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16'>116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 pre { line-height: 125%; } td.linenos .normal { color: inherit; background-color: transparent; padding-left: 5px; padding-right: 5px; } span.linenos { color: inherit; background-color: transparent; padding-left: 5px; padding-right: 5px; } td.linenos .special { color: #000000; background-color: #ffffc0; padding-left: 5px; padding-right: 5px; } span.linenos.special { color: #000000; background-color: #ffffc0; padding-left: 5px; padding-right: 5px; } .highlight .hll { background-color: #ffffcc } .highlight .c { color: #888888 } /* Comment */ .highlight .err { color: #a61717; background-color: #e3d2d2 } /* Error */ .highlight .k { color: #008800; font-weight: bold } /* Keyword */ .highlight .ch { color: #888888 } /* Comment.Hashbang */ .highlight .cm { color: #888888 } /* Comment.Multiline */ .highlight .cp { color: #cc0000; font-weight: bold } /* Comment.Preproc */ .highlight .cpf { color: #888888 } /* Comment.PreprocFile */ .highlight .c1 { color: #888888 } /* Comment.Single */ .highlight .cs { color: #cc0000; font-weight: bold; background-color: #fff0f0 } /* Comment.Special */ .highlight .gd { color: #000000; background-color: #ffdddd } /* Generic.Deleted */ .highlight .ge { font-style: italic } /* Generic.Emph */ .highlight .ges { font-weight: bold; font-style: italic } /* Generic.EmphStrong */ .highlight .gr { color: #aa0000 } /* Generic.Error */ .highlight .gh { color: #333333 } /* Generic.Heading */ .highlight .gi { color: #000000; background-color: #ddffdd } /* Generic.Inserted */ .highlight .go { color: #888888 } /* Generic.Output */ .highlight .gp { color: #555555 } /* Generic.Prompt */ .highlight .gs { font-weight: bold } /* Generic.Strong */ .highlight .gu { color: #666666 } /* Generic.Subheading */ .highlight .gt { color: #aa0000 } /* Generic.Traceback */ .highlight .kc { color: #008800; font-weight: bold } /* Keyword.Constant */ .highlight .kd { color: #008800; font-weight: bold } /* Keyword.Declaration */ .highlight .kn { color: #008800; font-weight: bold } /* Keyword.Namespace */ .highlight .kp { color: #008800 } /* Keyword.Pseudo */ .highlight .kr { color: #008800; font-weight: bold } /* Keyword.Reserved */ .highlight .kt { color: #888888; font-weight: bold } /* Keyword.Type */ .highlight .m { color: #0000DD; font-weight: bold } /* Literal.Number */ .highlight .s { color: #dd2200; background-color: #fff0f0 } /* Literal.String */ .highlight .na { color: #336699 } /* Name.Attribute */ .highlight .nb { color: #003388 } /* Name.Builtin */ .highlight .nc { color: #bb0066; font-weight: bold } /* Name.Class */ .highlight .no { color: #003366; font-weight: bold } /* Name.Constant */ .highlight .nd { color: #555555 } /* Name.Decorator */ .highlight .ne { color: #bb0066; font-weight: bold } /* Name.Exception */ .highlight .nf { color: #0066bb; font-weight: bold } /* Name.Function */ .highlight .nl { color: #336699; font-style: italic } /* Name.Label */ .highlight .nn { color: #bb0066; font-weight: bold } /* Name.Namespace */ .highlight .py { color: #336699; font-weight: bold } /* Name.Property */ .highlight .nt { color: #bb0066; font-weight: bold } /* Name.Tag */ .highlight .nv { color: #336699 } /* Name.Variable */ .highlight .ow { color: #008800 } /* Operator.Word */ .highlight .w { color: #bbbbbb } /* Text.Whitespace */ .highlight .mb { color: #0000DD; font-weight: bold } /* Literal.Number.Bin */ .highlight .mf { color: #0000DD; font-weight: bold } /* Literal.Number.Float */ .highlight .mh { color: #0000DD; font-weight: bold } /* Literal.Number.Hex */ .highlight .mi { color: #0000DD; font-weight: bold } /* Literal.Number.Integer */ .highlight .mo { color: #0000DD; font-weight: bold } /* Literal.Number.Oct */ .highlight .sa { color: #dd2200; background-color: #fff0f0 } /* Literal.String.Affix */ .highlight .sb { color: #dd2200; background-color: #fff0f0 } /* Literal.String.Backtick */ .highlight .sc { color: #dd2200; background-color: #fff0f0 } /* Literal.String.Char */ .highlight .dl { color: #dd2200; background-color: #fff0f0 } /* Literal.String.Delimiter */ .highlight .sd { color: #dd2200; background-color: #fff0f0 } /* Literal.String.Doc */ .highlight .s2 { color: #dd2200; background-color: #fff0f0 } /* Literal.String.Double */ .highlight .se { color: #0044dd; background-color: #fff0f0 } /* Literal.String.Escape */ .highlight .sh { color: #dd2200; background-color: #fff0f0 } /* Literal.String.Heredoc */ .highlight .si { color: #3333bb; background-color: #fff0f0 } /* Literal.String.Interpol */ .highlight .sx { color: #22bb22; background-color: #f0fff0 } /* Literal.String.Other */ .highlight .sr { color: #008800; background-color: #fff0ff } /* Literal.String.Regex */ .highlight .s1 { color: #dd2200; background-color: #fff0f0 } /* Literal.String.Single */ .highlight .ss { color: #aa6600; background-color: #fff0f0 } /* Literal.String.Symbol */ .highlight .bp { color: #003388 } /* Name.Builtin.Pseudo */ .highlight .fm { color: #0066bb; font-weight: bold } /* Name.Function.Magic */ .highlight .vc { color: #336699 } /* Name.Variable.Class */ .highlight .vg { color: #dd7700 } /* Name.Variable.Global */ .highlight .vi { color: #3333bb } /* Name.Variable.Instance */ .highlight .vm { color: #336699 } /* Name.Variable.Magic */ .highlight .il { color: #0000DD; font-weight: bold } /* Literal.Number.Integer.Long */
# stop: dependency-injected wrapper around the exit() syscall
#
# We'd like to be able to write tests for functions that call exit(), and to
# make assertions about whether they exit() or not in a given situation. To
# achieve this we'll call exit() via a smarter wrapper called 'stop'.
#
# In the context of a test, calling a function X that calls 'stop' (directly
# or through further intervening calls) will unwind the stack until X returns,
# so that we can say check any further assertions after the execution of X. To
# achieve this end, we'll pass the return address of X as a 'target' argument
# into X, plumbing it through to 'stop'. When 'stop' gets a non-null target it
# unwinds the stack until the target. If it gets a null target it calls
# exit().
#
# We'd also like to get the exit status out of 'stop', so we'll combine the
# input target with an output status parameter into a type called 'exit-descriptor'.
#
# So the exit-descriptor looks like this:
#   target: address  # return address for 'stop' to unwind to
#   value: int  # exit status stop was called with
#
# 'stop' thus takes two parameters: an exit-descriptor and the exit status.
#
# 'stop' won't bother cleaning up any other processor state besides the stack,
# such as registers. Only esp will have a well-defined value after 'stop'
# returns. (This is a poor man's setjmp/longjmp, if you know what that is.)
#
# Before you can call any function that may call 'stop', you need to pass in an
# exit-descriptor to it. To create an exit-descriptor use 'tailor-exit-descriptor'
# below. It's not the most pleasant abstraction in the world.
#
# An exit-descriptor's target is its input, computed during 'tailor-exit-descriptor'.
# Its value is its output, computed during stop and available to the test.

== code
#   instruction                     effective address                                                   register    displacement    immediate
# . op          subop               mod             rm32          base        index         scale       r32
# . 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

# Configure an exit-descriptor for a call pushing 'nbytes' bytes of args to
# the stack.
# Ugly that we need to know the size of args. Don't allocate variables between
# tailor-exit-descriptor and the call it's for.
tailor-exit-descriptor:  # ed: (addr exit-descriptor), nbytes: int
    # . prologue
    55/push-ebp
    89/copy                         3/mod/direct    5/rm32/ebp    .           .             .           4/r32/esp   .               .                 # copy esp to ebp
    # . save registers
    50/push-eax
    51/push-ecx
    # eax = nbytes
    8b/copy                         1/mod/*+disp8   5/rm32/ebp    .           .             .           0/r32/eax   0xc/disp8       .                 # copy *(ebp+12) to eax
    # Let X be the value of esp in the caller, before the call to tailor-exit-descriptor.
    # The return address for a call in the caller's body will be at:
    #   X-8 if the caller takes 4 bytes of args for the exit-descriptor (add 4 bytes for the return address)
    #   X-12 if the caller takes 8 bytes of args
    #   ..and so on
    # That's the value we need to return: X-nbytes-4
    #
    # However, we also need to account for the perturbance to esp caused by the
    # call to tailor-exit-descriptor. It pushes 8 bytes of args followed by 4
    # bytes for the return address and 4 bytes to push ebp above.
    # So ebp at this point is X-16.
    #
    # So the return address for the next call in the caller is:
    #   ebp+8 if the caller takes 4 bytes of args
    #   ebp+4 if the caller takes 8 bytes of args
    #   ebp if the caller takes 12 bytes of args
    #   ebp-4 if the caller takes 16 bytes of args
    #   ..and so on
    # That's ebp+12-nbytes.
    # option 1: 6 + 3 bytes
#?     2d/subtract                     3/mod/direct    0/rm32/eax    .           .             .           .           .               8/imm32           # subtract from eax
#?     8d/copy-address                 0/mod/indirect  4/rm32/sib    5/base/ebp  0/index/eax   .           0/r32/eax   .               .                 # copy ebp+eax to eax
    # option 2: 2 + 4 bytes
    f7          3/subop/negate      3/mod/direct    0/rm32/eax    .           .             .           .           .               .                 # negate eax
    8d/copy-address                 1/mod/*+disp8   4/rm32/sib    5/base/ebp  0/index/eax   .           0/r32/eax   0xc/disp8         .               # copy ebp+eax+12 to eax
    # copy eax to ed->target
    8b/copy                         1/mod/*+disp8   5/rm32/ebp    .           .             .           1/r32/ecx   8/disp8         .                 # copy *(ebp+8) to ecx
    89/copy                         0/mod/indirect  1/rm32/ecx    .           .             .           0/r32/eax   .               .                 # copy eax to *ecx
    # initialize ed->value
    c7          0/subop/copy        1/mod/*+disp8   1/rm32/ecx    .           .             .           .           4/disp8         0/imm32           # copy to *(ecx+4)
$tailor-exit-descriptor:end:
    # . restore registers
    59/pop-to-ecx
    58/pop-to-eax
    # . epilogue
    89/copy                         3/mod/direct    4/rm32/esp    .           .             .           5/r32/ebp   .               .                 # copy ebp to esp
    5d/pop-to-ebp
    c3/return

stop:  # ed: (addr exit-descriptor), value: int
    # no prologue; one way or another, we're going to clobber registers
    # eax = ed
    8b/copy                         1/mod/*+disp8   4/rm32/sib    4/base/esp  4/index/none  .           0/r32/eax   4/disp8         .                 # copy *(esp+4) to eax
    # if (ed->target == 0) really exit
    81          7/subop/compare     0/mod/indirect  0/rm32/eax    .           .             .           .           .               0/imm32           # compare *eax
    75/jump-if-!=  $stop:fake/disp8
    # . syscall(exit, value)
    8b/copy                         1/mod/*+disp8   4/rm32/sib    4/base/esp  4/index/none  .           3/r32/ebx   8/disp8         .                 # copy *(esp+8) to ebx
    b8/copy-to-eax  1/imm32/exit
    cd/syscall  0x80/imm8
$stop:fake:
    # otherwise:
    # ed->value = value+1
    8b/copy                         1/mod/*+disp8   4/rm32/sib    4/base/esp  4/index/none  .           1/r32/ecx   8/disp8         .                 # copy *(esp+8) to ecx
    41/increment-ecx
    89/copy                         1/mod/*+disp8   0/rm32/eax    .           .             .           1/r32/ecx   4/disp8         .                 # copy ecx to *(eax+4)
    # perform a non-local jump to ed->target
    8b/copy                         0/mod/indirect  0/rm32/eax    .           .             .           4/r32/esp   .               .                 # copy *eax to esp
$stop:end:
    c3/return  # doesn't return to caller

