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16774daa59
SEH _Unwind_Resume_or_Rethrow invokes abort directly if _Unwind_RaiseException doesn't manage to find a handler for the rethrown exception; this is incorrect, as in this case std::terminate should be invoked, allowing an application-provided terminate handler to handle the situation instead of straight crashing the application through abort. The bug can be demonstrated with this simple test case: === static void custom_terminate_handler() { fprintf(stderr, "custom_terminate_handler invoked\n"); std::exit(1); } int main(int argc, char *argv[]) { std::set_terminate(&custom_terminate_handler); if (argc < 2) return 1; const char *mode = argv[1]; fprintf(stderr, "%s\n", mode); if (strcmp(mode, "throw") == 0) { throw std::exception(); } else if (strcmp(mode, "rethrow") == 0) { try { throw std::exception(); } catch (...) { throw; } } else { return 1; } return 0; } === On all gcc builds with non-SEH exceptions, this will print "custom_terminate_handler invoked" both if launched as ./a.out throw or as ./a.out rethrow, on SEH builds instead if will work as expected only with ./a.exe throw, but will crash with the "built-in" abort message with ./a.exe rethrow. This patch fixes the problem, forwarding back the error code to the caller (__cxa_rethrow), that calls std::terminate if _Unwind_Resume_or_Rethrow returns. The change makes the code path coherent with SEH _Unwind_RaiseException, and with the generic _Unwind_Resume_or_Rethrow from libgcc/unwind.inc (used for SjLj and Dw2 exception backend). libgcc/ChangeLog: PR libgcc/113337 * unwind-seh.c (_Unwind_Resume_or_Rethrow): forward _Unwind_RaiseException return code back to caller instead of calling abort, allowing __cxa_rethrow to invoke std::terminate in case of uncaught rethrown exception
484 lines
15 KiB
C
484 lines
15 KiB
C
/* Structured Exception Handling (SEH) runtime interface routines.
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Copyright (C) 2010-2024 Free Software Foundation, Inc.
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This file is part of GCC.
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GCC is free software; you can redistribute it and/or modify it
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under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3, or (at your option)
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any later version.
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GCC is distributed in the hope that it will be useful, but WITHOUT
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ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
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or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
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License for more details.
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Under Section 7 of GPL version 3, you are granted additional
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permissions described in the GCC Runtime Library Exception, version
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3.1, as published by the Free Software Foundation.
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You should have received a copy of the GNU General Public License and
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a copy of the GCC Runtime Library Exception along with this program;
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see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
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<http://www.gnu.org/licenses/>. */
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#include "tconfig.h"
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#include "tsystem.h"
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#include "coretypes.h"
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#include "tm.h"
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#include "unwind.h"
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#if defined (__SEH__) && !defined (__USING_SJLJ_EXCEPTIONS__)
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/* At the moment everything is written for x64, but in theory this could
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also be used for i386, arm, mips and other extant embedded Windows. */
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#ifndef __x86_64__
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#error "Unsupported architecture."
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#endif
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/* Define GCC's exception codes. See
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http://msdn.microsoft.com/en-us/library/het71c37(v=VS.80).aspx
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In particular, MS defines bits:
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[31:30] = 3 (error), 2 (warning), 1 (info), 0 (success)
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[29] = 1 (user-defined)
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[28] = 0 (reserved)
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We define bits:
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[24:27] = type
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[0:23] = magic
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We set "magic" to "GCC", which is similar to MVC++ which uses "msc"
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as the low 3 bytes of its user-defined codes for C++ exceptions.
