8188bbbc94
Considering how much trouble a merge phase would be (commit 4978), it seems simpler to just add the extra syntax for controlling the entry point of the generated ELF binary. But I wouldn't have noticed this if I hadn't taken the time to write out the commit messages of 4976 and 4978. Even if we happened to already have linked list primitives built, this may still be a good idea considering that I'm saving quite a lot of code in duplicated entrypoints.
201 lines
11 KiB
Plaintext
201 lines
11 KiB
Plaintext
# Helper to dynamically allocate memory on the heap.
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#
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# We'd like to be able to write tests for functions that allocate memory,
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# making assertions on the precise addresses used. To achieve this we'll pass
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# in an *allocation descriptor* to allocate from.
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#
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# Allocation descriptors are also useful outside of tests. Assembly and machine
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# code are of necessity unsafe languages, and one of the most insidious kinds
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# of bugs unsafe languages expose us to are dangling pointers to memory that
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# has been freed and potentially even reused for something totally different.
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# To reduce the odds of such "use after free" errors, SubX programs tend to not
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# reclaim and reuse dynamically allocated memory. (Running out of memory is far
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# easier to debug.) Long-running programs that want to reuse memory are mostly
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# on their own to be careful. However, they do get one bit of help: they can
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# carve out chunks of memory and then allocate from them manually using this
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# very same 'allocate' helper. They just need a new allocation descriptor for
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# their book-keeping.
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== data
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# The 'global' allocation descriptor. Pass this into 'allocate' to claim a
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# hitherto unused bit of memory.
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Heap:
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Start-of-heap/imm32 # curr
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0x0b000000/imm32 # limit; keep sync'd with DATA_SEGMENT + SEGMENT_ALIGNMENT
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== code
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# instruction effective address register displacement immediate
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# . op subop mod rm32 base index scale r32
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# . 1-3 bytes 3 bits 2 bits 3 bits 3 bits 3 bits 2 bits 2 bits 0/1/2/4 bytes 0/1/2/4 bytes
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# Claim the next 'n' bytes of memory starting at ad->curr and update ad->curr.
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# If there isn't enough memory before ad->limit, return 0 and leave 'ad' unmodified.
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allocate: # ad : (address allocation-descriptor), n : int -> address-or-null/EAX
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# . prolog
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55/push-EBP
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89/copy 3/mod/direct 5/rm32/EBP . . . 4/r32/ESP . . # copy ESP to EBP
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# . save registers
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51/push-ECX
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52/push-EDX
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# ECX = ad
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8b/copy 1/mod/*+disp8 5/rm32/EBP . . . 1/r32/ECX 8/disp8 . # copy *(EBP+8) to ECX
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# save ad->curr
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8b/copy 0/mod/indirect 1/rm32/ECX . . . 0/r32/EAX . . # copy *ECX to EAX
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# check if there's enough space
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# . EDX = ad->curr + n
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89/copy 3/mod/direct 2/rm32/EDX . . . 0/r32/EAX . . # copy EAX to EDX
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03/add 1/mod/*+disp8 5/rm32/EBP . . . 2/r32/EDX 0xc/disp8 . # add *(EBP+12) to EDX
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3b/compare 1/mod/*+disp8 1/rm32/ECX . . . 2/r32/EDX 4/disp8 . # compare EDX with *(ECX+4)
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7c/jump-if-lesser $allocate:commit/disp8
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# return null if not
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b8/copy-to-EAX 0/imm32
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eb/jump $allocate:end/disp8
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$allocate:commit:
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# update ad->curr
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89/copy 0/mod/indirect 1/rm32/ECX . . . 2/r32/EDX . . # copy EDX to *ECX
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$allocate:end:
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# . restore registers
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5a/pop-to-EDX
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59/pop-to-ECX
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# . epilog
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89/copy 3/mod/direct 4/rm32/ESP . . . 5/r32/EBP . . # copy EBP to ESP
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5d/pop-to-EBP
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c3/return
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test-allocate-success:
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# . prolog
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55/push-EBP
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89/copy 3/mod/direct 5/rm32/EBP . . . 4/r32/ESP . . # copy ESP to EBP
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# var ad/ECX : (address allocation-descriptor) = {11, 15}
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68/push 0xf/imm32/limit
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68/push 0xb/imm32/curr
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89/copy 3/mod/direct 1/rm32/ECX . . . 4/r32/ESP . . # copy ESP to ECX
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# EAX = allocate(ad, 3)
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# . . push args
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68/push 3/imm32
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51/push-ECX
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# . . call
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e8/call allocate/disp32
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# . . discard args
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81 0/subop/add 3/mod/direct 4/rm32/ESP . . . . . 8/imm32 # add to ESP
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# check-ints-equal(EAX, 11, msg)
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# . . push args
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68/push "F - test-allocate-success: returns current pointer of allocation descriptor"/imm32
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68/push 0xb/imm32
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50/push-EAX
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# . . call
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e8/call check-ints-equal/disp32
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# . . discard args
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81 0/subop/add 3/mod/direct 4/rm32/ESP . . . . . 0xc/imm32 # add to ESP
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# check-ints-equal(ad->curr, 14, msg)
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# . . push args
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68/push "F - test-allocate-success: updates allocation descriptor"/imm32
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68/push 0xe/imm32
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ff 6/subop/push 0/mod/indirect 1/rm32/ECX . . . . . . # push *ECX
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# . . call
