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dda83cd783
Many spots incorrectly use only spaces for indentation (for example, there are a lot of spots in ada-lang.c). I've always found it awkward when I needed to edit one of these spots: do I keep the original wrong indentation, or do I fix it? What if the lines around it are also wrong, do I fix them too? I probably don't want to fix them in the same patch, to avoid adding noise to my patch. So I propose to fix as much as possible once and for all (hopefully). One typical counter argument for this is that it makes code archeology more difficult, because git-blame will show this commit as the last change for these lines. My counter counter argument is: when git-blaming, you often need to do "blame the file at the parent commit" anyway, to go past some other refactor that touched the line you are interested in, but is not the change you are looking for. So you already need a somewhat efficient way to do this. Using some interactive tool, rather than plain git-blame, makes this trivial. For example, I use "tig blame <file>", where going back past the commit that changed the currently selected line is one keystroke. It looks like Magit in Emacs does it too (though I've never used it). Web viewers of Github and Gitlab do it too. My point is that it won't really make archeology more difficult. The other typical counter argument is that it will cause conflicts with existing patches. That's true... but it's a one time cost, and those are not conflicts that are difficult to resolve. I have also tried "git rebase --ignore-whitespace", it seems to work well. Although that will re-introduce the faulty indentation, so one needs to take care of fixing the indentation in the patch after that (which is easy). gdb/ChangeLog: * aarch64-linux-tdep.c: Fix indentation. * aarch64-ravenscar-thread.c: Fix indentation. * aarch64-tdep.c: Fix indentation. * aarch64-tdep.h: Fix indentation. * ada-lang.c: Fix indentation. * ada-lang.h: Fix indentation. * ada-tasks.c: Fix indentation. * ada-typeprint.c: Fix indentation. * ada-valprint.c: Fix indentation. * ada-varobj.c: Fix indentation. * addrmap.c: Fix indentation. * addrmap.h: Fix indentation. * agent.c: Fix indentation. * aix-thread.c: Fix indentation. * alpha-bsd-nat.c: Fix indentation. * alpha-linux-tdep.c: Fix indentation. * alpha-mdebug-tdep.c: Fix indentation. * alpha-nbsd-tdep.c: Fix indentation. * alpha-obsd-tdep.c: Fix indentation. * alpha-tdep.c: Fix indentation. * amd64-bsd-nat.c: Fix indentation. * amd64-darwin-tdep.c: Fix indentation. * amd64-linux-nat.c: Fix indentation. * amd64-linux-tdep.c: Fix indentation. * amd64-nat.c: Fix indentation. * amd64-obsd-tdep.c: Fix indentation. * amd64-tdep.c: Fix indentation. * amd64-windows-tdep.c: Fix indentation. * annotate.c: Fix indentation. * arc-tdep.c: Fix indentation. * arch-utils.c: Fix indentation. * arch/arm-get-next-pcs.c: Fix indentation. * arch/arm.c: Fix indentation. * arm-linux-nat.c: Fix indentation. * arm-linux-tdep.c: Fix indentation. * arm-nbsd-tdep.c: Fix indentation. * arm-pikeos-tdep.c: Fix indentation. * arm-tdep.c: Fix indentation. * arm-tdep.h: Fix indentation. * arm-wince-tdep.c: Fix