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We define the ExceptionInformation entries as follows:
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[0] = _Unwind_Exception pointer
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[1] = target frame
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[2] = target ip
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[3] = target rdx
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*/
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#define STATUS_USER_DEFINED (1U << 29)
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#define GCC_MAGIC (('G' << 16) | ('C' << 8) | 'C')
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#define GCC_EXCEPTION(TYPE) \
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(STATUS_USER_DEFINED | ((TYPE) << 24) | GCC_MAGIC)
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#define STATUS_GCC_THROW GCC_EXCEPTION (0)
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#define STATUS_GCC_UNWIND GCC_EXCEPTION (1)
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#define STATUS_GCC_FORCED GCC_EXCEPTION (2)
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struct _Unwind_Context
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{
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_Unwind_Word cfa;
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_Unwind_Word ra;
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_Unwind_Word reg[2];
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PDISPATCHER_CONTEXT disp;
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};
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/* Get the value of register INDEX as saved in CONTEXT. */
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_Unwind_Word
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_Unwind_GetGR (struct _Unwind_Context *c, int index)
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{
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if (index < 0 || index >= 2)
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abort ();
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return c->reg[index];
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}
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/* Overwrite the saved value for register INDEX in CONTEXT with VAL. */
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void
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_Unwind_SetGR (struct _Unwind_Context *c, int index, _Unwind_Word val)
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{
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if (index < 0 || index >= 2)
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abort ();
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c->reg[index] = val;
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}
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/* Get the value of the CFA as saved in CONTEXT. */
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_Unwind_Word
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_Unwind_GetCFA (struct _Unwind_Context *c)
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{
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return c->cfa;
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}
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/* Retrieve the return address for CONTEXT. */
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_Unwind_Ptr
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_Unwind_GetIP (struct _Unwind_Context *c)
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{
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return c->ra;
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}
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/* Retrieve the return address and flag whether that IP is before
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or after first not yet fully executed instruction. */
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_Unwind_Ptr
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_Unwind_GetIPInfo (struct _Unwind_Context *c, int *ip_before_insn)
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{
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/* ??? Is there a concept of a signal context properly? There's
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obviously an UNWP_PUSH_MACHFRAME opcode, but the runtime might
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have arranged for that not to matter, really. */
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*ip_before_insn = 0;
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return c->ra;
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}
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/* Overwrite the return address for CONTEXT with VAL. */
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void
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_Unwind_SetIP (struct _Unwind_Context *c, _Unwind_Ptr val)
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{
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c->ra = val;
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}
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void *
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_Unwind_GetLanguageSpecificData (struct _Unwind_Context *c)
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{
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return c->disp->HandlerData;
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}
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_Unwind_Ptr
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_Unwind_GetRegionStart (struct _Unwind_Context *c)
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{
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return c->disp->FunctionEntry->BeginAddress + c->disp->ImageBase;
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}
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void *
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_Unwind_FindEnclosingFunction (void *pc)
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{
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PRUNTIME_FUNCTION entry;
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ULONG64 ImageBase;
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entry = RtlLookupFunctionEntry ((ULONG64)pc, &ImageBase, NULL);
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return (entry ? (void *)(entry->BeginAddress + ImageBase) : NULL);
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}
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_Unwind_Ptr
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_Unwind_GetDataRelBase (struct _Unwind_Context *c ATTRIBUTE_UNUSED)
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{
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return 0;
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}
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_Unwind_Ptr
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_Unwind_GetTextRelBase (struct _Unwind_Context *c)
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{
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return c->disp->ImageBase;
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}
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/* The two-phase unwind process that GCC uses is ordered differently
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from the two-phase unwind process that SEH uses. The mechansism
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that GCC uses is to have the filter return _URC_HANDER_FOUND; the
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mechanism that SEH uses is for the filter function call back into
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the unwinder.
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An Ideal port to SEH would have GCC emit handler functions that
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can be called, given a pointer to the "EstablisherFrame" (i.e.
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the frame pointer base of the user-level function) can manipulate
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the user-level variables within the user-level function's stack
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frame. Once done manipulating the variables, it would return
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a ExceptionContinueSearch, and the unwind process would continue.
