#include <stdio.h>
#include <sys/param.h>
#include <sys/file.h>
+#include "sbcl.h"
#include "./signal.h"
#include "os.h"
#include "arch.h"
#include "interrupt.h"
#include "interr.h"
#include "lispregs.h"
-#include "sbcl.h"
#include <sys/socket.h>
#include <sys/utsname.h>
#include <sys/time.h>
#include <sys/stat.h>
#include <unistd.h>
+#include <sys/prctl.h>
#include "validate.h"
+#include "ppc-linux-mcontext.h"
+
size_t os_vm_page_size;
-struct thread *arch_os_get_current_thread() {
- return all_threads;
-}
-struct thread *arch_os_thread_init() {
- return 1; /* success */
+int arch_os_thread_init(struct thread *thread) {
+#if defined(LISP_FEATURE_SB_THREAD)
+ pthread_setspecific(specials,thread);
+#endif
+
+ /* For some reason, PPC Linux appears to default to not generating
+ * floating point exceptions. PR_SET_FPEXC is a PPC-specific
+ * option new in kernel 2.4.21 and 2.5.32 that allows us to
+ * configure this. Should we need to run on an older kenel, the
+ * equivalent trick is to get into a signal-handling context and
+ * modify the saved machine state register.
+ *
+ * PR_FP_EXC_PRECISE may be more accurate than we need,
+ * particularly if we move to the x86oid trick of inserting
+ * explicit synchronization for floating-point exception
+ * delivery. If we wish to move to such a model, the other two
+ * exception delivery modes that we could use are PR_FP_EXC_ASYNC
+ * and PR_FP_EXC_NONRECOV, and exception delivery can be forced
+ * by any access to the FPSCR. -- AB, 2010-May-23 */
+ prctl(PR_SET_FPEXC, PR_FP_EXC_PRECISE, 0, 0);
+
+ return 1; /* success */
}
-struct thread *arch_os_thread_cleanup() {
- return 1; /* success */
+int arch_os_thread_cleanup(struct thread *thread) {
+ return 1; /* success */
}
os_context_register_t *
os_context_register_addr(os_context_t *context, int offset)
{
+#if defined(GLIBC231_STYLE_UCONTEXT)
return &((context->uc_mcontext.regs)->gpr[offset]);
+#elif defined(GLIBC232_STYLE_UCONTEXT)
+ return &((context->uc_mcontext.uc_regs->gregs)[offset]);
+#endif
}
os_context_register_t *
os_context_pc_addr(os_context_t *context)
{
+#if defined(GLIBC231_STYLE_UCONTEXT)
return &((context->uc_mcontext.regs)->nip);
+#elif defined(GLIBC232_STYLE_UCONTEXT)
+ return &((context->uc_mcontext.uc_regs->gregs)[PT_NIP]);
+#endif
}
os_context_register_t *
os_context_lr_addr(os_context_t *context)
{
+#if defined(GLIBC231_STYLE_UCONTEXT)
return &((context->uc_mcontext.regs)->link);
+#elif defined(GLIBC232_STYLE_UCONTEXT)
+ return &((context->uc_mcontext.uc_regs->gregs)[PT_LNK]);
+#endif
+}
+
+os_context_register_t *
+os_context_ctr_addr(os_context_t *context)
+{
+ /* Like os_context_fp_control() and os_context_lr_addr(), this
+ * uses an index beyond the declared end of the array in order to
+ * find the correct register value in the context. */
+#if defined(GLIBC231_STYLE_UCONTEXT)
+ /* FIXME: This probably should be ->ctr instead of ->gpr[PT_CTR]. */
+ return &((context->uc_mcontext.regs)->gpr[PT_CTR]);
+#elif defined(GLIBC232_STYLE_UCONTEXT)
+ return &((context->uc_mcontext.uc_regs)->gregs[PT_CTR]);
+#endif
+}
+
+os_context_register_t *
+os_context_cr_addr(os_context_t *context)
+{
+ /* Like os_context_fp_control() and os_context_lr_addr(), this
+ * uses an index beyond the declared end of the array in order to
+ * find the correct register value in the context. */
+#if defined(GLIBC231_STYLE_UCONTEXT)
+ /* FIXME: This probably should be ->ccr instead of ->gpr[PT_CCR]. */
+ return &((context->uc_mcontext.regs)->gpr[PT_CCR]);
+#elif defined(GLIBC232_STYLE_UCONTEXT)
+ return &((context->uc_mcontext.uc_regs)->gregs[PT_CCR]);
+#endif
}
sigset_t *
os_context_sigmask_addr(os_context_t *context)
{
+#if defined(GLIBC231_STYLE_UCONTEXT)
+ return &context->uc_sigmask;
+#elif defined(GLIBC232_STYLE_UCONTEXT)
return &context->uc_sigmask;
+#endif
}
unsigned long
registers, and PT_FPSCR is an offset that is larger than 32
(the number of ppc registers), but that happens to get the
right answer. -- CSR, 2002-07-11 */
- return context->uc_mcontext.regs->gpr[PT_FPSCR];
+#if defined(GLIBC231_STYLE_UCONTEXT)
+ return context->uc_mcontext.regs->gpr[PT_FPSCR];
+#elif defined(GLIBC232_STYLE_UCONTEXT)
+ return context->uc_mcontext.uc_regs->gregs[PT_FPSCR];
+#endif
}
-void
+void
os_restore_fp_control(os_context_t *context)
{
- unsigned long control;
-
- control = os_context_fp_control(context) &
- /* FIXME: Should we preserve the user's requested rounding mode?
-
- Note that doing
-
- ~(FLOAT_STICKY_BITS_MASK | FLOAT_EXCEPTIONS_BYTE_MASK)
-
- here leads to infinite SIGFPE for invalid operations, as
- there are bits in the control register that need to be
- cleared that are let through by that mask. -- CSR, 2002-07-16 */
- FLOAT_TRAPS_BYTE_MASK;
-
- /* FIXME: Shoot me now.
-
- Hardcoded nastiness: the "0"s below refer to the first floating
- point registers -- we should let gcc deal with that. The 8(31)
- refers to the position on the stack, less one, of control (we
- need for control to be the high word of the double loaded by
- lfd; how do I know that r31 contains the stack? I don't, I'm
- just guessing. The 255, on the other hand, is a valid constant
- -- it says "move everything in the upper word into the floating
- point control register. -- CSR, 2002-07-16 */
- asm ("stw %0, 12(31); lfd 0, 8(31); mtfsf 255, 0" : : "r" (control) : "r31");
+ /* KLUDGE: mtfsf has to be run against a float register, so we
+ * construct the float we need to use as an integer, then cast
+ * a pointer to its storage to a double and load that. For
+ * this to work, control must be the same width as a double,
+ * 64 bits. And why aren't we using a union here, anyway? */
+ unsigned long long control;
+ double d;
+
+ /* FIXME: We are only preserving enabled traps and rounding
+ * mode here. Do we also want to preserve "fast mode"? */
+ control = os_context_fp_control(context) &
+ (FLOAT_TRAPS_BYTE_MASK | FLOAT_ROUNDING_MODE_MASK);
+
+ d = *((double *) &control);
+ asm volatile ("mtfsf 0xff,%0" : : "f" (d));
}
-void
+void
os_flush_icache(os_vm_address_t address, os_vm_size_t length)
{
/* see ppc-arch.c */