indentation. * auto-load.c: Fix indentation. * auxv.c: Fix indentation. * avr-tdep.c: Fix indentation. * ax-gdb.c: Fix indentation. * ax-general.c: Fix indentation. * bfin-linux-tdep.c: Fix indentation. * block.c: Fix indentation. * block.h: Fix indentation. * blockframe.c: Fix indentation. * bpf-tdep.c: Fix indentation. * break-catch-sig.c: Fix indentation. * break-catch-syscall.c: Fix indentation. * break-catch-throw.c: Fix indentation. * breakpoint.c: Fix indentation. * breakpoint.h: Fix indentation. * bsd-uthread.c: Fix indentation. * btrace.c: Fix indentation. * build-id.c: Fix indentation. * buildsym-legacy.h: Fix indentation. * buildsym.c: Fix indentation. * c-typeprint.c: Fix indentation. * c-valprint.c: Fix indentation. * c-varobj.c: Fix indentation. * charset.c: Fix indentation. * cli/cli-cmds.c: Fix indentation. * cli/cli-decode.c: Fix indentation. * cli/cli-decode.h: Fix indentation. * cli/cli-script.c: Fix indentation. * cli/cli-setshow.c: Fix indentation. * coff-pe-read.c: Fix indentation. * coffread.c: Fix indentation. * compile/compile-cplus-types.c: Fix indentation. * compile/compile-object-load.c: Fix indentation. * compile/compile-object-run.c: Fix indentation. * completer.c: Fix indentation. * corefile.c: Fix indentation. * corelow.c: Fix indentation. * cp-abi.h: Fix indentation. * cp-namespace.c: Fix indentation. * cp-support.c: Fix indentation. * cp-valprint.c: Fix indentation. * cris-linux-tdep.c: Fix indentation. * cris-tdep.c: Fix indentation. * darwin-nat-info.c: Fix indentation. * darwin-nat.c: Fix indentation. * darwin-nat.h: Fix indentation. * dbxread.c: Fix indentation. * dcache.c: Fix indentation. * disasm.c: Fix indentation. * dtrace-probe.c: Fix indentation. * dwarf2/abbrev.c: Fix indentation. * dwarf2/attribute.c: Fix indentation. * dwarf2/expr.c: Fix indentation. * dwarf2/frame.c: Fix indentation. * dwarf2/index-cache.c: Fix indentation. * dwarf2/index-write.c: Fix indentation. * dwarf2/line-header.c: Fix indentation. * dwarf2/loc.c: Fix indentation. * dwarf2/macro.c: Fix indentation. * dwarf2/read.c: Fix indentation. * dwarf2/read.h: Fix indentation. * elfread.c: Fix indentation. * eval.c: Fix indentation. * event-top.c: Fix indentation. * exec.c: Fix indentation. * exec.h: Fix indentation. * expprint.c: Fix indentation. * f-lang.c: Fix indentation. * f-typeprint.c: Fix indentation. * f-valprint.c: Fix indentation. * fbsd-nat.c: Fix indentation. * fbsd-tdep.c: Fix indentation. * findvar.c: Fix indentation. * fork-child.c: Fix indentation. * frame-unwind.c: Fix indentation. * frame-unwind.h: Fix indentation. * frame.c: Fix indentation. * frv-linux-tdep.c: Fix indentation. * frv-tdep.c: Fix indentation. * frv-tdep.h: Fix indentation. * ft32-tdep.c: Fix indentation. * gcore.c: Fix indentation. * gdb_bfd.c: Fix indentation. * gdbarch.sh: Fix indentation. * gdbarch.c: Re-generate * gdbarch.h: Re-generate. * gdbcore.h: Fix indentation. * gdbthread.h: Fix indentation. * gdbtypes.c: Fix indentation. * gdbtypes.h: Fix indentation. * glibc-tdep.c: Fix indentation. * gnu-nat.c: Fix indentation. * gnu-nat.h: Fix indentation. * gnu-v2-abi.c: Fix indentation. * gnu-v3-abi.c: Fix indentation. * go32-nat.c: Fix indentation. * guile/guile-internal.h: Fix indentation. * guile/scm-cmd.c: Fix indentation. * guile/scm-frame.c: Fix indentation. * guile/scm-iterator.c: Fix indentation. * guile/scm-math.c: Fix indentation. * guile/scm-ports.c: Fix indentation. * guile/scm-pretty-print.c: Fix indentation. * guile/scm-value.c: Fix indentation. * h8300-tdep.c: Fix indentation. * hppa-linux-nat.c: Fix indentation. * hppa-linux-tdep.c: Fix indentation. * hppa-nbsd-nat.c: Fix indentation. * hppa-nbsd-tdep.c: Fix indentation. * hppa-obsd-nat.c: Fix indentation. * hppa-tdep.c: Fix indentation. * hppa-tdep.h: Fix indentation. * i386-bsd-nat.c: Fix indentation. * i386-darwin-nat.c: Fix indentation. * i386-darwin-tdep.c: Fix indentation. * i386-dicos-tdep.c: Fix indentation. * i386-gnu-nat.c: Fix indentation. * i386-linux-nat.c: Fix indentation. * i386-linux-tdep.c: Fix indentation. * i386-nto-tdep.c: Fix indentation. * i386-obsd-tdep.c: Fix indentation. * i386-sol2-nat.c: Fix indentation. * i386-tdep.c: Fix indentation. * i386-tdep.h: Fix indentation. * i386-windows-tdep.c: Fix indentation. * i387-tdep.c: Fix indentation. * i387-tdep.h: Fix indentation. * ia64-libunwind-tdep.c: Fix indentation. * ia64-libunwind-tdep.h: Fix indentation. * ia64-linux-nat.c: Fix indentation. * ia64-linux-tdep.c: Fix indentation. * ia64-tdep.c: Fix indentation. * ia64-tdep.h: Fix indentation. * ia64-vms-tdep.c: Fix indentation. * infcall.c: Fix indentation. * infcmd.c: Fix indentation. * inferior.c: Fix indentation. * infrun.c: Fix indentation. * iq2000-tdep.c: Fix indentation. * language.c: Fix indentation. * linespec.c: Fix indentation. * linux-fork.c: Fix indentation. * linux-nat.c: Fix indentation. * linux-tdep.c: Fix indentation. * linux-thread-db.c: Fix indentation. * lm32-tdep.c: Fix indentation. * m2-lang.c: Fix indentation. * m2-typeprint.c: Fix indentation. * m2-valprint.c: Fix indentation. * m32c-tdep.c: Fix indentation. * m32r-linux-tdep.c: Fix indentation. * m32r-tdep.c: Fix indentation. * m68hc11-tdep.c: Fix indentation. * m68k-bsd-nat.c: Fix indentation. * m68k-linux-nat.c: Fix indentation. * m68k-linux-tdep.c: Fix indentation. * m68k-tdep.c: Fix indentation. * machoread.c: Fix indentation. * macrocmd.c: Fix indentation. * macroexp.c: Fix indentation. * macroscope.c: Fix indentation. * macrotab.c: Fix indentation. * macrotab.h: Fix indentation. * main.c: Fix indentation. * mdebugread.c: Fix indentation. * mep-tdep.c: Fix indentation. * mi/mi-cmd-catch.c: Fix indentation. * mi/mi-cmd-disas.c: Fix indentation. * mi/mi-cmd-env.c: Fix indentation. * mi/mi-cmd-stack.c: Fix indentation. * mi/mi-cmd-var.c: Fix indentation. * mi/mi-cmds.c: Fix indentation. * mi/mi-main.c: Fix indentation. * mi/mi-parse.c: Fix indentation. * microblaze-tdep.c: Fix indentation. * minidebug.c: Fix indentation. * minsyms.c: Fix indentation. * mips-linux-nat.c: Fix indentation. * mips-linux-tdep.c: Fix indentation. * mips-nbsd-tdep.c: Fix indentation. * mips-tdep.c: Fix indentation. * mn10300-linux-tdep.c: Fix indentation. * mn10300-tdep.c: Fix indentation. * moxie-tdep.c: Fix indentation. * msp430-tdep.c: Fix indentation. * namespace.h: Fix indentation. * nat/fork-inferior.c: Fix indentation. * nat/gdb_ptrace.h: Fix