test-stop-skips-returns-on-exit:
    # This looks like the standard prologue, but is here for different reasons.
    # A function calling 'stop' can't rely on ebp persisting past the call.
    #
    # Use ebp here as a stable base to refer to locals and arguments from in the
    # presence of push/pop/call instructions.
    # *Don't* use ebp as a way to restore esp.
    55/push-ebp
    89/copy                         3/mod/direct    5/rm32/ebp    .           .             .           4/r32/esp   .               .                 # copy esp to ebp
    # Make room for an exit descriptor on the stack. That's almost always the
    # right place for it, available only as long as it's legal to use. Once this
    # containing function returns we'll need a new exit descriptor.
    # var ed/eax: exit-descriptor
    68/push  0/imm32
    68/push  0/imm32
    89/copy                         3/mod/direct    0/rm32/eax    .           .             .           4/r32/esp   .               .                 # copy esp to eax
    # Size the exit-descriptor precisely for the next call below, to _test-stop-1.
    # tailor-exit-descriptor(ed, 4)
    # . . push args
    68/push  4/imm32/nbytes-of-args-for-_test-stop-1
    50/push-eax
    # . . call
    e8/call  tailor-exit-descriptor/disp32
    # . . discard args
    81          0/subop/add         3/mod/direct    4/rm32/esp    .           .             .           .           .               8/imm32           # add to esp
    # . _test-stop-1(ed)
    # . . push args
    50/push-eax
    # . . call
    e8/call  _test-stop-1/disp32
    # registers except esp may be clobbered at this point
    # restore args
    58/pop-to-eax
    # check that _test-stop-1 tried to call exit(1)
    # . check-ints-equal(ed->value, 2, msg)  # i.e. stop was called with value 1
    # . . push args
    68/push  "F - test-stop-skips-returns-on-exit"/imm32
    68/push  2/imm32
    # . . push ed->value
    ff          6/subop/push        1/mod/*+disp8   0/rm32/eax    .           .             .           .           4/disp8         .                 # push *(eax+4)
    # . . call
    e8/call  check-ints-equal/disp32
    # . . discard args
    81          0/subop/add         3/mod/direct    4/rm32/esp    .           .             .           .           .               0xc/imm32         # add to esp
    # . epilogue
    # don't restore esp from ebp; manually reclaim locals
    81          0/subop/add         3/mod/direct    4/rm32/esp    .           .             .           .           .               8/imm32           # add to esp
    5d/pop-to-ebp
    c3/return

_test-stop-1:  # ed: (addr exit-descriptor)
    # . prologue
    55/push-ebp
    89/copy                         3/mod/direct    5/rm32/ebp    .           .             .           4/r32/esp   .               .                 # copy esp to ebp
    # _test-stop-2(ed)
    # . . push args
    ff          6/subop/push        1/mod/*+disp8   5/rm32/ebp    .           .             .           .           8/disp8         .                 # push *(ebp+8)
    # . . call
    e8/call  _test-stop-2/disp32
    # should never get past this point
$_test-stop-1:dead-end:
    # . . discard args
    81          0/subop/add         3/mod/direct    4/rm32/esp    .           .             .           .           .               4/imm32           # add to esp
    # signal test failed: check-ints-equal(1, 0, msg)
    # . . push args
    68/push  "F - test-stop-skips-returns-on-exit"/imm32
    68/push  0/imm32
    68/push  1/imm32
    # . . call
    e8/call  check-ints-equal/disp32
    # . . discard args
    81          0/subop/add         3/mod/direct    4/rm32/esp    .           .             .           .           .               0xc/imm32         # add to esp
    # . epilogue
    89/copy                         3/mod/direct    4/rm32/esp    .           .             .           5/r32/ebp   .               .                 # copy ebp to esp
    5d/pop-to-ebp
    c3/return

_test-stop-2:  # ed: (addr exit-descriptor)
    # . prologue
    55/push-ebp
    89/copy                         3/mod/direct    5/rm32/ebp    .           .             .           4/r32/esp   .               .                 # copy esp to ebp
    # . stop(ed, 1)
    # . . push args
    68/push  1/imm32
    ff          6/subop/push        1/mod/*+disp8   5/rm32/ebp    .           .             .           .           8/disp8         .                 # push *(ebp+8)
    # . . call
    e8/call  stop/disp32
    # should never get past this point
$_test-stop-2:dead-end:
    # . epilogue
    89/copy                         3/mod/direct    4/rm32/esp    .           .             .           5/r32/ebp   .               .                 # copy ebp to esp
    5d/pop-to-ebp
    c3/return

# . . vim:nowrap:textwidth=0