MatCat.OpenSource/8sa1-gcc
1
0
Fork 0
Code Issues Pull Requests Projects Releases Wiki Activity
8e84a14291
8sa1-gcc/libphobos/libdruntime/gcc/deh.d
Iain Buclaw 8e84a14291 d: Update language attribute support, and implement gcc.attributes 
D attribute support has been updated to have a baseline parity with the
LLVM D compiler's own `ldc.attributes'.

The handler that extracts GCC attributes from a list of UDAs has been
improved to take care of some mistakes that could have been warnings.
UDAs attached to field variables are also now processed for any GCC
attributes attached to them.

The following new attributes have been added to the D front-end:

 - @attribute("alloc_size")
 - @attribute("used")
 - @attribute("optimize")
 - @attribute("restrict")
 - @attribute("cold")
 - @attribute("noplt")
 - @attribute("target_clones")
 - @attribute("no_icf")
 - @attribute("noipa")
 - @attribute("symver")

With convenience aliases in a new `gcc.attributes' module to match
the same naming convention as `ldc.attributes':

 - @allocSize()
 - @assumeUsed
 - @fastmath
 - @naked
 - @restrict
 - @cold
 - @noplt
 - @optStrategy()
 - @polly
 - @section()
 - @target()
 - @weak

The old gcc.attribute module has been deprecated, along with the removal
of the following attribute handlers:

 - @attribute("alias"): Has been superseded by `pragma(mangle)'.
 - @attribute("forceinline"): Renamed to always_inline.

gcc/d/ChangeLog:

	* d-attribs.cc: Include fold-const.h and opts.h.
	(attr_noreturn_exclusions): Add alloc_size.
	(attr_const_pure_exclusions): Likewise.
	(attr_inline_exclusions): Add target_clones.
	(attr_noinline_exclusions): Rename forceinline to always_inline.
	(attr_target_exclusions): New array.
	(attr_target_clones_exclusions): New array.
	(attr_alloc_exclusions): New array.
	(attr_cold_hot_exclusions): New array.
	(d_langhook_common_attribute_table): Add new D attribute handlers.
	(build_attributes): Update to look for gcc.attributes.  Issue warning
	if not given a struct literal.  Handle void initialized arguments.
	(handle_always_inline_attribute): Remove function.
	(d_handle_noinline_attribute): Don't extract TYPE_LANG_FRONTEND.
	(d_handle_forceinline_attribute): Rename to...
	(d_handle_always_inline_attribute): ...this.  Remove special handling.
	(d_handle_flatten_attribute): Don't extract TYPE_LANG_FRONTEND.
	(d_handle_target_attribute): Likewise.  Warn about empty arguments.
	(d_handle_target_clones_attribute): New function.
	(optimize_args): New static variable.
	(parse_optimize_options): New function.
	(d_handle_optimize_attribute): New function.
	(d_handle_noclone_attribute): Don't extract TYPE_LANG_FRONTEND.
	(d_handle_alias_attribute): Remove function.
	(d_handle_noicf_attribute): New function.
	(d_handle_noipa_attribute): New function.
	(d_handle_section_attribute): Call the handle_generic_attribute target
	hook after performing target independent processing.
	(d_handle_symver_attribute): New function.
	(d_handle_noplt_attribute): New function.
	(positional_argument): New function.
	(d_handle_alloc_size_attribute): New function.
	(d_handle_cold_attribute): New function.
	(d_handle_restrict_attribute): New function.
	(d_handle_used_attribute): New function.
	* decl.cc (gcc_attribute_p): Update to look for gcc.attributes.
	(get_symbol_decl): Update decl source location of old prototypes to
	the new declaration being merged.
	* types.cc (layout_aggregate_members): Apply user defined attributes
	on fields.

libphobos/ChangeLog:

	* libdruntime/Makefile.am (DRUNTIME_DSOURCES): Add
	  gcc/attributes.d.
	* libdruntime/Makefile.in: Regenerate.
	* libdruntime/gcc/attribute.d: Deprecate module, publicly import
	gcc.attributes.
	* libdruntime/gcc/deh.d: Update imports.
	* libdruntime/gcc/attributes.d: New file.

gcc/testsuite/ChangeLog:

	* gdc.dg/gdc108.d: Update test.
	* gdc.dg/gdc142.d: Likewise.
	* gdc.dg/pr90136a.d: Likewise.
	* gdc.dg/pr90136b.d: Likewise.
	* gdc.dg/pr90136c.d: Likewise.
	* gdc.dg/pr95173.d: Likewise.
	* gdc.dg/attr_allocsize1.d: New test.
	* gdc.dg/attr_allocsize2.d: New test.
	* gdc.dg/attr_alwaysinline1.d: New test.
	* gdc.dg/attr_cold1.d: New test.
	* gdc.dg/attr_exclusions1.d: New test.
	* gdc.dg/attr_exclusions2.d: New test.
	* gdc.dg/attr_flatten1.d: New test.
	* gdc.dg/attr_module.d: New test.
	* gdc.dg/attr_noclone1.d: New test.
	* gdc.dg/attr_noicf1.d: New test.
	* gdc.dg/attr_noinline1.d: New test.
	* gdc.dg/attr_noipa1.d: New test.
	* gdc.dg/attr_noplt1.d: New test.
	* gdc.dg/attr_optimize1.d: New test.
	* gdc.dg/attr_optimize2.d: New test.
	* gdc.dg/attr_optimize3.d: New test.
	* gdc.dg/attr_optimize4.d: New test.
	* gdc.dg/attr_restrict1.d: New test.
	* gdc.dg/attr_section1.d: New test.
	* gdc.dg/attr_symver1.d: New test.
	* gdc.dg/attr_target1.d: New test.
	* gdc.dg/attr_targetclones1.d: New test.
	* gdc.dg/attr_used1.d: New test.
	* gdc.dg/attr_used2.d: New test.
	* gdc.dg/attr_weak1.d: New test.
	* gdc.dg/imports/attributes.d: New test.
2021-04-08 15:30:47 +02:00

1005 lines
32 KiB
D
Raw Blame History

// GNU D Compiler exception personality routines.
// Copyright (C) 2011-2021 Free Software Foundation, Inc.
// GCC is free software; you can redistribute it and/or modify it under
// the terms of the GNU General Public License as published by the Free
// Software Foundation; either version 3, or (at your option) any later
// version.
// GCC is distributed in the hope that it will be useful, but WITHOUT ANY
// WARRANTY; without even the implied warranty of MERCHANTABILITY or
// FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
// for more details.
// Under Section 7 of GPL version 3, you are granted additional
// permissions described in the GCC Runtime Library Exception, version
// 3.1, as published by the Free Software Foundation.
// You should have received a copy of the GNU General Public License and
// a copy of the GCC Runtime Library Exception along with this program;
// see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
// <http://www.gnu.org/licenses/>.
// This code is based on the libstdc++ exception handling routines.
module gcc.deh;
import gcc.unwind;
import gcc.unwind.pe;
import gcc.builtins;
import gcc.config;
import gcc.attributes;
extern(C)
{
int _d_isbaseof(ClassInfo, ClassInfo);
void _d_createTrace(Object, void*);
// Not used in GDC but declaration required by rt/sections.d
struct FuncTable
{
}
}
/**
* Declare all known and handled exception classes.
* D exceptions -- "GNUCD\0\0\0".
* C++ exceptions -- "GNUCC++\0"
* C++ dependent exceptions -- "GNUCC++\x01"
*/
static if (GNU_ARM_EABI_Unwinder)
{
enum _Unwind_Exception_Class gdcExceptionClass = "GNUCD\0\0\0";
enum _Unwind_Exception_Class gxxExceptionClass = "GNUCC++\0";
enum _Unwind_Exception_Class gxxDependentExceptionClass = "GNUCC++\x01";
}
else
{
enum _Unwind_Exception_Class gdcExceptionClass =
(cast(_Unwind_Exception_Class)'G' << 56) |
(cast(_Unwind_Exception_Class)'N' << 48) |
(cast(_Unwind_Exception_Class)'U' << 40) |
(cast(_Unwind_Exception_Class)'C' << 32) |
(cast(_Unwind_Exception_Class)'D' << 24);
enum _Unwind_Exception_Class gxxExceptionClass =
(cast(_Unwind_Exception_Class)'G' << 56) |
(cast(_Unwind_Exception_Class)'N' << 48) |
(cast(_Unwind_Exception_Class)'U' << 40) |
(cast(_Unwind_Exception_Class)'C' << 32) |
(cast(_Unwind_Exception_Class)'C' << 24) |
(cast(_Unwind_Exception_Class)'+' << 16) |
(cast(_Unwind_Exception_Class)'+' << 8) |
(cast(_Unwind_Exception_Class)0 << 0);
enum _Unwind_Exception_Class gxxDependentExceptionClass =
gxxExceptionClass + 1;
}
/**
* Checks for GDC exception class.
*/
bool isGdcExceptionClass(_Unwind_Exception_Class c) @nogc
{
static if (GNU_ARM_EABI_Unwinder)
{
return c[0] == gdcExceptionClass[0]
&& c[1] == gdcExceptionClass[1]
&& c[2] == gdcExceptionClass[2]
&& c[3] == gdcExceptionClass[3]
&& c[4] == gdcExceptionClass[4]
&& c[5] == gdcExceptionClass[5]
&& c[6] == gdcExceptionClass[6]
&& c[7] == gdcExceptionClass[7];
}
else
{
return c == gdcExceptionClass;
}
}
/**
* Checks for any C++ exception class.
*/
bool isGxxExceptionClass(_Unwind_Exception_Class c) @nogc
{
static if (GNU_ARM_EABI_Unwinder)
{
return c[0] == gxxExceptionClass[0]
&& c[1] == gxxExceptionClass[1]
&& c[2] == gxxExceptionClass[2]
&& c[3] == gxxExceptionClass[3]
&& c[4] == gxxExceptionClass[4]
&& c[5] == gxxExceptionClass[5]
&& c[6] == gxxExceptionClass[6]
&& (c[7] == gxxExceptionClass[7]
|| c[7] == gxxDependentExceptionClass[7]);
}
else
{
return c == gxxExceptionClass
|| c == gxxDependentExceptionClass;
}
}
/**
* Checks for primary or dependent, but not that it is a C++ exception.
*/
bool isDependentException(_Unwind_Exception_Class c) @nogc
{
static if (GNU_ARM_EABI_Unwinder)
return (c[7] == '\x01');
else
return (c & 1);
}
/**
* A D exception object consists of a header, which is a wrapper
* around an unwind object header with additional D specific
* information, prefixed by the exception object itself.
*/
struct ExceptionHeader
{
// Because of a lack of __aligned__ style attribute, our object
// and the unwind object are the first two fields.
static if (Throwable.alignof < _Unwind_Exception.alignof)
ubyte[_Unwind_Exception.alignof - Throwable.alignof] pad;
// The object being thrown. The compiled code expects this to
// be immediately before the generic exception header.
Throwable object;
// The generic exception header.
_Unwind_Exception unwindHeader;
static assert(unwindHeader.offsetof - object.offsetof == object.sizeof);
// Cache handler details between Phase 1 and Phase 2.
static if (GNU_ARM_EABI_Unwinder)
{
// Nothing here yet.
}
else
{
// Which catch was found.
int handler;
// Language Specific Data Area for function enclosing the handler.
const(ubyte)* languageSpecificData;
// Pointer to catch code.
_Unwind_Ptr landingPad;
// Canonical Frame Address (CFA) for the enclosing handler.
_Unwind_Word canonicalFrameAddress;
}
// Stack other thrown exceptions in current thread through here.
ExceptionHeader* next;
// Thread local stack of chained exceptions.
static ExceptionHeader* stack;
// Pre-allocate storage for 1 instance per thread.
// Use calloc/free for multiple exceptions in flight.
static ExceptionHeader ehstorage;
/**
* Allocate and initialize an ExceptionHeader.
*/
static ExceptionHeader* create(Throwable o) @nogc
{
auto eh = &ehstorage;
// Check exception object in use.
if (eh.object)
{
eh = cast(ExceptionHeader*) __builtin_calloc(ExceptionHeader.sizeof, 1);
// Out of memory while throwing - not much else can be done.
if (!eh)
terminate("out of memory", __LINE__);
}
eh.object = o;
eh.unwindHeader.exception_class = gdcExceptionClass;
return eh;
}
/**
* Free ExceptionHeader that was created by create().
*/
static void free(ExceptionHeader* eh) @nogc
{
*eh = ExceptionHeader.init;
if (eh != &ehstorage)
__builtin_free(eh);
}
/**
* Push this onto stack of chained exceptions.
*/
void push() @nogc
{
next = stack;
stack = &this;
}
/**
* Pop and return top of chained exception stack.
*/
static ExceptionHeader* pop() @nogc
{
auto eh = stack;
stack = eh.next;
return eh;
}
/**
* Save stage1 handler information in the exception object.
*/
static void save(_Unwind_Exception* unwindHeader,
_Unwind_Word cfa, int handler,
const(ubyte)* lsda, _Unwind_Ptr landingPad) @nogc
{
static if (GNU_ARM_EABI_Unwinder)
{
unwindHeader.barrier_cache.sp = cfa;
unwindHeader.barrier_cache.bitpattern[1] = cast(_uw)handler;
unwindHeader.barrier_cache.bitpattern[2] = cast(_uw)lsda;
unwindHeader.barrier_cache.bitpattern[3] = cast(_uw)landingPad;
}
else
{
ExceptionHeader* eh = toExceptionHeader(unwindHeader);
eh.canonicalFrameAddress = cfa;
eh.handler = handler;
eh.languageSpecificData = lsda;
eh.landingPad = landingPad;
}
}
/**
* Restore the catch handler data saved during phase1.
*/
static void restore(_Unwind_Exception* unwindHeader, out int handler,
out const(ubyte)* lsda, out _Unwind_Ptr landingPad,
out _Unwind_Word cfa) @nogc
{
static if (GNU_ARM_EABI_Unwinder)
{
cfa = unwindHeader.barrier_cache.sp;
handler = cast(int)unwindHeader.barrier_cache.bitpattern[1];
lsda = cast(ubyte*)unwindHeader.barrier_cache.bitpattern[2];
landingPad = cast(_Unwind_Ptr)unwindHeader.barrier_cache.bitpattern[3];
}
else
{
ExceptionHeader* eh = toExceptionHeader(unwindHeader);
cfa = eh.canonicalFrameAddress;
handler = eh.handler;
lsda = eh.languageSpecificData;
landingPad = cast(_Unwind_Ptr)eh.landingPad;
}
}
/**
* Look at the chain of inflight exceptions and pick the class type that'll
* be looked for in catch clauses.
*/
static ClassInfo getClassInfo(_Unwind_Exception* unwindHeader) @nogc
{
ExceptionHeader* eh = toExceptionHeader(unwindHeader);
// The first thrown Exception at the top of the stack takes precedence
// over others that are inflight, unless an Error was thrown, in which
// case, we search for error handlers instead.
Throwable ehobject = eh.object;
for (ExceptionHeader* ehn = eh.next; ehn; ehn = ehn.next)
{
Error e = cast(Error)ehobject;
if (e is null || (cast(Error)ehn.object) !is null)
ehobject = ehn.object;
}
return ehobject.classinfo;
}
/**
* Convert from pointer to unwindHeader to pointer to ExceptionHeader
* that it is embedded inside of.
*/
static ExceptionHeader* toExceptionHeader(_Unwind_Exception* exc) @nogc
{
return cast(ExceptionHeader*)(cast(void*)exc - ExceptionHeader.unwindHeader.offsetof);
}
}
/**
* Map to C++ std::type_info's virtual functions from D,
* being careful to not require linking with libstdc++.
* So it is given a different name.
*/
extern(C++) interface CxxTypeInfo
{
void dtor1();
void dtor2();
bool __is_pointer_p() const;
bool __is_function_p() const;
bool __do_catch(const CxxTypeInfo, void**, uint) const;
bool __do_upcast(const void*, void**) const;
}
/**
* Structure of a C++ exception, represented as a C structure.
* See unwind-cxx.h for the full definition.
*/
struct CxaExceptionHeader
{
union
{
CxxTypeInfo exceptionType;
void* primaryException;
}
void function(void*) exceptionDestructor;
void function() unexpectedHandler;
void function() terminateHandler;
CxaExceptionHeader* nextException;
int handlerCount;
static if (GNU_ARM_EABI_Unwinder)
{
CxaExceptionHeader* nextPropagatingException;
int propagationCount;
}
else
{
int handlerSwitchValue;
const(ubyte)* actionRecord;
const(ubyte)* languageSpecificData;
_Unwind_Ptr catchTemp;
void* adjustedPtr;
}
_Unwind_Exception unwindHeader;
/**
* There's no saving between phases, so only cache pointer.
* __cxa_begin_catch expects this to be set.
*/
static void save(_Unwind_Exception* unwindHeader, void* thrownPtr) @nogc
{
static if (GNU_ARM_EABI_Unwinder)
unwindHeader.barrier_cache.bitpattern[0] = cast(_uw) thrownPtr;
else
{
auto eh = toExceptionHeader(unwindHeader);
eh.adjustedPtr = thrownPtr;
}
}
/**
* Get pointer to the thrown object if the thrown object type behind the
* exception is implicitly convertible to the catch type.
*/
static void* getAdjustedPtr(_Unwind_Exception* exc, CxxTypeInfo catchType)
{
void* thrownPtr;
// A dependent C++ exceptions is just a wrapper around the unwind header.
// A primary C++ exception has the thrown object located immediately after it.
if (isDependentException(exc.exception_class))
thrownPtr = toExceptionHeader(exc).primaryException;
else
thrownPtr = cast(void*)(exc + 1);
// Pointer types need to adjust the actual pointer, not the pointer that is
// the exception object. This also has the effect of passing pointer types
// "by value" through the __cxa_begin_catch return value.
const throw_type = (cast(CxaExceptionHeader*)thrownPtr - 1).exceptionType;
if (throw_type.__is_pointer_p())
thrownPtr = *cast(void**)thrownPtr;
// Pointer adjustment may be necessary due to multiple inheritance
if (catchType is throw_type
|| catchType.__do_catch(throw_type, &thrownPtr, 1))
return thrownPtr;
return null;
}
/**
* Convert from pointer to unwindHeader to pointer to CxaExceptionHeader
* that it is embedded inside of.
*/
static CxaExceptionHeader* toExceptionHeader(_Unwind_Exception* exc) @nogc
{
return cast(CxaExceptionHeader*)(exc + 1) - 1;
}
}
/**
* Called if exception handling must be abandoned for any reason.
*/
private void terminate(string msg, uint line) @nogc
{
import core.stdc.stdio;
import core.stdc.stdlib;
static bool terminating;
if (terminating)
{
fputs("terminate called recursively\n", stderr);
abort();
}
terminating = true;
fprintf(stderr, "gcc.deh(%u): %.*s\n", line, cast(int)msg.length, msg.ptr);
abort();
}
/**
* Called when fibers switch contexts.
*/
extern(C) void* _d_eh_swapContext(void* newContext) nothrow @nogc
{
auto old = ExceptionHeader.stack;
ExceptionHeader.stack = cast(ExceptionHeader*)newContext;
return old;
}
/**
* Called before starting a catch. Returns the exception object.
*/
extern(C) void* __gdc_begin_catch(_Unwind_Exception* unwindHeader)
{
ExceptionHeader* header = ExceptionHeader.toExceptionHeader(unwindHeader);
void* objectp = cast(void*)header.object;
// Something went wrong when stacking up chained headers...
if (header != ExceptionHeader.pop())
terminate("catch error", __LINE__);
// Handling for this exception is complete.
_Unwind_DeleteException(&header.unwindHeader);
return objectp;
}
/**
* Perform a throw, D style. Throw will unwind through this call,
* so there better not be any handlers or exception thrown here.
*/
extern(C) void _d_throw(Throwable object)
{
// If possible, avoid always allocating new memory for exception headers.
ExceptionHeader *eh = ExceptionHeader.create(object);
// Add to thrown exception stack.
eh.push();
// Called by unwinder when exception object needs destruction by other than our code.
extern(C) void exception_cleanup(_Unwind_Reason_Code code, _Unwind_Exception* exc)
{
// If we haven't been caught by a foreign handler, then this is
// some sort of unwind error. In that case just die immediately.
// _Unwind_DeleteException in the HP-UX IA64 libunwind library
// returns _URC_NO_REASON and not _URC_FOREIGN_EXCEPTION_CAUGHT
// like the GCC _Unwind_DeleteException function does.
if (code != _URC_FOREIGN_EXCEPTION_CAUGHT && code != _URC_NO_REASON)
terminate("uncaught exception", __LINE__);
auto eh = ExceptionHeader.toExceptionHeader(exc);
ExceptionHeader.free(eh);
}
eh.unwindHeader.exception_cleanup = &exception_cleanup;
// Runtime now expects us to do this first before unwinding.
_d_createTrace(eh.object, null);
// We're happy with setjmp/longjmp exceptions or region-based
// exception handlers: entry points are provided here for both.
_Unwind_Reason_Code r = void;
version (GNU_SjLj_Exceptions)
r = _Unwind_SjLj_RaiseException(&eh.unwindHeader);
else
r = _Unwind_RaiseException(&eh.unwindHeader);
// If code == _URC_END_OF_STACK, then we reached top of stack without finding
// a handler for the exception. Since each thread is run in a try/catch,
// this oughtn't happen. If code is something else, we encountered some sort
// of heinous lossage from which we could not recover. As is the way of such
// things, almost certainly we will have crashed before now, rather than
// actually being able to diagnose the problem.
if (r == _URC_END_OF_STACK)
terminate("uncaught exception", __LINE__);
terminate("unwind error", __LINE__);
}
static if (GNU_ARM_EABI_Unwinder)
{
enum personality_fn_attributes = attribute("target", ("general-regs-only"));
}
else
{
enum personality_fn_attributes = "";
}
/**
* Read and extract information from the LSDA (.gcc_except_table section).
*/
@personality_fn_attributes
_Unwind_Reason_Code scanLSDA(const(ubyte)* lsda, _Unwind_Exception_Class exceptionClass,
_Unwind_Action actions, _Unwind_Exception* unwindHeader,
_Unwind_Context* context, _Unwind_Word cfa,
out _Unwind_Ptr landingPad, out int handler)
{
// If no LSDA, then there are no handlers or cleanups.
if (lsda is null)
return CONTINUE_UNWINDING(unwindHeader, context);
// Parse the LSDA header
auto p = lsda;
auto Start = (context ? _Unwind_GetRegionStart(context) : 0);
// Find @LPStart, the base to which landing pad offsets are relative.
ubyte LPStartEncoding = *p++;
_Unwind_Ptr LPStart = 0;
if (LPStartEncoding != DW_EH_PE_omit)
LPStart = read_encoded_value(context, LPStartEncoding, &p);
else
LPStart = Start;
// Find @TType, the base of the handler and exception spec type data.
ubyte TTypeEncoding = *p++;
const(ubyte)* TType = null;
if (TTypeEncoding != DW_EH_PE_omit)
{
static if (__traits(compiles, _TTYPE_ENCODING))
{
// Older ARM EABI toolchains set this value incorrectly, so use a
// hardcoded OS-specific format.
TTypeEncoding = _TTYPE_ENCODING;
}
auto TTbase = read_uleb128(&p);
TType = p + TTbase;
}
// The encoding and length of the call-site table; the action table
// immediately follows.
ubyte CSEncoding = *p++;
auto CSTableSize = read_uleb128(&p);
const(ubyte)* actionTable = p + CSTableSize;
auto TTypeBase = base_of_encoded_value(TTypeEncoding, context);
// Get instruction pointer (ip) at start of instruction that threw.
version (CRuntime_Glibc)
{
int ip_before_insn;
auto ip = _Unwind_GetIPInfo(context, &ip_before_insn);
if (!ip_before_insn)
--ip;
}
else
{
auto ip = _Unwind_GetIP(context);
--ip;
}
bool saw_cleanup = false;
bool saw_handler = false;
const(ubyte)* actionRecord = null;
version (GNU_SjLj_Exceptions)
{
// The given "IP" is an index into the call-site table, with two
// exceptions -- -1 means no-action, and 0 means terminate.
// But since we're using uleb128 values, we've not got random
// access to the array.
if (cast(int) ip <= 0)
{
return _URC_CONTINUE_UNWIND;
}
else
{
_uleb128_t CSLandingPad, CSAction;
do
{
CSLandingPad = read_uleb128(&p);
CSAction = read_uleb128(&p);
}
while (--ip);
// Can never have null landing pad for sjlj -- that would have
// been indicated by a -1 call site index.
landingPad = CSLandingPad + 1;
if (CSAction)
actionRecord = actionTable + CSAction - 1;
}
}
else
{
// Search the call-site table for the action associated with this IP.
while (p < actionTable)
{
// Note that all call-site encodings are "absolute" displacements.
auto CSStart = read_encoded_value(null, CSEncoding, &p);
auto CSLen = read_encoded_value(null, CSEncoding, &p);
auto CSLandingPad = read_encoded_value(null, CSEncoding, &p);
auto CSAction = read_uleb128(&p);
// The table is sorted, so if we've passed the ip, stop.
if (ip < Start + CSStart)
p = actionTable;
else if (ip < Start + CSStart + CSLen)
{
if (CSLandingPad)
landingPad = LPStart + CSLandingPad;
if (CSAction)
actionRecord = actionTable + CSAction - 1;
break;
}
}
}
if (landingPad == 0)
{
// IP is present, but has a null landing pad.
// No cleanups or handlers to be run.
}
else if (actionRecord is null)
{
// If ip is present, has a non-null landing pad, and a null
// action table offset, then there are only cleanups present.
// Cleanups use a zero switch value, as set above.
saw_cleanup = true;
}
else
{
// Otherwise we have a catch handler or exception specification.
handler = actionTableLookup(actions, unwindHeader, actionRecord,
exceptionClass, TTypeBase,
TType, TTypeEncoding,
saw_handler, saw_cleanup);
}
// IP is not in table. No associated cleanups.
if (!saw_handler && !saw_cleanup)
return CONTINUE_UNWINDING(unwindHeader, context);
if (actions & _UA_SEARCH_PHASE)
{
if (!saw_handler)
return CONTINUE_UNWINDING(unwindHeader, context);
// For domestic exceptions, we cache data from phase 1 for phase 2.
if (isGdcExceptionClass(exceptionClass))
ExceptionHeader.save(unwindHeader, cfa, handler, lsda, landingPad);
return _URC_HANDLER_FOUND;
}
return 0;
}
/**
* Look up and return the handler index of the classType in Action Table.
*/
int actionTableLookup(_Unwind_Action actions, _Unwind_Exception* unwindHeader,
const(ubyte)* actionRecord, _Unwind_Exception_Class exceptionClass,
_Unwind_Ptr TTypeBase, const(ubyte)* TType,
ubyte TTypeEncoding,
out bool saw_handler, out bool saw_cleanup)
{
ClassInfo thrownType;
if (isGdcExceptionClass(exceptionClass))
{
thrownType = ExceptionHeader.getClassInfo(unwindHeader);
}
while (1)
{
auto ap = actionRecord;
auto ARFilter = read_sleb128(&ap);
auto apn = ap;
auto ARDisp = read_sleb128(&ap);
if (ARFilter == 0)
{
// Zero filter values are cleanups.
saw_cleanup = true;
}
else if (actions & _UA_FORCE_UNWIND)
{
// During forced unwinding, we only run cleanups.
}
else if (ARFilter > 0)
{
// Positive filter values are handlers.
auto encodedSize = size_of_encoded_value(TTypeEncoding);
// ARFilter is the negative index from TType, which is where
// the ClassInfo is stored.
const(ubyte)* tp = TType - ARFilter * encodedSize;
auto entry = read_encoded_value_with_base(TTypeEncoding, TTypeBase, &tp);
ClassInfo ci = cast(ClassInfo)cast(void*)(entry);
// D does not have catch-all handlers, and so the following
// assumes that we will never handle a null value.
assert(ci !is null);
if (ci.classinfo is __cpp_type_info_ptr.classinfo
&& isGxxExceptionClass(exceptionClass))
{
// catchType is the catch clause type_info.
auto catchType = cast(CxxTypeInfo)((cast(__cpp_type_info_ptr)cast(void*)ci).ptr);
auto thrownPtr = CxaExceptionHeader.getAdjustedPtr(unwindHeader, catchType);
if (thrownPtr !is null)
{
if (actions & _UA_SEARCH_PHASE)
CxaExceptionHeader.save(unwindHeader, thrownPtr);
saw_handler = true;
return cast(int)ARFilter;
}
}
else if (isGdcExceptionClass(exceptionClass)
&& _d_isbaseof(thrownType, ci))
{
saw_handler = true;
return cast(int)ARFilter;
}
else
{
// ??? What to do about other GNU language exceptions.
}
}
else
{
// Negative filter values are exception specifications,
// which D does not use.
break;
}
if (ARDisp == 0)
break;
actionRecord = apn + ARDisp;
}
return 0;
}
/**
* Called when the personality function has found neither a cleanup or handler.
* To support ARM EABI personality routines, that must also unwind the stack.
*/
@personality_fn_attributes
_Unwind_Reason_Code CONTINUE_UNWINDING(_Unwind_Exception* unwindHeader, _Unwind_Context* context)
{
static if (GNU_ARM_EABI_Unwinder)
{
if (__gnu_unwind_frame(unwindHeader, context) != _URC_OK)
return _URC_FAILURE;
}
return _URC_CONTINUE_UNWIND;
}
/**
* Using a different personality function name causes link failures
* when trying to mix code using different exception handling models.
*/
version (GNU_SEH_Exceptions)
{
enum PERSONALITY_FUNCTION = "__gdc_personality_imp";
extern(C) EXCEPTION_DISPOSITION __gdc_personality_seh0(void* ms_exc, void* this_frame,
void* ms_orig_context, void* ms_disp)
{
return _GCC_specific_handler(ms_exc, this_frame, ms_orig_context,
ms_disp, &__gdc_personality_imp);
}
}
else version (GNU_SjLj_Exceptions)
{
enum PERSONALITY_FUNCTION = "__gdc_personality_sj0";
private int __builtin_eh_return_data_regno(int x) { return x; }
}
else
{
enum PERSONALITY_FUNCTION = "__gdc_personality_v0";
}
/**
* The "personality" function, specific to each language.
*/
static if (GNU_ARM_EABI_Unwinder)
{
pragma(mangle, PERSONALITY_FUNCTION)
@personality_fn_attributes
extern(C) _Unwind_Reason_Code gdc_personality(_Unwind_State state,
_Unwind_Exception* unwindHeader,
_Unwind_Context* context)
{
_Unwind_Action actions;
switch (state & _US_ACTION_MASK)
{
case _US_VIRTUAL_UNWIND_FRAME:
// If the unwind state pattern is (_US_VIRTUAL_UNWIND_FRAME | _US_FORCE_UNWIND)
// then we don't need to search for any handler as it is not a real exception.
// Just unwind the stack.
if (state & _US_FORCE_UNWIND)
return CONTINUE_UNWINDING(unwindHeader, context);
actions = _UA_SEARCH_PHASE;
break;
case _US_UNWIND_FRAME_STARTING:
actions = _UA_CLEANUP_PHASE;
if (!(state & _US_FORCE_UNWIND)
&& unwindHeader.barrier_cache.sp == _Unwind_GetGR(context, UNWIND_STACK_REG))
actions |= _UA_HANDLER_FRAME;
break;
case _US_UNWIND_FRAME_RESUME:
return CONTINUE_UNWINDING(unwindHeader, context);
default:
terminate("unwind error", __LINE__);
}
actions |= state & _US_FORCE_UNWIND;
// The dwarf unwinder assumes the context structure holds things like
// the function and LSDA pointers. The ARM implementation caches these
// in the exception header (UCB). To avoid rewriting everything we make
// the virtual IP register point at the UCB.
_Unwind_SetGR(context, UNWIND_POINTER_REG, cast(_Unwind_Ptr)unwindHeader);
return __gdc_personality(actions, unwindHeader.exception_class,
unwindHeader, context);
}
}
else
{
pragma(mangle, PERSONALITY_FUNCTION)
extern(C) _Unwind_Reason_Code gdc_personality(int iversion,
_Unwind_Action actions,
_Unwind_Exception_Class exceptionClass,
_Unwind_Exception* unwindHeader,
_Unwind_Context* context)
{
// Interface version check.
if (iversion != 1)
return _URC_FATAL_PHASE1_ERROR;
return __gdc_personality(actions, exceptionClass, unwindHeader, context);
}
}
@personality_fn_attributes
private _Unwind_Reason_Code __gdc_personality(_Unwind_Action actions,
_Unwind_Exception_Class exceptionClass,
_Unwind_Exception* unwindHeader,
_Unwind_Context* context)
{
const(ubyte)* lsda;
_Unwind_Ptr landingPad;
_Unwind_Word cfa;
int handler;
// Shortcut for phase 2 found handler for domestic exception.
if (actions == (_UA_CLEANUP_PHASE | _UA_HANDLER_FRAME)
&& isGdcExceptionClass(exceptionClass))
{
ExceptionHeader.restore(unwindHeader, handler, lsda, landingPad, cfa);
// Shouldn't have cached a null landing pad in phase 1.
if (landingPad == 0)
terminate("unwind error", __LINE__);
}
else
{
lsda = cast(ubyte*)_Unwind_GetLanguageSpecificData(context);
static if (GNU_ARM_EABI_Unwinder)
cfa = _Unwind_GetGR(context, UNWIND_STACK_REG);
else
cfa = _Unwind_GetCFA(context);
auto result = scanLSDA(lsda, exceptionClass, actions, unwindHeader,
context, cfa, landingPad, handler);
// Positive on handler found in phase 1, continue unwinding, or failure.
if (result)
return result;
}
// Unexpected negative handler, call terminate directly.
if (handler < 0)
terminate("unwind error", __LINE__);
// We can't use any of the deh routines with foreign exceptions,
// because they all expect unwindHeader to be an ExceptionHeader.
if (isGdcExceptionClass(exceptionClass))
{
// If there are any in-flight exceptions being thrown, chain our
// current object onto the end of the prevous object.
ExceptionHeader* eh = ExceptionHeader.toExceptionHeader(unwindHeader);
auto currentLsd = lsda;
auto currentCfa = cfa;
bool bypassed = false;
while (eh.next)
{
ExceptionHeader* ehn = eh.next;
const(ubyte)* nextLsd;
_Unwind_Ptr nextLandingPad;
_Unwind_Word nextCfa;
int nextHandler;
ExceptionHeader.restore(&ehn.unwindHeader, nextHandler, nextLsd, nextLandingPad, nextCfa);
Error e = cast(Error)eh.object;
if (e !is null && !cast(Error)ehn.object)
{
// We found an Error, bypass the exception chain.
currentLsd = nextLsd;
currentCfa = nextCfa;
eh = ehn;
bypassed = true;
continue;
}
// Don't combine when the exceptions are from different functions.
if (currentLsd != nextLsd && currentCfa != nextCfa)
break;
// Add our object onto the end of the existing chain.
Throwable n = ehn.object;
while (n.next)
n = n.next;
n.next = eh.object;
// Replace our exception object with in-flight one
eh.object = ehn.object;
if (nextHandler != handler && !bypassed)
{
handler = nextHandler;
ExceptionHeader.save(unwindHeader, cfa, handler, lsda, landingPad);
}
// Exceptions chained, can now throw away the previous header.
eh.next = ehn.next;
_Unwind_DeleteException(&ehn.unwindHeader);
}
if (bypassed)
{
eh = ExceptionHeader.toExceptionHeader(unwindHeader);
Error e = cast(Error)eh.object;
auto ehn = eh.next;
e.bypassedException = ehn.object;
eh.next = ehn.next;
_Unwind_DeleteException(&ehn.unwindHeader);
}
}
// Set up registers and jump to cleanup or handler.
// For targets with pointers smaller than the word size, we must extend the
// pointer, and this extension is target dependent.
_Unwind_SetGR(context, __builtin_eh_return_data_regno(0),
cast(_Unwind_Ptr)unwindHeader);
_Unwind_SetGR(context, __builtin_eh_return_data_regno(1), handler);
_Unwind_SetIP(context, landingPad);
return _URC_INSTALL_CONTEXT;
}
Reference in New Issue View Git Blame Copy Permalink