indentation. * nat/linux-namespaces.c: Fix indentation. * nat/linux-osdata.c: Fix indentation. * nat/netbsd-nat.c: Fix indentation. * nat/x86-dregs.c: Fix indentation. * nbsd-nat.c: Fix indentation. * nbsd-tdep.c: Fix indentation. * nios2-linux-tdep.c: Fix indentation. * nios2-tdep.c: Fix indentation. * nto-procfs.c: Fix indentation. * nto-tdep.c: Fix indentation. * objfiles.c: Fix indentation. * objfiles.h: Fix indentation. * opencl-lang.c: Fix indentation. * or1k-tdep.c: Fix indentation. * osabi.c: Fix indentation. * osabi.h: Fix indentation. * osdata.c: Fix indentation. * p-lang.c: Fix indentation. * p-typeprint.c: Fix indentation. * p-valprint.c: Fix indentation. * parse.c: Fix indentation. * ppc-linux-nat.c: Fix indentation. * ppc-linux-tdep.c: Fix indentation. * ppc-nbsd-nat.c: Fix indentation. * ppc-nbsd-tdep.c: Fix indentation. * ppc-obsd-nat.c: Fix indentation. * ppc-ravenscar-thread.c: Fix indentation. * ppc-sysv-tdep.c: Fix indentation. * ppc64-tdep.c: Fix indentation. * printcmd.c: Fix indentation. * proc-api.c: Fix indentation. * producer.c: Fix indentation. * producer.h: Fix indentation. * prologue-value.c: Fix indentation. * prologue-value.h: Fix indentation. * psymtab.c: Fix indentation. * python/py-arch.c: Fix indentation. * python/py-bpevent.c: Fix indentation. * python/py-event.c: Fix indentation. * python/py-event.h: Fix indentation. * python/py-finishbreakpoint.c: Fix indentation. * python/py-frame.c: Fix indentation. * python/py-framefilter.c: Fix indentation. * python/py-inferior.c: Fix indentation. * python/py-infthread.c: Fix indentation. * python/py-objfile.c: Fix indentation. * python/py-prettyprint.c: Fix indentation. * python/py-registers.c: Fix indentation. * python/py-signalevent.c: Fix indentation. * python/py-stopevent.c: Fix indentation. * python/py-stopevent.h: Fix indentation. * python/py-threadevent.c: Fix indentation. * python/py-tui.c: Fix indentation. * python/py-unwind.c: Fix indentation. * python/py-value.c: Fix indentation. * python/py-xmethods.c: Fix indentation. * python/python-internal.h: Fix indentation. * python/python.c: Fix indentation. * ravenscar-thread.c: Fix indentation. * record-btrace.c: Fix indentation. * record-full.c: Fix indentation. * record.c: Fix indentation. * reggroups.c: Fix indentation. * regset.h: Fix indentation. * remote-fileio.c: Fix indentation. * remote.c: Fix indentation. * reverse.c: Fix indentation. * riscv-linux-tdep.c: Fix indentation. * riscv-ravenscar-thread.c: Fix indentation. * riscv-tdep.c: Fix indentation. * rl78-tdep.c: Fix indentation. * rs6000-aix-tdep.c: Fix indentation. * rs6000-lynx178-tdep.c: Fix indentation. * rs6000-nat.c: Fix indentation. * rs6000-tdep.c: Fix indentation. * rust-lang.c: Fix indentation. * rx-tdep.c: Fix indentation. * s12z-tdep.c: Fix indentation. * s390-linux-tdep.c: Fix indentation. * score-tdep.c: Fix indentation. * ser-base.c: Fix indentation. * ser-mingw.c: Fix indentation. * ser-uds.c: Fix indentation. * ser-unix.c: Fix indentation. * serial.c: Fix indentation. * sh-linux-tdep.c: Fix indentation. * sh-nbsd-tdep.c: Fix indentation. * sh-tdep.c: Fix indentation. * skip.c: Fix indentation. * sol-thread.c: Fix indentation. * solib-aix.c: Fix