:|:-----:|:--------------:| | 49 | ADDFI | Addition | | 50 | MULFI | Multiplication | # Registers - There is 59 registers + one zero register (with index 0) - Reading from zero register yields zero - Writing to zero register is a no-op # Memory - Addresses are 64 bit - Memory implementation is arbitrary - In case of accessing invalid address: - Program shall trap (LoadAccessEx, StoreAccessEx) with parameter of accessed address - Value of register when trapped is undefined ## Recommendations - Leave address `0x0` as invalid - If paging used: - Leave first page invalid - Pages should be at least 4 KiB # Program execution - The way of program execution is implementation defined - The order of instruction is arbitrary, as long all observable effects are applied in the program's order # Program validation - Invalid program should cause runtime error: - The form of error is arbitrary. Can be a trap or an interpreter-specified error - It shall not be handleable from within the program - Executing invalid opcode should trap - Program can be validaded either before execution or when executing # Traps | Name | Parameters | Cause | |:-------------:|:----------------:|:--------------------------:| | LoadAccessEx | Accessed address | Loading invalid address | | StoreAccessEx | Accessed address | Storing to invalid address | | InvalidOpcode | Loaded opcode | Executing invalid opcode | | Ecall | None | Ecall instruction | # Assembly HoleyBytes assembly format is not defined, this is just a weak description of `hbasm` syntax. - Opcode names correspond to specified opcode names, lowercase (`nop`) - Parameters are separated by comma (`addi r0, 1`) - Instructions are separated by either line feed or semicolon - Registers are represented by `r` followed by the number (`r10`) - Labels are defined by label name followed with colon (`loop:`) - Labels are references simply by their name (`print`)