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Diffstat (limited to 'REORG.TODO/sysdeps/mips/tst-abi-interlink.c')
-rw-r--r--REORG.TODO/sysdeps/mips/tst-abi-interlink.c844
1 files changed, 844 insertions, 0 deletions
diff --git a/REORG.TODO/sysdeps/mips/tst-abi-interlink.c b/REORG.TODO/sysdeps/mips/tst-abi-interlink.c
new file mode 100644
index 0000000000..32aa861191
--- /dev/null
+++ b/REORG.TODO/sysdeps/mips/tst-abi-interlink.c
@@ -0,0 +1,844 @@
+/* Copyright (C) 2014-2017 Free Software Foundation, Inc.
+ This file is part of the GNU C Library.
+
+ The GNU C Library is free software; you can redistribute it and/or
+ modify it under the terms of the GNU Lesser General Public
+ License as published by the Free Software Foundation; either
+ version 2.1 of the License, or (at your option) any later version.
+
+ The GNU C Library 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
+ Lesser General Public License for more details.
+
+ You should have received a copy of the GNU Lesser General Public
+ License along with the GNU C Library; if not, see
+ <http://www.gnu.org/licenses/>. */
+
+#include <sys/prctl.h>
+#include <dlfcn.h>
+#include <stdio.h>
+#include <string.h>
+#include <stdbool.h>
+#include <errno.h>
+
+#if defined PR_GET_FP_MODE && defined PR_SET_FP_MODE
+# define HAVE_PRCTL_FP_MODE 1
+# define FR1_MODE (PR_FP_MODE_FR)
+# define FRE_MODE (PR_FP_MODE_FR | PR_FP_MODE_FRE)
+#else
+# define HAVE_PRCTL_FP_MODE 0
+# define FR1_MODE 0x1
+# define FRE_MODE 0x2
+#endif
+
+#define STR_VAL(VAL) #VAL
+#define N_STR(VAL) STR_VAL(VAL)
+
+#define START_STATE(NAME) \
+case s_ ## NAME: \
+ { \
+ switch (obj) \
+ {
+
+#define END_STATE \
+ default: \
+ return false; \
+ } \
+ break; \
+ }
+
+#define NEXT(OBJ, NEXT_STATE) \
+case o_ ## OBJ: \
+ current_fp_state = s_ ## NEXT_STATE; \
+ break;
+
+#define NEXT_REQ_FR1(OBJ, NEXT_STATE) \
+case o_ ## OBJ: \
+ { \
+ if (has_fr1) \
+ current_fp_state = s_ ## NEXT_STATE; \
+ else \
+ return false; \
+ } \
+ break;
+
+#define NEXT_REQ_FR0(OBJ, NEXT_STATE) \
+case o_ ## OBJ: \
+ { \
+ if (!is_r6 \
+ || (is_r6 && has_fr1 && has_fre)) \
+ current_fp_state = s_ ## NEXT_STATE; \
+ else \
+ return false; \
+ } \
+ break;
+
+#define NEXT_REQ_FRE(OBJ, NEXT_STATE) \
+case o_ ## OBJ: \
+ { \
+ if (has_fr1 && has_fre) \
+ current_fp_state = s_ ## NEXT_STATE; \
+ else \
+ return false; \
+ } \
+ break;
+
+#define NEXT_NO_MODE_CHANGE(OBJ, NEXT_STATE) \
+case o_ ## OBJ: \
+ { \
+ if (current_mode_valid_p (s_ ## NEXT_STATE)) \
+ { \
+ current_fp_state = s_ ## NEXT_STATE; \
+ cant_change_mode = true; \
+ } \
+ else \
+ return false; \
+ } \
+ break;
+
+static const char * const shared_lib_names[] =
+ {
+ "tst-abi-fpanymod.so", "tst-abi-fpsoftmod.so", "tst-abi-fpsinglemod.so",
+ "tst-abi-fp32mod.so", "tst-abi-fp64mod.so", "tst-abi-fp64amod.so",
+ "tst-abi-fpxxmod.so", "tst-abi-fpxxomod.so"
+ };
+
+struct fp_mode_req
+{
+ int mode1;
+ int mode2;
+ int mode3;
+};
+
+enum fp_obj
+{
+ o_any,
+ o_soft,
+ o_single,
+ o_fp32,
+ o_fp64,
+ o_fp64a,
+ o_fpxx,
+ o_fpxxo,
+ o_max
+};
+
+enum fp_state
+{
+ s_any,
+ s_soft,
+ s_single,
+ s_fp32,
+ s_fpxx,
+ s_fpxxo,
+ s_fp64a,
+ s_fp64,
+ s_fpxxo_fpxx,
+ s_fp32_fpxx,
+ s_fp32_fpxxo,
+ s_fp32_fpxxo_fpxx,
+ s_fp32_fp64a_fpxx,
+ s_fp32_fp64a_fpxxo,
+ s_fp32_fp64a_fpxxo_fpxx,
+ s_fp64a_fp32,
+ s_fp64a_fpxx,
+ s_fp64a_fpxxo,
+ s_fp64a_fp64,
+ s_fp64a_fp64_fpxx,
+ s_fp64a_fp64_fpxxo,
+ s_fp64a_fpxx_fpxxo,
+ s_fp64a_fp64_fpxxo_fpxx,
+ s_fp64_fpxx,
+ s_fp64_fpxxo,
+ s_fp64_fpxx_fpxxo
+};
+
+
+static int current_fp_mode;
+static bool cant_change_mode = false;
+static bool has_fr1 = false;
+static bool has_fre = false;
+static bool is_r6 = false;
+static unsigned int fp_obj_count[o_max];
+void * shared_lib_ptrs[o_max];
+static enum fp_state current_fp_state = s_any;
+static enum fp_obj test_objects[FPABI_COUNT] = { FPABI_LIST };
+
+/* This function will return the valid FP modes for the specified state. */
+
+static struct fp_mode_req
+compute_fp_modes (enum fp_state state)
+{
+ struct fp_mode_req requirements;
+
+ requirements.mode1 = -1;
+ requirements.mode2 = -1;
+ requirements.mode3 = -1;
+
+ switch (state)
+ {
+ case s_single:
+ {
+ if (is_r6)
+ requirements.mode1 = FR1_MODE;
+ else
+ {
+ requirements.mode1 = 0;
+ requirements.mode2 = FR1_MODE;
+ }
+ break;
+ }
+ case s_fp32:
+ case s_fp32_fpxx:
+ case s_fp32_fpxxo:
+ case s_fp32_fpxxo_fpxx:
+ {
+ if (is_r6)
+ requirements.mode1 = FRE_MODE;
+ else
+ {
+ requirements.mode1 = 0;
+ requirements.mode2 = FRE_MODE;
+ }
+ break;
+ }
+ case s_fpxx:
+ case s_fpxxo:
+ case s_fpxxo_fpxx:
+ case s_any:
+ case s_soft:
+ {
+ if (is_r6)
+ {
+ requirements.mode1 = FR1_MODE;
+ requirements.mode2 = FRE_MODE;
+ }
+ else
+ {
+ requirements.mode1 = 0;
+ requirements.mode2 = FR1_MODE;
+ requirements.mode3 = FRE_MODE;
+ }
+ break;
+ }
+ case s_fp64a:
+ case s_fp64a_fpxx:
+ case s_fp64a_fpxxo:
+ case s_fp64a_fpxx_fpxxo:
+ {
+ requirements.mode1 = FR1_MODE;
+ requirements.mode2 = FRE_MODE;
+ break;
+ }
+ case s_fp64:
+ case s_fp64_fpxx:
+ case s_fp64_fpxxo:
+ case s_fp64_fpxx_fpxxo:
+ case s_fp64a_fp64:
+ case s_fp64a_fp64_fpxx:
+ case s_fp64a_fp64_fpxxo:
+ case s_fp64a_fp64_fpxxo_fpxx:
+ {
+ requirements.mode1 = FR1_MODE;
+ break;
+ }
+ case s_fp64a_fp32:
+ case s_fp32_fp64a_fpxx:
+ case s_fp32_fp64a_fpxxo:
+ case s_fp32_fp64a_fpxxo_fpxx:
+ {
+ requirements.mode1 = FRE_MODE;
+ break;
+ }
+ }
+ return requirements;
+}
+
+/* Check the current mode is suitable for the specified state. */
+
+static bool
+current_mode_valid_p (enum fp_state s)
+{
+ struct fp_mode_req req = compute_fp_modes (s);
+ return (req.mode1 == current_fp_mode
+ || req.mode2 == current_fp_mode
+ || req.mode3 == current_fp_mode);
+}
+
+/* Run the state machine by adding a new object. */
+
+static bool
+set_next_fp_state (enum fp_obj obj)
+{
+ cant_change_mode = false;
+ switch (current_fp_state)
+ {
+
+ START_STATE(soft)
+ NEXT(soft,soft)
+ NEXT(any,soft)
+ END_STATE
+
+ START_STATE(single)
+ NEXT(single,single)
+ NEXT(any,single)
+ END_STATE
+
+ START_STATE(any)
+ NEXT_REQ_FR0(fp32, fp32)
+ NEXT(fpxx, fpxx)
+ NEXT(fpxxo, fpxxo)
+ NEXT_REQ_FR1(fp64a, fp64a)
+ NEXT_REQ_FR1(fp64, fp64)
+ NEXT(any,any)
+ NEXT(soft,soft)
+ NEXT(single,single)
+ END_STATE
+
+ START_STATE(fp32)
+ NEXT_REQ_FR0(fp32,fp32)
+ NEXT(fpxx, fp32_fpxx)
+ NEXT(fpxxo, fp32_fpxxo)
+ NEXT_REQ_FRE(fp64a, fp64a_fp32)
+ NEXT(any,fp32)
+ END_STATE
+
+ START_STATE(fpxx)
+ NEXT_REQ_FR0(fp32, fp32_fpxx)
+ NEXT_REQ_FR1(fp64, fp64_fpxx)
+ NEXT_REQ_FR1(fp64a, fp64a_fpxx)
+ NEXT(fpxxo, fpxxo_fpxx)
+ NEXT(fpxx,fpxx)
+ NEXT(any,fpxx)
+ END_STATE
+
+ START_STATE(fpxxo)
+ NEXT_NO_MODE_CHANGE(fp32, fp32_fpxxo)
+ NEXT_NO_MODE_CHANGE(fp64, fp64_fpxxo)
+ NEXT_NO_MODE_CHANGE(fp64a, fp64a_fpxxo)
+ NEXT_NO_MODE_CHANGE(fpxx, fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(fpxxo,fpxxo)
+ NEXT_NO_MODE_CHANGE(any,fpxxo)
+ END_STATE
+
+ START_STATE(fp64a)
+ NEXT_REQ_FRE(fp32, fp64a_fp32)
+ NEXT_REQ_FR1(fp64, fp64a_fp64)
+ NEXT(fpxxo, fp64a_fpxxo)
+ NEXT(fpxx, fp64a_fpxx)
+ NEXT_REQ_FR1(fp64a, fp64a)
+ NEXT(any, fp64a)
+ END_STATE
+
+ START_STATE(fp64)
+ NEXT_REQ_FR1(fp64a, fp64a_fp64)
+ NEXT(fpxxo, fp64_fpxxo)
+ NEXT(fpxx, fp64_fpxx)
+ NEXT_REQ_FR1(fp64, fp64)
+ NEXT(any, fp64)
+ END_STATE
+
+ START_STATE(fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(fp32, fp32_fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(fp64, fp64_fpxx_fpxxo)
+ NEXT_NO_MODE_CHANGE(fp64a, fp64a_fpxx_fpxxo)
+ NEXT_NO_MODE_CHANGE(fpxx, fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(fpxxo, fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(any, fpxxo_fpxx)
+ END_STATE
+
+ START_STATE(fp32_fpxx)
+ NEXT_REQ_FR0(fp32, fp32_fpxx)
+ NEXT(fpxx, fp32_fpxx)
+ NEXT(fpxxo, fp32_fpxxo_fpxx)
+ NEXT_REQ_FRE(fp64a, fp32_fp64a_fpxx)
+ NEXT(any, fp32_fpxx)
+ END_STATE
+
+ START_STATE(fp32_fpxxo)
+ NEXT_NO_MODE_CHANGE(fp32, fp32_fpxxo)
+ NEXT_NO_MODE_CHANGE(fpxxo, fp32_fpxxo)
+ NEXT_NO_MODE_CHANGE(fpxx, fp32_fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(fp64a, fp32_fp64a_fpxxo)
+ NEXT_NO_MODE_CHANGE(any, fp32_fpxxo)
+ END_STATE
+
+ START_STATE(fp32_fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(fp32, fp32_fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(fpxxo, fp32_fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(fpxx, fp32_fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(fp64a, fp32_fp64a_fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(any, fp32_fpxxo_fpxx)
+ END_STATE
+
+ START_STATE(fp64a_fp32)
+ NEXT_REQ_FRE(fp32, fp64a_fp32)
+ NEXT_REQ_FRE(fp64a, fp64a_fp32)
+ NEXT(fpxxo, fp32_fp64a_fpxxo)
+ NEXT(fpxx, fp32_fp64a_fpxx)
+ NEXT(any, fp64a_fp32)
+ END_STATE
+
+ START_STATE(fp64a_fpxx)
+ NEXT_REQ_FRE(fp32, fp32_fp64a_fpxx)
+ NEXT_REQ_FR1(fp64a, fp64a_fpxx)
+ NEXT(fpxx, fp64a_fpxx)
+ NEXT(fpxxo, fp64a_fpxx_fpxxo)
+ NEXT_REQ_FR1(fp64, fp64a_fp64_fpxx)
+ NEXT(any, fp64a_fpxx)
+ END_STATE
+
+ START_STATE(fp64a_fpxxo)
+ NEXT_NO_MODE_CHANGE(fp32, fp32_fp64a_fpxxo)
+ NEXT_NO_MODE_CHANGE(fp64a, fp64a_fpxxo)
+ NEXT_NO_MODE_CHANGE(fpxx, fp64a_fpxx_fpxxo)
+ NEXT_NO_MODE_CHANGE(fpxxo, fp64a_fpxxo)
+ NEXT_NO_MODE_CHANGE(fp64, fp64a_fp64_fpxxo)
+ NEXT_NO_MODE_CHANGE(any, fp64a_fpxxo)
+ END_STATE
+
+ START_STATE(fp64a_fpxx_fpxxo)
+ NEXT_NO_MODE_CHANGE(fp32, fp32_fp64a_fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(fp64a, fp64a_fpxx_fpxxo)
+ NEXT_NO_MODE_CHANGE(fpxx, fp64a_fpxx_fpxxo)
+ NEXT_NO_MODE_CHANGE(fpxxo, fp64a_fpxx_fpxxo)
+ NEXT_NO_MODE_CHANGE(fp64, fp64a_fp64_fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(any, fp64a_fpxx_fpxxo)
+ END_STATE
+
+ START_STATE(fp64_fpxx)
+ NEXT_REQ_FR1(fp64a, fp64a_fp64_fpxx)
+ NEXT(fpxxo, fp64_fpxx_fpxxo)
+ NEXT(fpxx, fp64_fpxx)
+ NEXT_REQ_FR1(fp64, fp64_fpxx)
+ NEXT(any, fp64_fpxx)
+ END_STATE
+
+ START_STATE(fp64_fpxxo)
+ NEXT_NO_MODE_CHANGE(fp64a, fp64a_fp64_fpxxo)
+ NEXT_NO_MODE_CHANGE(fpxxo, fp64_fpxxo)
+ NEXT_NO_MODE_CHANGE(fpxx, fp64_fpxx_fpxxo)
+ NEXT_NO_MODE_CHANGE(fp64, fp64_fpxxo)
+ NEXT_NO_MODE_CHANGE(any, fp64_fpxxo)
+ END_STATE
+
+ START_STATE(fp64_fpxx_fpxxo)
+ NEXT_NO_MODE_CHANGE(fp64a, fp64a_fp64_fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(fpxxo, fp64_fpxx_fpxxo)
+ NEXT_NO_MODE_CHANGE(fpxx, fp64_fpxx_fpxxo)
+ NEXT_NO_MODE_CHANGE(fp64, fp64_fpxx_fpxxo)
+ NEXT_NO_MODE_CHANGE(any, fp64_fpxx_fpxxo)
+ END_STATE
+
+ START_STATE(fp64a_fp64)
+ NEXT_REQ_FR1(fp64a, fp64a_fp64)
+ NEXT(fpxxo, fp64a_fp64_fpxxo)
+ NEXT(fpxx, fp64a_fp64_fpxx)
+ NEXT_REQ_FR1(fp64, fp64a_fp64)
+ NEXT(any, fp64a_fp64)
+ END_STATE
+
+ START_STATE(fp64a_fp64_fpxx)
+ NEXT_REQ_FR1(fp64a, fp64a_fp64_fpxx)
+ NEXT(fpxxo, fp64a_fp64_fpxxo_fpxx)
+ NEXT(fpxx, fp64a_fp64_fpxx)
+ NEXT_REQ_FR1(fp64, fp64a_fp64_fpxx)
+ NEXT(any, fp64a_fp64_fpxx)
+ END_STATE
+
+ START_STATE(fp64a_fp64_fpxxo)
+ NEXT_NO_MODE_CHANGE(fp64a, fp64a_fp64_fpxxo)
+ NEXT_NO_MODE_CHANGE(fpxx, fp64a_fp64_fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(fpxxo, fp64a_fp64_fpxxo)
+ NEXT_NO_MODE_CHANGE(fp64, fp64a_fp64_fpxxo)
+ NEXT_NO_MODE_CHANGE(any, fp64a_fp64_fpxxo)
+ END_STATE
+
+ START_STATE(fp64a_fp64_fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(fp64a, fp64a_fp64_fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(fpxx, fp64a_fp64_fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(fpxxo, fp64a_fp64_fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(fp64, fp64a_fp64_fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(any, fp64a_fp64_fpxxo_fpxx)
+ END_STATE
+
+ START_STATE(fp32_fp64a_fpxx)
+ NEXT_REQ_FRE(fp32, fp32_fp64a_fpxx)
+ NEXT_REQ_FRE(fp64a, fp32_fp64a_fpxx)
+ NEXT(fpxxo, fp32_fp64a_fpxxo_fpxx)
+ NEXT(fpxx, fp32_fp64a_fpxx)
+ NEXT(any, fp32_fp64a_fpxx)
+ END_STATE
+
+ START_STATE(fp32_fp64a_fpxxo)
+ NEXT_NO_MODE_CHANGE(fp32, fp32_fp64a_fpxxo)
+ NEXT_NO_MODE_CHANGE(fp64a, fp32_fp64a_fpxxo)
+ NEXT_NO_MODE_CHANGE(fpxx, fp32_fp64a_fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(fpxxo, fp32_fp64a_fpxxo)
+ NEXT_NO_MODE_CHANGE(any, fp32_fp64a_fpxxo)
+ END_STATE
+
+ START_STATE(fp32_fp64a_fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(fp32, fp32_fp64a_fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(fp64a, fp32_fp64a_fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(fpxx, fp32_fp64a_fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(fpxxo, fp32_fp64a_fpxxo_fpxx)
+ NEXT_NO_MODE_CHANGE(any, fp32_fp64a_fpxxo_fpxx)
+ END_STATE
+ }
+
+ if (obj != o_max)
+ fp_obj_count[obj]++;
+
+ return true;
+}
+
+/* Run the state machine by removing an object. */
+
+static bool
+remove_object (enum fp_obj obj)
+{
+ if (obj == o_max)
+ return false;
+
+ fp_obj_count[obj]--;
+
+ /* We can't change fp state until all the objects
+ of a particular type have been unloaded. */
+ if (fp_obj_count[obj] != 0)
+ return false;
+
+ switch (current_fp_state)
+ {
+ START_STATE(soft)
+ NEXT(soft,any)
+ END_STATE
+
+ START_STATE(single)
+ NEXT(single,any)
+ END_STATE
+
+ START_STATE(any)
+ NEXT(any,any)
+ END_STATE
+
+ START_STATE(fp32)
+ NEXT (fp32,any)
+ END_STATE
+
+ START_STATE(fpxx)
+ NEXT (fpxx,any)
+ END_STATE
+
+ START_STATE(fpxxo)
+ NEXT (fpxxo,any)
+ END_STATE
+
+ START_STATE(fp64a)
+ NEXT(fp64a, any)
+ END_STATE
+
+ START_STATE(fp64)
+ NEXT(fp64, any)
+ END_STATE
+
+ START_STATE(fpxxo_fpxx)
+ NEXT(fpxx, fpxxo)
+ NEXT(fpxxo, fpxx)
+ END_STATE
+
+ START_STATE(fp32_fpxx)
+ NEXT(fp32, fpxx)
+ NEXT(fpxx, fp32)
+ END_STATE
+
+ START_STATE(fp32_fpxxo)
+ NEXT(fp32, fpxxo)
+ NEXT(fpxxo, fp32)
+ END_STATE
+
+ START_STATE(fp32_fpxxo_fpxx)
+ NEXT(fp32, fpxxo_fpxx)
+ NEXT(fpxxo, fp32_fpxx)
+ NEXT(fpxx, fp32_fpxxo)
+ END_STATE
+
+ START_STATE(fp64a_fp32)
+ NEXT(fp32, fp64a)
+ NEXT(fp64a, fp32)
+ END_STATE
+
+ START_STATE(fp64a_fpxx)
+ NEXT(fp64a, fpxx)
+ NEXT(fpxx, fp64a)
+ END_STATE
+
+ START_STATE(fp64a_fpxxo)
+ NEXT(fp64a, fpxxo)
+ NEXT(fpxxo, fp64a)
+ END_STATE
+
+ START_STATE(fp64a_fpxx_fpxxo)
+ NEXT(fp64a, fpxxo_fpxx)
+ NEXT(fpxx, fp64a_fpxxo)
+ NEXT(fpxxo, fp64a_fpxx)
+ END_STATE
+
+ START_STATE(fp64_fpxx)
+ NEXT(fpxx, fp64)
+ NEXT(fp64, fpxx)
+ END_STATE
+
+ START_STATE(fp64_fpxxo)
+ NEXT(fpxxo, fp64)
+ NEXT(fp64, fpxxo)
+ END_STATE
+
+ START_STATE(fp64_fpxx_fpxxo)
+ NEXT(fp64, fpxxo_fpxx)
+ NEXT(fpxxo, fp64_fpxx)
+ NEXT(fpxx, fp64_fpxxo)
+ END_STATE
+
+ START_STATE(fp64a_fp64)
+ NEXT(fp64a, fp64)
+ NEXT(fp64, fp64a)
+ END_STATE
+
+ START_STATE(fp64a_fp64_fpxx)
+ NEXT(fp64a, fp64_fpxx)
+ NEXT(fpxx, fp64a_fp64)
+ NEXT(fp64, fp64a_fpxx)
+ END_STATE
+
+ START_STATE(fp64a_fp64_fpxxo)
+ NEXT(fp64a, fp64_fpxxo)
+ NEXT(fpxxo, fp64a_fp64)
+ NEXT(fp64, fp64a_fpxxo)
+ END_STATE
+
+ START_STATE(fp64a_fp64_fpxxo_fpxx)
+ NEXT(fp64a, fp64_fpxx_fpxxo)
+ NEXT(fpxx, fp64a_fp64_fpxxo)
+ NEXT(fpxxo, fp64a_fp64_fpxx)
+ NEXT(fp64, fp64a_fpxx_fpxxo)
+ END_STATE
+
+ START_STATE(fp32_fp64a_fpxx)
+ NEXT(fp32, fp64a_fpxx)
+ NEXT(fp64a, fp32_fpxx)
+ NEXT(fpxx, fp64a_fp32)
+ END_STATE
+
+ START_STATE(fp32_fp64a_fpxxo)
+ NEXT(fp32, fp64a_fpxxo)
+ NEXT(fp64a, fp32_fpxxo)
+ NEXT(fpxxo, fp64a_fp32)
+ END_STATE
+
+ START_STATE(fp32_fp64a_fpxxo_fpxx)
+ NEXT(fp32, fp64a_fpxx_fpxxo)
+ NEXT(fp64a, fp32_fpxxo_fpxx)
+ NEXT(fpxx, fp32_fp64a_fpxxo)
+ NEXT(fpxxo, fp32_fp64a_fpxx)
+ END_STATE
+ }
+
+ return true;
+}
+
+static int
+mode_transition_valid_p (void)
+{
+ int prev_fp_mode;
+
+ /* Get the current fp mode. */
+ prev_fp_mode = current_fp_mode;
+#if HAVE_PRCTL_FP_MODE
+ current_fp_mode = prctl (PR_GET_FP_MODE);
+
+ /* If the prctl call fails assume the core only has FR0 mode support. */
+ if (current_fp_mode == -1)
+ current_fp_mode = 0;
+#endif
+
+ if (!current_mode_valid_p (current_fp_state))
+ return 0;
+
+ /* Check if mode changes are not allowed but a mode change happened. */
+ if (cant_change_mode
+ && current_fp_mode != prev_fp_mode)
+ return 0;
+
+ return 1;
+}
+
+/* Load OBJ and check that it was/was not loaded correctly. */
+bool
+load_object (enum fp_obj obj)
+{
+ bool should_load = set_next_fp_state (obj);
+
+ shared_lib_ptrs[obj] = dlopen (shared_lib_names[obj], RTLD_LAZY);
+
+ /* If we expected an error and the load was successful then fail. */
+ if (!should_load && (shared_lib_ptrs[obj] != 0))
+ return false;
+
+ if (should_load && (shared_lib_ptrs[obj] == 0))
+ return false;
+
+ if (!mode_transition_valid_p ())
+ return false;
+
+ return true;
+}
+
+/* Remove an object and check the state remains valid. */
+bool
+unload_object (enum fp_obj obj)
+{
+ if (!shared_lib_ptrs[obj])
+ return true;
+
+ remove_object (obj);
+
+ if (dlclose (shared_lib_ptrs[obj]) != 0)
+ return false;
+
+ shared_lib_ptrs[obj] = 0;
+
+ if (!mode_transition_valid_p ())
+ return false;
+
+ return true;
+}
+
+/* Load every permuation of OBJECTS. */
+static bool
+test_permutations (enum fp_obj objects[], int count)
+{
+ int i;
+
+ for (i = 0 ; i < count ; i++)
+ {
+ if (!load_object (objects[i]))
+ return false;
+
+ if (count > 1)
+ {
+ enum fp_obj new_objects[count - 1];
+ int j;
+ int k = 0;
+
+ for (j = 0 ; j < count ; j++)
+ {
+ if (j != i)
+ new_objects[k++] = objects[j];
+ }
+
+ if (!test_permutations (new_objects, count - 1))
+ return false;
+ }
+
+ if (!unload_object (objects[i]))
+ return false;
+ }
+ return true;
+}
+
+int
+do_test (void)
+{
+#if HAVE_PRCTL_FP_MODE
+ /* Determine available hardware support and current mode. */
+ current_fp_mode = prctl (PR_GET_FP_MODE);
+
+ /* If the prctl call fails assume the core only has FR0 mode support. */
+ if (current_fp_mode == -1)
+ current_fp_mode = 0;
+ else
+ {
+ if (prctl (PR_SET_FP_MODE, 0) != 0)
+ {
+ if (errno == ENOTSUP)
+ is_r6 = true;
+ else
+ {
+ printf ("unexpected error from PR_SET_FP_MODE, 0: %m\n");
+ return 1;
+ }
+ }
+
+ if (prctl (PR_SET_FP_MODE, PR_FP_MODE_FR) != 0)
+ {
+ if (errno != ENOTSUP)
+ {
+ printf ("unexpected error from PR_SET_FP_MODE, "
+ "PR_FP_MODE_FR: %m\n");
+ return 1;
+ }
+ }
+ else
+ has_fr1 = true;
+
+ if (prctl (PR_SET_FP_MODE, PR_FP_MODE_FR | PR_FP_MODE_FRE) != 0)
+ {
+ if (errno != ENOTSUP)
+ {
+ printf ("unexpected error from PR_SET_FP_MODE, "
+ "PR_FP_MODE_FR | PR_FP_MODE_FRE: %m\n");
+ return 1;
+ }
+ }
+ else
+ has_fre = true;
+
+ if (prctl (PR_SET_FP_MODE, current_fp_mode) != 0)
+ {
+ printf ("unable to restore initial FP mode: %m\n");
+ return 1;
+ }
+ }
+
+ if ((is_r6 && !(current_fp_mode & PR_FP_MODE_FR))
+ || (!has_fr1 && (current_fp_mode & PR_FP_MODE_FR))
+ || (!has_fre && (current_fp_mode & PR_FP_MODE_FRE)))
+ {
+ puts ("Inconsistency detected between initial FP mode "
+ "and supported FP modes\n");
+ return 1;
+ }
+#else
+ current_fp_mode = 0;
+#endif
+
+ /* Set up the initial state from executable and LDSO. Assumptions:
+ 1) All system libraries have the same ABI as ld.so.
+ 2) Due to the fact that ld.so is tested by invoking it directly
+ rather than via an interpreter, there is no point in varying
+ the ABI of the test program. Instead the ABI only varies for
+ the shared libraries which get loaded. */
+ if (!set_next_fp_state (FPABI_NATIVE))
+ {
+ puts ("Unable to enter initial ABI state\n");
+ return 1;
+ }
+
+ /* Compare the computed state with the hardware state. */
+ if (!mode_transition_valid_p ())
+ return 1;
+
+ /* Run all possible test permutations. */
+ if (!test_permutations (test_objects, FPABI_COUNT))
+ {
+ puts ("Mode checks failed\n");
+ return 1;
+ }
+
+ return 0;
+}
+
+#define TEST_FUNCTION do_test ()
+#include "../../test-skeleton.c"
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