indentation. * solib-darwin.c: Fix indentation. * solib-frv.c: Fix indentation. * solib-svr4.c: Fix indentation. * solib.c: Fix indentation. * source.c: Fix indentation. * sparc-linux-tdep.c: Fix indentation. * sparc-nbsd-tdep.c: Fix indentation. * sparc-obsd-tdep.c: Fix indentation. * sparc-ravenscar-thread.c: Fix indentation. * sparc-tdep.c: Fix indentation. * sparc64-linux-tdep.c: Fix indentation. * sparc64-nbsd-tdep.c: Fix indentation. * sparc64-obsd-tdep.c: Fix indentation. * sparc64-tdep.c: Fix indentation. * stabsread.c: Fix indentation. * stack.c: Fix indentation. * stap-probe.c: Fix indentation. * stubs/ia64vms-stub.c: Fix indentation. * stubs/m32r-stub.c: Fix indentation. * stubs/m68k-stub.c: Fix indentation. * stubs/sh-stub.c: Fix indentation. * stubs/sparc-stub.c: Fix indentation. * symfile-mem.c: Fix indentation. * symfile.c: Fix indentation. * symfile.h: Fix indentation. * symmisc.c: Fix indentation. * symtab.c: Fix indentation. * symtab.h: Fix indentation. * target-float.c: Fix indentation. * target.c: Fix indentation. * target.h: Fix indentation. * tic6x-tdep.c: Fix indentation. * tilegx-linux-tdep.c: Fix indentation. * tilegx-tdep.c: Fix indentation. * top.c: Fix indentation. * tracefile-tfile.c: Fix indentation. * tracepoint.c: Fix indentation. * tui/tui-disasm.c: Fix indentation. * tui/tui-io.c: Fix indentation. * tui/tui-regs.c: Fix indentation. * tui/tui-stack.c: Fix indentation. * tui/tui-win.c: Fix indentation. * tui/tui-winsource.c: Fix indentation. * tui/tui.c: Fix indentation. * typeprint.c: Fix indentation. * ui-out.h: Fix indentation. * unittests/copy_bitwise-selftests.c: Fix indentation. * unittests/memory-map-selftests.c: Fix indentation. * utils.c: Fix indentation. * v850-tdep.c: Fix indentation. * valarith.c: Fix indentation. * valops.c: Fix indentation. * valprint.c: Fix indentation. * valprint.h: Fix indentation. * value.c: Fix indentation. * value.h: Fix indentation. * varobj.c: Fix indentation. * vax-tdep.c: Fix indentation. * windows-nat.c: Fix indentation. * windows-tdep.c: Fix indentation. * xcoffread.c: Fix indentation. * xml-syscall.c: Fix indentation. * xml-tdesc.c: Fix indentation. * xstormy16-tdep.c: Fix indentation. * xtensa-config.c: Fix indentation. * xtensa-linux-nat.c: Fix indentation. * xtensa-linux-tdep.c: Fix indentation. * xtensa-tdep.c: Fix indentation. gdbserver/ChangeLog: * ax.cc: Fix indentation. * dll.cc: Fix indentation. * inferiors.h: Fix indentation. * linux-low.cc: Fix indentation. * linux-nios2-low.cc: Fix indentation. * linux-ppc-ipa.cc: Fix indentation. * linux-ppc-low.cc: Fix indentation. * linux-x86-low.cc: Fix indentation. * linux-xtensa-low.cc: Fix indentation. * regcache.cc: Fix indentation. * server.cc: Fix indentation. * tracepoint.cc: Fix indentation. gdbsupport/ChangeLog: * common-exceptions.h: Fix indentation. * event-loop.cc: Fix indentation. * fileio.cc: Fix indentation. * filestuff.cc: Fix indentation. * gdb-dlfcn.cc: Fix indentation. * gdb_string_view.h: Fix indentation. * job-control.cc: Fix indentation. * signals.cc: Fix indentation. Change-Id: I4bad7ae6be0fbe14168b8ebafb98ffe14964a695
331 lines
12 KiB
C++
331 lines
12 KiB
C++
/* Interface to prologue value handling for GDB.
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Copyright (C) 2003-2020 Free Software Foundation, Inc.
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This file is part of GDB.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>. */
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#ifndef PROLOGUE_VALUE_H
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#define PROLOGUE_VALUE_H
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/* What sort of value is this? This determines the interpretation
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of subsequent fields. */
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enum prologue_value_kind
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{
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/* We don't know anything about the value. This is also used for
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values we could have kept track of, when doing so would have
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been too complex and we don't want to bother. The bottom of
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our lattice. */
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pvk_unknown,
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/* A known constant. K is its value. */
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pvk_constant,
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/* The value that register REG originally had *UPON ENTRY TO THE
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FUNCTION*, plus K. If K is zero, this means, obviously, just
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the value REG had upon entry to the function. REG is a GDB
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register number. Before we start interpreting, we initialize
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every register R to { pvk_register, R, 0 }. */
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pvk_register,
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};
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/* When we analyze a prologue, we're really doing 'abstract
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interpretation' or 'pseudo-evaluation': running the function's code
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in simulation, but using conservative approximations of the values
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it would have when it actually runs. For example, if our function
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starts with the instruction:
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addi r1, 42 # add 42 to r1
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we don't know exactly what value will be in r1 after executing this
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instruction, but we do know it'll be 42 greater than its original
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value.
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If we then see an instruction like:
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addi r1, 22 # add 22 to r1
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we still don't know what r1's value is, but again, we can say it is
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now 64 greater than its original value.
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If the next instruction were:
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mov r2, r1 # set r2 to r1's value
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then we can say that r2's value is now the original value of r1
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plus 64.
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It's common for prologues to save registers on the stack, so we'll
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need to track the values of stack frame slots, as well as the
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registers. So after an instruction like this:
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mov (fp+4), r2
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then we'd know that the stack slot four bytes above the frame
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pointer holds the original value of r1 plus 64.
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And so on.
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Of course, this can only go so far before it gets unreasonable. If
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we wanted to be able to say anything about the value of r1 after
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the instruction:
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xor r1, r3 # exclusive-or r1 and r3, place result in r1
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then things would get pretty complex. But remember, we're just
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doing a conservative approximation; if exclusive-or instructions
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aren't relevant to prologues, we can just say r1's value is now
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'unknown'. We can ignore things that are too complex, if that loss
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of information is acceptable for our application.
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So when I say "conservative approximation" here, what I mean is an
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approximation that is either accurate, or marked "unknown", but
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never inaccurate.
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Once you've reached the current PC, or an instruction that you
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don't know how to simulate, you stop. Now you can examine the
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state of the registers and stack slots you've kept track of.
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- To see how large your stack frame is, just check the value of the
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stack pointer register; if it's the original value of the SP
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minus a constant, then that constant is the stack frame's size.
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If the SP's value has been marked as 'unknown', then that means
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the prologue has done something too complex for us to track, and
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we don't know the frame size.
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- To see where we've saved the previous frame's registers, we just
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search the values we've tracked --- stack slots, usually, but
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registers, too, if you want --- for something equal to the
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register's original value. If the ABI suggests a standard place
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to save a given register, then we can check there first, but
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really, anything that will get us back the original value will
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probably work.
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Sure, this takes some work. But prologue analyzers aren't
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quick-and-simple pattern patching to recognize a few fixed prologue
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forms any more; they're big, hairy functions. Along with inferior
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function calls, prologue analysis accounts for a substantial
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portion of the time needed to stabilize a GDB port. So I think
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it's worthwhile to look for an approach that will be easier to
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understand and maintain. In the approach used here:
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- It's easier to see that the analyzer is correct: you just see
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whether the analyzer properly (albeit conservatively) simulates
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the effect of each instruction.
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- It's easier to extend the analyzer: you can add support for new
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instructions, and know that you haven't broken anything that
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wasn't already broken before.
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- It's orthogonal: to gather new information, you don't need to
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complicate the code for each instruction. As long as your domain
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of conservative values is already detailed enough to tell you
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what you need, then all the existing instruction simulations are
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already gathering the right data for you.
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A 'struct prologue_value' is a conservative approximation of the
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real value the register or stack slot will have. */
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struct prologue_value {
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/* What sort of value is this? This determines the interpretation
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of subsequent fields. */
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enum prologue_value_kind kind;
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/* The meanings of the following fields depend on 'kind'; see the
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comments for the specific 'kind' values. */
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int reg;
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CORE_ADDR k;
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};
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typedef struct prologue_value pv_t;
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/* Return the unknown prologue value --- { pvk_unknown, ?, ? }. */
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pv_t pv_unknown (void);
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/* Return the prologue value representing the constant K. */
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pv_t pv_constant (CORE_ADDR k);
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/* Return the prologue value representing the original value of
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register REG, plus the constant K. */
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pv_t pv_register (int reg, CORE_ADDR k);
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/* Return conservative approximations of the results of the following
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operations. */
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pv_t pv_add (pv_t a, pv_t b); /* a + b */
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pv_t pv_add_constant (pv_t v, CORE_ADDR k); /* a + k */
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pv_t pv_subtract (pv_t a, pv_t b); /* a - b */
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pv_t pv_logical_and (pv_t a, pv_t b); /* a & b */
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/* Return non-zero iff A and B are identical expressions.
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This is not the same as asking if the two values are equal; the
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result of such a comparison would have to be a pv_boolean, and
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asking whether two 'unknown' values were equal would give you
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pv_maybe. Same for comparing, say, { pvk_register, R1, 0 } and {
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pvk_register, R2, 0}.
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Instead, this function asks whether the two representations are the
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|
same. */
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int pv_is_identical (pv_t a, pv_t b);
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/* Return non-zero if A is known to be a constant. */
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int pv_is_constant (pv_t a);
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/* Return non-zero if A is the original value of register number R
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plus some constant, zero otherwise. */
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int pv_is_register (pv_t a, int r);
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/* Return non-zero if A is the original value of register R plus the
|
|
constant K. */
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int pv_is_register_k (pv_t a, int r, CORE_ADDR k);
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/* A conservative boolean type, including "maybe", when we can't
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figure out whether something is true or not. */
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enum pv_boolean {
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pv_maybe,
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pv_definite_yes,
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pv_definite_no,
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};
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/* Decide whether a reference to SIZE bytes at ADDR refers exactly to
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|
an element of an array. The array starts at ARRAY_ADDR, and has
|
|
ARRAY_LEN values of ELT_SIZE bytes each. If ADDR definitely does
|
|
refer to an array element, set *I to the index of the referenced
|
|
element in the array, and return pv_definite_yes. If it definitely
|
|
doesn't, return pv_definite_no. If we can't tell, return pv_maybe.
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|
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If the reference does touch the array, but doesn't fall exactly on
|
|
an element boundary, or doesn't refer to the whole element, return
|
|
pv_maybe. */
|
|
enum pv_boolean pv_is_array_ref (pv_t addr, CORE_ADDR size,
|
|
pv_t array_addr, CORE_ADDR array_len,
|
|
CORE_ADDR elt_size,
|
|
int *i);
|
|
|
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|
|
/* A 'pv_area' keeps track of values stored in a particular region of
|
|
memory. */
|
|
class pv_area
|
|
{
|
|
public:
|
|
|
|
/* Create a new area, tracking stores relative to the original value
|
|
of BASE_REG. If BASE_REG is SP, then this effectively records the
|
|
contents of the stack frame: the original value of the SP is the
|
|
frame's CFA, or some constant offset from it.
|
|
|
|
Stores to constant addresses, unknown addresses, or to addresses
|
|
relative to registers other than BASE_REG will trash this area; see
|
|
pv_area::store_would_trash.
|
|
|
|
To check whether a pointer refers to this area, only the low
|
|
ADDR_BIT bits will be compared. */
|
|
pv_area (int base_reg, int addr_bit);
|
|
|
|
~pv_area ();
|
|
|
|
DISABLE_COPY_AND_ASSIGN (pv_area);
|
|
|
|
/* Store the SIZE-byte value VALUE at ADDR in AREA.
|
|
|
|
If ADDR is not relative to the same base register we used in
|
|
creating AREA, then we can't tell which values here the stored
|
|
value might overlap, and we'll have to mark everything as
|
|
unknown. */
|
|
void store (pv_t addr,
|
|
CORE_ADDR size,
|
|
pv_t value);
|
|
|
|
/* Return the SIZE-byte value at ADDR in AREA. This may return
|
|
pv_unknown (). */
|
|
pv_t fetch (pv_t addr, CORE_ADDR size);
|
|
|
|
/* Return true if storing to address ADDR in AREA would force us to
|
|
mark the contents of the entire area as unknown. This could happen
|
|
if, say, ADDR is unknown, since we could be storing anywhere. Or,
|
|
it could happen if ADDR is relative to a different register than
|
|
the other stores base register, since we don't know the relative
|
|
values of the two registers.
|
|
|
|
If you've reached such a store, it may be better to simply stop the
|
|
prologue analysis, and return the information you've gathered,
|
|
instead of losing all that information, most of which is probably
|
|
okay. */
|
|
bool store_would_trash (pv_t addr);
|
|
|
|
/* Search AREA for the original value of REGISTER. If we can't find
|
|
it, return zero; if we can find it, return a non-zero value, and if
|
|
OFFSET_P is non-zero, set *OFFSET_P to the register's offset within
|
|
AREA. GDBARCH is the architecture of which REGISTER is a member.
|
|
|
|
In the worst case, this takes time proportional to the number of
|
|
items stored in AREA. If you plan to gather a lot of information
|
|
about registers saved in AREA, consider calling pv_area::scan
|
|
instead, and collecting all your information in one pass. */
|
|
bool find_reg (struct gdbarch *gdbarch, int reg, CORE_ADDR *offset_p);
|
|
|
|
|
|
/* For every part of AREA whose value we know, apply FUNC to CLOSURE,
|
|
the value's address, its size, and the value itself. */
|
|
void scan (void (*func) (void *closure,
|
|
pv_t addr,
|
|
CORE_ADDR size,
|
|
pv_t value),
|
|
void *closure);
|
|
|
|
private:
|
|
|
|
struct area_entry;
|
|
|
|
/* Delete all entries from AREA. */
|
|
void clear_entries ();
|
|
|
|
/* Return a pointer to the first entry we hit in AREA starting at
|
|
OFFSET and going forward.
|
|
|
|
This may return zero, if AREA has no entries.
|
|
|
|
And since the entries are a ring, this may return an entry that
|
|
entirely precedes OFFSET. This is the correct behavior: depending
|
|
on the sizes involved, we could still overlap such an area, with
|
|
wrap-around. */
|
|
struct area_entry *find_entry (CORE_ADDR offset);
|
|
|
|
/* Return non-zero if the SIZE bytes at OFFSET would overlap ENTRY;
|
|
return zero otherwise. AREA is the area to which ENTRY belongs. */
|
|
int overlaps (struct area_entry *entry,
|
|
CORE_ADDR offset,
|
|
CORE_ADDR size);
|
|
|
|
/* This area's base register. */
|
|
int m_base_reg;
|
|
|
|
/* The mask to apply to addresses, to make the wrap-around happen at
|
|
the right place. */
|
|
CORE_ADDR m_addr_mask;
|
|
|
|
/* An element of the doubly-linked ring of entries, or zero if we
|
|
have none. */
|
|
struct area_entry *m_entry;
|
|
};
|
|
|
|
#endif /* PROLOGUE_VALUE_H */
|