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GCC has always done things a bit differently. We continue to
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transfer control back into the user-level function which, once
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done manipulating the user-level variables, re-throws the exception. */
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/* The "real" language-specific personality handler forwards to here
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where we handle the MS SEH state and transforms it into the GCC
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unwind state as per GCC's <unwind.h>, at which point we defer to
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the regular language-specfic exception handler, which is passed in. */
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EXCEPTION_DISPOSITION
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_GCC_specific_handler (PEXCEPTION_RECORD ms_exc, void *this_frame,
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PCONTEXT ms_orig_context, PDISPATCHER_CONTEXT ms_disp,
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_Unwind_Personality_Fn gcc_per)
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{
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DWORD ms_flags = ms_exc->ExceptionFlags;
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DWORD ms_code = ms_exc->ExceptionCode;
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struct _Unwind_Exception *gcc_exc
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= (struct _Unwind_Exception *) ms_exc->ExceptionInformation[0];
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struct _Unwind_Context gcc_context;
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_Unwind_Action gcc_action;
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_Unwind_Reason_Code gcc_reason;
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if (ms_flags & EXCEPTION_TARGET_UNWIND)
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{
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/* This frame is known to be the target frame. We've already
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"installed" the target_ip and RAX value via the arguments
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to RtlUnwindEx. All that's left is to set the RDX value
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and "continue" to have the context installed. */
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ms_disp->ContextRecord->Rdx = ms_exc->ExceptionInformation[3];
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return ExceptionContinueSearch;
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}
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if (ms_code == STATUS_GCC_UNWIND)
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{
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/* This is a colliding exception that we threw so that we could
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cancel the already in-flight exception and stop in a frame
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that wanted to perform some unwind action. The only relevant
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test is that we're the target frame. */
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if (ms_exc->ExceptionInformation[1] == (_Unwind_Ptr) this_frame)
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{
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RtlUnwindEx (this_frame, (PVOID) ms_exc->ExceptionInformation[2],
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ms_exc, gcc_exc, ms_orig_context,
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ms_disp->HistoryTable);
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abort ();
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}
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return ExceptionContinueSearch;
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}
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gcc_context.cfa = ms_disp->ContextRecord->Rsp;
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gcc_context.ra = ms_disp->ControlPc;
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gcc_context.reg[0] = 0xdeadbeef; /* These are write-only. */
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gcc_context.reg[1] = 0xdeadbeef;
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gcc_context.disp = ms_disp;
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if (ms_code == STATUS_GCC_FORCED)
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{
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_Unwind_Stop_Fn stop = (_Unwind_Stop_Fn) gcc_exc->private_[0];
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void *stop_argument = (void *) gcc_exc->private_[4];
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gcc_action = _UA_FORCE_UNWIND | _UA_CLEANUP_PHASE;
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stop (1, gcc_action, gcc_exc->exception_class, gcc_exc,
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&gcc_context, stop_argument);
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goto phase2;
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}
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/* ??? TODO: handling non-gcc user-defined exceptions as foreign. */
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if (ms_code != STATUS_GCC_THROW)
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return ExceptionContinueSearch;
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if (ms_flags & (EXCEPTION_UNWINDING | EXCEPTION_EXIT_UNWIND))
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{
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/* This is Phase 2. */
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/* We know this isn't the target frame because we've already tested
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EXCEPTION_TARGET_UNWIND. The remaining possibility is that the
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gcc personality has unwind code to run. */
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gcc_action = _UA_CLEANUP_PHASE;
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phase2:
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gcc_reason = gcc_per (1, gcc_action, gcc_exc->exception_class,
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gcc_exc, &gcc_context);
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if (gcc_reason == _URC_CONTINUE_UNWIND)
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return ExceptionContinueSearch;
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if (gcc_reason == _URC_INSTALL_CONTEXT)
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{
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/* Scratch space for the bits for the unwind catch. */
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ms_exc->ExceptionInformation[1] = (_Unwind_Ptr) this_frame;
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ms_exc->ExceptionInformation[2] = gcc_context.ra;
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ms_exc->ExceptionInformation[3] = gcc_context.reg[1];
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/* Cancel the current exception by raising another. */
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RaiseException (STATUS_GCC_UNWIND, EXCEPTION_NONCONTINUABLE,
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4, ms_exc->ExceptionInformation);
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/* Is RaiseException declared noreturn? */
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}
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/* In _Unwind_RaiseException_Phase2 we return _URC_FATAL_PHASE2_ERROR. */
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}
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else
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{
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/* This is Phase 1. */
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gcc_reason = gcc_per (1, _UA_SEARCH_PHASE, gcc_exc->exception_class,
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gcc_exc, &gcc_context);
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if (gcc_reason == _URC_CONTINUE_UNWIND)
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return ExceptionContinueSearch;
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if (gcc_reason == _URC_HANDLER_FOUND)
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{
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/* We really need some of the information that GCC's personality
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routines compute during phase 2 right now, like the target IP.
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Go ahead and ask for it now, and cache it. */
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gcc_reason = gcc_per (1, _UA_CLEANUP_PHASE | _UA_HANDLER_FRAME,
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gcc_exc->exception_class, gcc_exc,
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&gcc_context);
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if (gcc_reason != _URC_INSTALL_CONTEXT)
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abort ();
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gcc_exc->private_[1] = (_Unwind_Ptr) this_frame;
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gcc_exc->private_[2] = gcc_context.ra;
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gcc_exc->private_[3] = gcc_context.reg[1];
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ms_exc->NumberParameters = 4;
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ms_exc->ExceptionInformation[1] = (_Unwind_Ptr) this_frame;
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ms_exc->ExceptionInformation[2] = gcc_context.ra;
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ms_exc->ExceptionInformation[3] = gcc_context.reg[1];
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/* Begin phase 2. Perform the unwinding. */
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RtlUnwindEx (this_frame, (PVOID)gcc_context.ra, ms_exc,
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(PVOID)gcc_context.reg[0], ms_orig_context,
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ms_disp->HistoryTable);
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}
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/* In _Unwind_RaiseException we return _URC_FATAL_PHASE1_ERROR. */
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}
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abort ();
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}
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/* Raise an exception, passing along the given exception object. */
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_Unwind_Reason_Code
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_Unwind_RaiseException (struct _Unwind_Exception *exc)
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{
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memset (exc->private_, 0, sizeof (exc->private_));
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/* The ExceptionInformation array will have only 1 element, EXC. */
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RaiseException (STATUS_GCC_THROW, 0, 1, (ULONG_PTR *)&exc);
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/* The exception handler installed in crt0 will continue any GCC
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exception that reaches there (and isn't marked non-continuable).
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Returning allows the C++ runtime to call std::terminate. */
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return _URC_END_OF_STACK;
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}
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/* Resume propagation of an existing exception. This is used after
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e.g. executing cleanup code, and not to implement rethrowing. */
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void
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_Unwind_Resume (struct _Unwind_Exception *gcc_exc)
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{
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UNWIND_HISTORY_TABLE ms_history;
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EXCEPTION_RECORD ms_exc;
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CONTEXT ms_context;
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memset (&ms_exc, 0, sizeof(ms_exc));
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memset (&ms_history, 0, sizeof(ms_history));
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/* ??? Not 100% perfect, since we aren't passing on the *original*
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exception context, but should be good enough. */
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ms_exc.ExceptionCode = STATUS_GCC_THROW;
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ms_exc.ExceptionFlags = EXCEPTION_NONCONTINUABLE;
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ms_exc.NumberParameters = 4;
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ms_exc.ExceptionInformation[0] = (ULONG_PTR) gcc_exc;
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ms_exc.ExceptionInformation[1] = gcc_exc->private_[1];
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ms_exc.ExceptionInformation[2] = gcc_exc->private_[2];
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ms_exc.ExceptionInformation[3] = gcc_exc->private_[3];
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ms_context.ContextFlags = CONTEXT_ALL;
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RtlCaptureContext (&ms_context);
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RtlUnwindEx ((void *) gcc_exc->private_[1], (PVOID)gcc_exc->private_[2],
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&ms_exc, gcc_exc, &ms_context, &ms_history);
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/* Is RtlUnwindEx declared noreturn? */
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abort ();
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}
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static _Unwind_Reason_Code
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_Unwind_ForcedUnwind_Phase2 (struct _Unwind_Exception *exc)
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{
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_Unwind_Stop_Fn stop;
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void * stop_argument;
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RaiseException (STATUS_GCC_FORCED, 0, 1, (ULONG_PTR *)&exc);
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/* If we get here, we got to top-of-stack. */
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/* ??? We no longer have a context pointer to pass in. */
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stop = (_Unwind_Stop_Fn) exc->private_[0];
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stop_argument = (void *) exc->private_[4];
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stop (1, _UA_FORCE_UNWIND | _UA_CLEANUP_PHASE | _UA_END_OF_STACK,
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exc->exception_class, exc, NULL, stop_argument);
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return _UA_END_OF_STACK;
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}
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_Unwind_Reason_Code
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_Unwind_Resume_or_Rethrow (struct _Unwind_Exception *exc)
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{
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if (exc->private_[0] == 0)
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return _Unwind_RaiseException (exc);
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_Unwind_ForcedUnwind_Phase2 (exc);
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abort ();
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}
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/* Raise an exception for forced unwinding. */
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_Unwind_Reason_Code
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_Unwind_ForcedUnwind (struct _Unwind_Exception *exc,
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_Unwind_Stop_Fn stop, void * stop_argument)
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{
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/* ??? This is a hack that only works with _GCC_specific_handler.
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There's no way to invoke STOP within frames that use a different
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exception handler. This is essentially just good enough to run
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the code within the gcc testsuite. */
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memset (exc->private_, 0, sizeof (exc->private_));
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exc->private_[0] = (_Unwind_Ptr) stop;
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exc->private_[4] = (_Unwind_Ptr) stop_argument;
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return _Unwind_ForcedUnwind_Phase2 (exc);
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}
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/* A convenience function that calls the exception_cleanup field. */
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void
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_Unwind_DeleteException (struct _Unwind_Exception *exc)
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{
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if (exc->exception_cleanup)
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(*exc->exception_cleanup) (_URC_FOREIGN_EXCEPTION_CAUGHT, exc);
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}
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/* Perform stack backtrace through unwind data. */
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_Unwind_Reason_Code
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_Unwind_Backtrace(_Unwind_Trace_Fn trace,
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void *trace_argument)
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{
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UNWIND_HISTORY_TABLE ms_history;
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CONTEXT ms_context;
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struct _Unwind_Context gcc_context;
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DISPATCHER_CONTEXT disp_context;
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memset (&ms_history, 0, sizeof(ms_history));
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memset (&gcc_context, 0, sizeof(gcc_context));
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memset (&disp_context, 0, sizeof(disp_context));
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ms_context.ContextFlags = CONTEXT_ALL;
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RtlCaptureContext (&ms_context);
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gcc_context.disp = &disp_context;
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gcc_context.disp->ContextRecord = &ms_context;
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gcc_context.disp->HistoryTable = &ms_history;
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while (1)
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{
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gcc_context.disp->ControlPc = ms_context.Rip;
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gcc_context.disp->FunctionEntry
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= RtlLookupFunctionEntry (ms_context.Rip, &gcc_context.disp->ImageBase,
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&ms_history);
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if (!gcc_context.disp->FunctionEntry)
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return _URC_END_OF_STACK;
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gcc_context.disp->LanguageHandler
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= RtlVirtualUnwind (0, gcc_context.disp->ImageBase, ms_context.Rip,
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gcc_context.disp->FunctionEntry, &ms_context,
|
||
&gcc_context.disp->HandlerData,
|
||
&gcc_context.disp->EstablisherFrame, NULL);
|
||
|
||
/* Set values that the callback can inspect via _Unwind_GetIP
|
||
* and _Unwind_GetCFA. */
|
||
gcc_context.ra = ms_context.Rip;
|
||
gcc_context.cfa = ms_context.Rsp;
|
||
|
||
/* Call trace function. */
|
||
if (trace (&gcc_context, trace_argument) != _URC_NO_REASON)
|
||
return _URC_FATAL_PHASE1_ERROR;
|
||
|
||
/* ??? Check for invalid stack pointer. */
|
||
if (ms_context.Rip == 0)
|
||
return _URC_END_OF_STACK;
|
||
}
|
||
}
|
||
#endif /* __SEH__ && !defined (__USING_SJLJ_EXCEPTIONS__) */
|