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e8/call check-ints-equal/disp32
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# . . discard args
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81 0/subop/add 3/mod/direct 4/rm32/ESP . . . . . 0xc/imm32 # add to ESP
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# . epilog
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89/copy 3/mod/direct 4/rm32/ESP . . . 5/r32/EBP . . # copy EBP to ESP
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5d/pop-to-EBP
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c3/return
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test-allocate-failure:
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# . prolog
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55/push-EBP
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89/copy 3/mod/direct 5/rm32/EBP . . . 4/r32/ESP . . # copy ESP to EBP
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# var ad/ECX : (address allocation-descriptor) = {11, 15}
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68/push 0xf/imm32/limit
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68/push 0xb/imm32/curr
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89/copy 3/mod/direct 1/rm32/ECX . . . 4/r32/ESP . . # copy ESP to ECX
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# EAX = allocate(ad, 6)
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# . . push args
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68/push 6/imm32
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51/push-ECX
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# . . call
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e8/call allocate/disp32
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# . . discard args
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81 0/subop/add 3/mod/direct 4/rm32/ESP . . . . . 8/imm32 # add to ESP
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# check-ints-equal(EAX, 0, msg)
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# . . push args
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68/push "F - test-allocate-failure: returns null"/imm32
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68/push 0/imm32
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50/push-EAX
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# . . call
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e8/call check-ints-equal/disp32
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# . . discard args
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81 0/subop/add 3/mod/direct 4/rm32/ESP . . . . . 0xc/imm32 # add to ESP
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# no change to ad->curr
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# . check-ints-equal(ad->curr, 11)
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# . . push args
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68/push "F - test-allocate-failure: updates allocation descriptor"/imm32
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68/push 0xb/imm32
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ff 6/subop/push 0/mod/indirect 1/rm32/ECX . . . . . . # push *ECX
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# . . call
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e8/call check-ints-equal/disp32
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# . . discard args
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81 0/subop/add 3/mod/direct 4/rm32/ESP . . . . . 0xc/imm32 # add to ESP
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# . epilog
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89/copy 3/mod/direct 4/rm32/ESP . . . 5/r32/EBP . . # copy EBP to ESP
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5d/pop-to-EBP
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c3/return
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# helper: create a nested allocation descriptor (useful for tests)
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allocate-region: # ad : (address allocation-descriptor), n : int -> new-ad : (address allocation-descriptor)
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# . prolog
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55/push-EBP
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89/copy 3/mod/direct 5/rm32/EBP . . . 4/r32/ESP . . # copy ESP to EBP
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# . save registers
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51/push-ECX
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# EAX = allocate(ad, n)
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# . . push args
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ff 6/subop/push 1/mod/*+disp8 5/rm32/EBP . . . . 0xc/disp8 . # push *(EBP+12)
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ff 6/subop/push 1/mod/*+disp8 5/rm32/EBP . . . . 8/disp8 . # push *(EBP+8)
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# . . call
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e8/call allocate/disp32
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# . . discard args
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81 0/subop/add 3/mod/direct 4/rm32/ESP . . . . . 8/imm32 # add to ESP
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# if (EAX == 0) abort
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81 7/subop/compare 3/mod/direct 0/rm32/EAX . . . . . 0/imm32 # compare EAX
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74/jump-if-equal $allocate-region:abort/disp8
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# earmark 8 bytes at the start for a new allocation descriptor
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# . *EAX = EAX + 8
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89/copy 3/mod/direct 1/rm32/ECX . . . 0/r32/EAX . . # copy EAX to ECX
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81 0/subop/add 3/mod/direct 1/rm32/ECX . . . . . 8/imm32 # add to ECX
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89/copy 0/mod/indirect 0/rm32/EAX . . . 1/r32/ECX . . # copy ECX to *EAX
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# . *(EAX+4) = EAX + n
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89/copy 3/mod/direct 1/rm32/ECX . . . 0/r32/EAX . . # copy EAX to ECX
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03/add 1/mod/*+disp8 5/rm32/EBP . . . 1/r32/ECX 0xc/disp8 . # add *(EBP+12) to ECX
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89/copy 1/mod/*+disp8 0/rm32/EAX . . . 1/r32/ECX 4/disp8 . # copy ECX to *(EAX+4)
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# . restore registers
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59/pop-to-ECX
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# . epilog
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89/copy 3/mod/direct 4/rm32/ESP . . . 5/r32/EBP . . # copy EBP to ESP
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5d/pop-to-EBP
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c3/return
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# We could create a more general '$abort' jump target, but then we'd need to do
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# a conditional jump followed by loading the error message and an unconditional
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# jump. Or we'd need to unconditionally load the error message before a
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# conditional jump, even if it's unused the vast majority of the time. This way
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# we bloat a potentially cold segment in RAM so we can abort with a single
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# instruction.
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$allocate-region:abort:
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# . _write(2/stderr, error)
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# . . push args
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68/push "allocate-region: failed to allocate"/imm32
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68/push 2/imm32/stderr
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# . . call
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e8/call _write/disp32
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# . . discard args
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81 0/subop/add 3/mod/direct 4/rm32/ESP . . . . . 8/imm32 # add to ESP
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# . syscall(exit, 1)
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bb/copy-to-EBX 1/imm32
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b8/copy-to-EAX 1/imm32/exit
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cd/syscall 0x80/imm8
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# never gets here
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# . . vim:nowrap:textwidth=0
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