diff --git a/gcc/builtins.cc b/gcc/builtins.cc index a0bd82c7981..1d54ea0a832 100644 --- a/gcc/builtins.cc +++ b/gcc/builtins.cc @@ -5450,7 +5450,7 @@ expand_builtin_stack_address () rtx ret = convert_to_mode (ptr_mode, copy_to_reg (stack_pointer_rtx), STACK_UNSIGNED); -#ifdef SPARC_STACK_BOUNDARY_HACK +#ifdef STACK_ADDRESS_OFFSET /* Unbias the stack pointer, bringing it to the boundary between the stack area claimed by the active function calling this builtin, and stack ranges that could get clobbered if it called another @@ -5477,8 +5477,7 @@ expand_builtin_stack_address () (caller) function's active area as well, whereas those pushed or allocated temporarily for a call are regarded as part of the callee's stack range, rather than the caller's. */ - if (SPARC_STACK_BOUNDARY_HACK) - ret = plus_constant (ptr_mode, ret, STACK_POINTER_OFFSET); + ret = plus_constant (ptr_mode, ret, STACK_ADDRESS_OFFSET); #endif return force_reg (ptr_mode, ret); diff --git a/gcc/config/sparc/sparc.h b/gcc/config/sparc/sparc.h index fc064a92c22..fb074808d30 100644 --- a/gcc/config/sparc/sparc.h +++ b/gcc/config/sparc/sparc.h @@ -734,6 +734,13 @@ along with GCC; see the file COPYING3. If not see parameter regs. */ #define STACK_POINTER_OFFSET (FIRST_PARM_OFFSET(0) + SPARC_STACK_BIAS) +/* Unbias the stack pointer if needed, and move past the register save area, + that is never in use while a function is active, so that it is regarded as a + callee save area rather than as part of the function's own stack area. This + enables __strub_leave() to do a better job of clearing the stack frame of a + previously-called sibling. */ +#define STACK_ADDRESS_OFFSET STACK_POINTER_OFFSET + /* Base register for access to local variables of the function. */ #define HARD_FRAME_POINTER_REGNUM 30 diff --git a/gcc/doc/extend.texi b/gcc/doc/extend.texi index f0d02c9d423..142e41ab8fb 100644 --- a/gcc/doc/extend.texi +++ b/gcc/doc/extend.texi @@ -12799,7 +12799,7 @@ situations. @deftypefn {Built-in Function} {void *} __builtin_stack_address () This function returns the stack pointer register, offset by -@code{STACK_POINTER_OFFSET}. +@code{STACK_ADDRESS_OFFSET} if that's defined. Conceptually, the returned address returned by this built-in function is the boundary between the stack area allocated for use by its caller, and diff --git a/gcc/doc/tm.texi b/gcc/doc/tm.texi index 69ae63c77de..c8b8b126b24 100644 --- a/gcc/doc/tm.texi +++ b/gcc/doc/tm.texi @@ -3456,6 +3456,35 @@ or type, otherwise return false. The default implementation always returns true. @end deftypefn +@defmac STACK_ADDRESS_OFFSET +Offset from the stack pointer register to the boundary address between +the stack area claimed by an active function, and stack ranges that +could get clobbered if it called another function. It should NOT +encompass any stack red zone, that is used in leaf functions. + +This value is added to the stack pointer register to compute the address +returned by @code{__builtin_stack_address}, and this is its only use. +If this macro is not defined, no offset is added. Defining it like +@code{STACK_POINTER_OFFSET} may be appropriate for many machines, but +not all. + +On SPARC, for example, the register save area is *not* considered active +or used by the active function, but rather as akin to the area in which +call-preserved registers are saved by callees, so the stack address is +above that area, even though the (unbiased) stack pointer points below +it. This enables @code{__strub_leave} to clear what would otherwise +overlap with its own register save area. + +On PowerPC, @code{STACK_POINTER_OFFSET} also reserves space for a save +area, but that area is used by the caller rather than the callee, so the +boundary address is below it. + +If the address is computed too high or too low, parts of a stack range +that should be scrubbed may be left unscrubbed, scrubbing may corrupt +active portions of the stack frame, and stack ranges may be +doubly-scrubbed by caller and callee. +@end defmac + @defmac TARGET_STRUB_USE_DYNAMIC_ARRAY If defined to nonzero, @code{__strub_leave} will allocate a dynamic array covering the stack range that needs scrubbing before clearing it. diff --git a/gcc/doc/tm.texi.in b/gcc/doc/tm.texi.in index 21343d4d1bf..658e1e63371 100644 --- a/gcc/doc/tm.texi.in +++ b/gcc/doc/tm.texi.in @@ -2688,6 +2688,35 @@ may reduce the size of debug information on some ports. @hook TARGET_HAVE_STRUB_SUPPORT_FOR +@defmac STACK_ADDRESS_OFFSET +Offset from the stack pointer register to the boundary address between +the stack area claimed by an active function, and stack ranges that +could get clobbered if it called another function. It should NOT +encompass any stack red zone, that is used in leaf functions. + +This value is added to the stack pointer register to compute the address +returned by @code{__builtin_stack_address}, and this is its only use. +If this macro is not defined, no offset is added. Defining it like +@code{STACK_POINTER_OFFSET} may be appropriate for many machines, but +not all. + +On SPARC, for example, the register save area is *not* considered active +or used by the active function, but rather as akin to the area in which +call-preserved registers are saved by callees, so the stack address is +above that area, even though the (unbiased) stack pointer points below +it. This enables @code{__strub_leave} to clear what would otherwise +overlap with its own register save area. + +On PowerPC, @code{STACK_POINTER_OFFSET} also reserves space for a save +area, but that area is used by the caller rather than the callee, so the +boundary address is below it. + +If the address is computed too high or too low, parts of a stack range +that should be scrubbed may be left unscrubbed, scrubbing may corrupt +active portions of the stack frame, and stack ranges may be +doubly-scrubbed by caller and callee. +@end defmac + @defmac TARGET_STRUB_USE_DYNAMIC_ARRAY If defined to nonzero, @code{__strub_leave} will allocate a dynamic array covering the stack range that needs scrubbing before clearing it.