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[/] [or1k/] [trunk/] [or1ksim/] [testbench/] [except_test.c] - Rev 608
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/* This is exception test for OpenRISC 1200 */ #include "spr_defs.h" #include "support.h" #include "int.h" /* Define RAM physical location and size Bottom half will be used for this program, the rest will be used for testing */ #define FLASH_START 0x00000000 #define FLASH_SIZE 0x00200000 #define RAM_START 0x80000000 #define RAM_SIZE 0x00200000 /* MMU page size */ #define PAGE_SIZE 8192 /* Number of DTLB sets used (power of 2, max is 256) */ #define DTLB_SETS 32 /* Number of DTLB ways (2, 2, 3 etc., max is 4). */ #define DTLB_WAYS 1 /* Number of ITLB sets used (power of 2, max is 256) */ #define ITLB_SETS 32 /* Number of ITLB ways (1, 2, 3 etc., max is 4). */ #define ITLB_WAYS 1 /* TLB mode codes */ #define TLB_CODE_ONE_TO_ONE 0x00000000 #define TLB_CODE_PLUS_ONE_PAGE 0x10000000 #define TLB_CODE_MINUS_ONE_PAGE 0x20000000 #define TLB_TEXT_SET_NB 6 #define TLB_DATA_SET_NB 2 #define TLB_CODE_MASK 0xfffff000 #define TLB_PR_MASK 0x00000fff #define DTLB_PR_NOLIMIT ( SPR_DTLBTR_CI | \ SPR_DTLBTR_URE | \ SPR_DTLBTR_UWE | \ SPR_DTLBTR_SRE | \ SPR_DTLBTR_SWE ) #define ITLB_PR_NOLIMIT ( SPR_ITLBTR_CI | \ SPR_ITLBTR_SXE | \ SPR_ITLBTR_UXE ) /* fails if x is false */ #define ASSERT(x) ((x)?1: fail (__FUNCTION__, __LINE__)) /* Exception vectors */ #define V_RESET 1 #define V_BERR 2 #define V_DPF 3 #define V_IPF 4 #define V_TICK 5 #define V_ALIGN 6 #define V_ILLINSN 7 #define V_INT 8 #define V_DTLB_MISS 9 #define V_ITLB_MISS 10 #define V_RANGE 11 #define V_SYS 12 #define V_TRAP 14 #if 1 #define debug printf #else #define debug #endif /* Extern functions */ extern void lo_dmmu_en (void); extern void lo_immu_en (void); extern unsigned long call (unsigned long add, unsigned long val); extern unsigned long call_with_int (unsigned long add, unsigned long val); extern void trap (void); extern void b_trap (void); extern void range (void); extern void b_range (void); extern int except_basic (void); extern void (*test)(void); extern int load_acc_32 (unsigned long add); extern int load_acc_16 (unsigned long add); extern int store_acc_32 (unsigned long add); extern int store_acc_16 (unsigned long add); extern int load_b_acc_32 (unsigned long add); extern int int_trigger (void); extern int int_loop (void); extern int jump_back (void); /* Local functions prototypes */ void dmmu_disable (void); void immu_disable (void); /* DTLB mode status */ volatile unsigned long dtlb_val; /* ITLB mode status */ volatile unsigned long itlb_val; /* Exception counter */ volatile int except_count; /* Exception mask */ volatile unsigned long except_mask; /* Exception efective address */ volatile unsigned long except_ea; /* Eception PC */ volatile unsigned long except_pc; void fail (char *func, int line) { #ifndef __FUNCTION__ #define __FUNCTION__ "?" #endif immu_disable (); dmmu_disable (); debug("Test failed in %s:%i\n", func, line); report (0xeeeeeeee); exit (1); } void test_dummy (void) { asm("_test:"); asm("l.addi\t\tr3,r3,1") ; asm("l.nop" : :); } void copy_test (unsigned long phy_add) { memcpy((void *)phy_add, (void *)&test, 8); } /* Bus error handler */ void bus_err_handler (void) { except_mask |= 1 << V_BERR; except_count++; } /* Illegal insn handler */ void ill_insn_handler (void) { except_mask |= 1 << V_ILLINSN; except_count++; } /* Low priority interrupt handler */ void tick_handler (void) { /* Disable interrupt recognition */ mtspr(SPR_ESR_BASE, mfspr(SPR_ESR_BASE) & ~SPR_SR_TEE); except_mask |= 1 << V_TICK; except_count++; } /* High priority interrupt handler */ void int_handler (void) { /* