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[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [packages/] [hal/] [sparc/] [arch/] [v2_0/] [tests/] [sparc_ex.c] - Rev 565
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/*================================================================= // // sparc_ex.c // // SPARC HAL exception and register manipulation test // //========================================================================== //####ECOSGPLCOPYRIGHTBEGIN#### // ------------------------------------------- // This file is part of eCos, the Embedded Configurable Operating System. // Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc. // // eCos 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 2 or (at your option) any later version. // // eCos 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. // // You should have received a copy of the GNU General Public License along // with eCos; if not, write to the Free Software Foundation, Inc., // 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. // // As a special exception, if other files instantiate templates or use macros // or inline functions from this file, or you compile this file and link it // with other works to produce a work based on this file, this file does not // by itself cause the resulting work to be covered by the GNU General Public // License. However the source code for this file must still be made available // in accordance with section (3) of the GNU General Public License. // // This exception does not invalidate any other reasons why a work based on // this file might be covered by the GNU General Public License. // // Alternative licenses for eCos may be arranged by contacting Red Hat, Inc. // at http://sources.redhat.com/ecos/ecos-license/ // ------------------------------------------- //####ECOSGPLCOPYRIGHTEND#### //========================================================================== //#####DESCRIPTIONBEGIN#### // // Author(s): dsm // Contributors: dsm, nickg // Date: 1998-06-18 //####DESCRIPTIONEND#### */ #include <pkgconf/system.h> #include <pkgconf/hal.h> #include <cyg/infra/cyg_type.h> #include <cyg/infra/testcase.h> #include <cyg/hal/hal_arch.h> #include <cyg/hal/hal_intr.h> #include <pkgconf/infra.h> #ifdef CYGDBG_USE_TRACING #define OUTER_REPEATS 1 #define SIM_REPEATS 10 #define HW_REPEATS 1000 #else #define OUTER_REPEATS 10 #define SIM_REPEATS 100 #define HW_REPEATS 10000 #endif // using tracing to slow everything down // ------------------------------------------------------------------------- // These routines are used to cause an alignment trap; the compiler is too // darned clever by half, if you try to inline this stuff as macros it uses // different instruction sequences and register pairs. This makes for a // less thorough test, but there's no option other than writing a LOT of // assembler code. // Further, with -O3, the compiler inlines these anyway and so makes // non-trapping code. So they are now at the end, to prevent this. extern cyg_uint64 get_ll( cyg_uint64 *p ); extern cyg_uint64 get_llplus( cyg_uint64 *p ); extern cyg_uint32 get_i( cyg_uint32 *p ); extern cyg_uint32 get_iplus( cyg_uint32 *p ); extern cyg_uint16 get_s( cyg_uint16 *p ); extern cyg_uint16 get_splus( cyg_uint16 *p ); // ------------------------------------------------------------------------- // Some memory to read in more-or-less aligned manners. #define L1 (0x123456789abcdef0l) #define L2 (0xfedcba9876543210l) static cyg_uint64 a[ 2 ] = { L1, L2 }; #define M32 (0x00000000ffffffffl) #define M16 (0x000000000000ffffl) #define M8 (0x00000000000000ffl) volatile cyg_uint32 trap = 0; volatile cyg_uint32 same = 0; volatile cyg_uint32 tcount = 0; // ------------------------------------------------------------------------- // This macro invokes a routine then checks that a suitable trap occurred. // It expects the instruction simply to be skipped, rather than the trap // _handled_ or the unaligned access to be _emulated_ in any way. This // test is just a proof that we could write such a handler. #define TRAPPROC( _var_, _type_, _align_, _proc_ ) \ CYG_MACRO_START \ otrap = trap; \ otcount = tcount; \ _var_ = _proc_( (_type_ *)(cp + (_align_)) ); \ CYG_TEST_CHECK( trap != otrap || same > 0, \ "No trap [" #_type_ ":" #_align_ "," #_proc_ "]" ); \ CYG_TEST_CHECK( same < 20, \ "Undetected trap loop[" #_type_ ":" #_align_ "," #_proc_ "]" ); \ CYG_TEST_CHECK( tcount > otcount, \ "No trap counted [" #_type_ ":" #_align_ "," #_proc_ "]" ); \ CYG_TEST_CHECK( (tcount - 1) <= otcount, \ "Tcount overinc [" #_type_ ":" #_align_ "," #_proc_ "]" ); \ CYG_MACRO_END // and this one expects no trap to occur: #define SAFEPROC( _var_, _type_, _align_, _proc_ ) \ CYG_MACRO_START \ trap = 0; \ otcount = tcount; \ _var_ = _proc_( (_type_ *)(cp + (_align_)) ); \ CYG_TEST_CHECK( 0 == trap, \ "Trap [" #_type_ ":" #_align_ "," #_proc_ "]" ); \ CYG_TEST_CHECK( tcount == otcount, \ "Trap counted [" #_type_ ":" #_align_ "," #_proc_ "]" ); \ CYG_MACRO_END static void do_test( void ) { cyg_uint32 *ip = (cyg_uint32 *)a; cyg_uint16 *sp = (cyg_uint16 *)a; cyg_uint8 *cp = (cyg_uint8 *)a; cyg_uint64 l; cyg_uint32 i; cyg_uint16 s; cyg_uint8 c; cyg_int32 z, repeats; cyg_uint32 otrap; cyg_uint32 otcount; otrap = trap = 0; otcount = tcount; // First test interestingly aligned accesses that are legal. l = a[0]; CYG_TEST_CHECK( L1 == l, "a[0] read bad" ); l = a[1]; CYG_TEST_CHECK( L2 == l, "a[1] read bad" ); i = ip[0]; CYG_TEST_CHECK( ((L1 >> 32) & M32) == i, "ip[0]" ); i = ip[1]; CYG_TEST_CHECK( ((L1 ) & M32) == i, "ip[1]" ); i = ip[2]; CYG_TEST_CHECK( ((L2 >> 32) & M32) == i, "ip[2]" ); i = ip[3]; CYG_TEST_CHECK( ((L2 ) & M32) == i, "ip[3]" ); s = sp[0]; CYG_TEST_CHECK( ((L1 >> 48) & M16) == s, "sp[0]" ); s = sp[1]; CYG_TEST_CHECK( ((L1 >> 32) & M16) == s, "sp[1]" ); s = sp[2]; CYG_TEST_CHECK( ((L1 >> 16) & M16) == s, "sp[2]" ); s = sp[3]; CYG_TEST_CHECK( ((L1 ) & M16) == s, "sp[3]" ); s = sp[4]; CYG_TEST_CHECK( ((L2 >> 48) & M16) == s, "sp[4]" ); s = sp[5]; CYG_TEST_CHECK( ((L2 >> 32) & M16) == s, "sp[5]" ); s = sp[6]; CYG_TEST_CHECK( ((L2 >> 16) & M16) == s, "sp[6]" ); s = sp[7]; CYG_TEST_CHECK( ((L2 ) & M16) == s, "sp[7]" ); c = cp[0]; CYG_TEST_CHECK( ((L1 >> 56) & M8) == c, "cp[0]" ); c = cp[1]; CYG_TEST_CHECK( ((L1 >> 48) & M8) == c, "cp[1]" ); c = cp[2]; CYG_TEST_CHECK( ((L1 >> 40) & M8) == c, "cp[2]" ); c = cp[3]; CYG_TEST_CHECK( ((L1 >> 32) & M8) == c, "cp[3]" ); c = cp[4]; CYG_TEST_CHECK( ((L1 >> 24) & M8) == c, "cp[4]" ); c = cp[5]; CYG_TEST_CHECK( ((L1 >> 16) & M8) == c, "cp[5]" ); c = cp[6]; CYG_TEST_CHECK( ((L1 >> 8) & M8) == c, "cp[6]" ); c = cp[7]; CYG_TEST_CHECK( ((L1 ) & M8) == c, "cp[7]" ); c = cp[8]; CYG_TEST_CHECK( ((L2 >> 56) & M8) == c, "cp[8]" ); c = cp[9]; CYG_TEST_CHECK( ((L2 >> 48) & M8) == c, "cp[9]" ); c = cp[10]; CYG_TEST_CHECK( ((L2 >> 40) & M8) == c, "cp[10]" ); c = cp[11]; CYG_TEST_CHECK( ((L2 >> 32) & M8) == c, "cp[11]" ); c = cp[12]; CYG_TEST_CHECK( ((L2 >> 24) & M8) == c, "cp[12]" ); c = cp[13]; CYG_TEST_CHECK( ((L2 >> 16) & M8) == c, "cp[13]" ); c = cp[14]; CYG_TEST_CHECK( ((L2 >> 8) & M8) == c, "cp[14]" ); c = cp[15]; CYG_TEST_CHECK( ((L2 ) & M8) == c, "cp[15]" ); CYG_TEST_CHECK( 0 == trap, "Traps occurred (legal accesses)" ); CYG_TEST_CHECK( tcount == otcount, "Traps counted (legal accesses)" ); CYG_TEST_PASS( "Aligned accesses OK" ); for ( z = OUTER_REPEATS; z > 0; z-- ) { for ( repeats = (cyg_test_is_simulator ? SIM_REPEATS : HW_REPEATS) ; repeats > 0 ; repeats-- ) { TRAPPROC( l, cyg_uint64, 4, get_llplus ); TRAPPROC( l, cyg_uint64, 5, get_llplus ); TRAPPROC( l, cyg_uint64, 6, get_llplus ); TRAPPROC( l, cyg_uint64, 7, get_llplus ); TRAPPROC( l, cyg_uint64, 4, get_ll ); TRAPPROC( l, cyg_uint64, 1, get_ll ); TRAPPROC( l, cyg_uint64, 2, get_ll ); TRAPPROC( l, cyg_uint64, 3, get_ll ); TRAPPROC( i, cyg_uint32, 1, get_iplus ); TRAPPROC( i, cyg_uint32, 2, get_iplus ); TRAPPROC( i, cyg_uint32, 3, get_iplus ); TRAPPROC( i, cyg_uint32, 5, get_i ); TRAPPROC( i, cyg_uint32, 6, get_i ); TRAPPROC( i, cyg_uint32, 7, get_i ); TRAPPROC( s, cyg_uint16, 1, get_splus ); TRAPPROC( s, cyg_uint16, 3, get_splus ); TRAPPROC( s, cyg_uint16, 5, get_s ); TRAPPROC( s, cyg_uint16, 7, get_s ); } CYG_TEST_PASS( "Unaligned accesses OK" ); // Now test some legal and illegal accesses intermingled. for ( repeats = (cyg_test_is_simulator ? SIM_REPEATS : HW_REPEATS) ; repeats > 0 ; repeats-- ) { SAFEPROC( l, cyg_uint64, 0, get_llplus ); TRAPPROC( l, cyg_uint64, 5, get_llplus ); TRAPPROC( l, cyg_uint64, 6, get_llplus ); SAFEPROC( l, cyg_uint64, 8, get_llplus ); TRAPPROC( i, cyg_uint32, 1, get_iplus ); SAFEPROC( i, cyg_uint32, 4, get_iplus ); TRAPPROC( i, cyg_uint32, 2, get_iplus ); SAFEPROC( i, cyg_uint32, 8, get_iplus ); SAFEPROC( i, cyg_uint32, 12, get_iplus ); SAFEPROC( i, cyg_uint32, 16, get_iplus ); TRAPPROC( i, cyg_uint32, 3, get_iplus ); TRAPPROC( s, cyg_uint16, 5, get_s ); SAFEPROC( s, cyg_uint16, 6, get_s ); TRAPPROC( s, cyg_uint16, 7, get_s ); SAFEPROC( s, cyg_uint16, 8, get_s ); TRAPPROC( i, cyg_uint32, 5, get_i ); SAFEPROC( i, cyg_uint32, 4, get_i ); TRAPPROC( i, cyg_uint32, 6, get_i ); TRAPPROC( i, cyg_uint32, 7, get_i ); SAFEPROC( i, cyg_uint32, 0, get_i ); TRAPPROC( l, cyg_uint64, 4, get_ll ); SAFEPROC( l, cyg_uint64, 0, get_ll ); TRAPPROC( l, cyg_uint64, 1, get_ll ); SAFEPROC( l, cyg_uint64, 8, get_ll ); TRAPPROC( s, cyg_uint16, 1, get_splus ); SAFEPROC( s, cyg_uint16, 2, get_splus ); TRAPPROC( s, cyg_uint16, 3, get_splus ); SAFEPROC( s, cyg_uint16, 4, get_splus ); } CYG_TEST_PASS( "Mixture of accesses OK" ); } } // ------------------------------------------------------------------------- externC void skip_exception_handler(CYG_ADDRWORD vector, CYG_ADDRWORD data, CYG_ADDRWORD stackpointer); externC void fail_exception_handler(CYG_ADDRWORD vector, CYG_ADDRWORD data, CYG_ADDRWORD stackpointer); // ------------------------------------------------------------------------- void sparc_ex_main( void ) { int i; CYG_TEST_INIT(); for ( i = CYGNUM_HAL_EXCEPTION_MIN; i <= CYGNUM_HAL_EXCEPTION_MAX; i++ ){ int j; HAL_TRANSLATE_VECTOR( i, j ); HAL_INTERRUPT_ATTACH( j, &fail_exception_handler, j, 0 ); // we must also ensure that eCos handles the exception; // do not drop into CygMon or equivalent. // Leave USER_TRAP undisturbed so that breakpoints work. if ( CYGNUM_HAL_VECTOR_USER_TRAP != i ) { extern void hal_default_exception_vsr( void ); HAL_VSR_SET( i, (CYG_ADDRESS)hal_default_exception_vsr, NULL ); } } HAL_TRANSLATE_VECTOR( CYGNUM_HAL_VECTOR_UNALIGNED, i ); HAL_INTERRUPT_DETACH( i, &fail_exception_handler ); HAL_INTERRUPT_ATTACH( i, &skip_exception_handler, i, 0 ); CYG_TEST_INFO( "Vectors attached OK; calling do_test" ); do_test(); CYG_TEST_EXIT( "Done" ); } // ------------------------------------------------------------------------- externC void skip_exception_handler(CYG_ADDRWORD vector, CYG_ADDRWORD data, CYG_ADDRWORD stackpointer) { HAL_SavedRegisters *save; HAL_FrameStructure *frame; HAL_FLUSH_REGISTERS_TO_STACK(); save = (HAL_SavedRegisters *) stackpointer; frame = (HAL_FrameStructure *) (save + 1); // immediately after // now, this is the invokation environment when this saved regset // was created (copied from hal_xvsr.S): // ! here,locals have been set up as follows: // ! %l0 = psr (with this CWP/window-level in it) // ! %l1 = pc // ! %l2 = npc // ! %l3 = vector number (16-25 for traps) // ! and we are in our own register window, though it is likely that // ! the next one will need to be saved before we can use it: // ! ie. this one is the invalid register window. // and the intention is that we can mess therewith: // Check we're not in a trap loop if ( trap == save->li.l[1] ) { same++; if ( 10 < same ) CYG_TEST_FAIL_EXIT( "Repeated trap" ); } else // restart the count same = 0; // and record it trap = save->li.l[1]; tcount++; // now step on so that we return to the instruction after: save->li.l[1] = save->li.l[2]; // PC := NPC save->li.l[2] += 4; // NPC += 4 // that's all. } externC void fail_exception_handler(CYG_ADDRWORD vector, CYG_ADDRWORD data, CYG_ADDRWORD stackpointer) { HAL_FLUSH_REGISTERS_TO_STACK(); CYG_TEST_FAIL_EXIT( "Other exception handler called" ); } // ------------------------------------------------------------------------- externC void #ifdef CYGPKG_KERNEL cyg_user_start( void ) #else cyg_start( void ) #endif { sparc_ex_main(); } // ------------------------------------------------------------------------- cyg_uint64 get_ll( cyg_uint64 *p ) { return *p; } cyg_uint64 get_llplus( cyg_uint64 *p ) { cyg_uint64 ll = 0l, v; ll = (cyg_uint32)p; ll++; v = *p; v^= ll; return v; } cyg_uint32 get_i( cyg_uint32 *p ) { return *p; } cyg_uint32 get_iplus( cyg_uint32 *p ) { cyg_uint32 i = 0, v; i = (cyg_uint32)p; i++; v = *p; v^= i; return v; } cyg_uint16 get_s( cyg_uint16 *p ) { return *p; } cyg_uint16 get_splus( cyg_uint16 *p ) { cyg_uint16 s = 0, v; s = (cyg_uint16)(0xffff & (cyg_uint32)p); s++; v = *p; v^= s; return v; } // ------------------------------------------------------------------------- /* EOF sparc_ex.c */
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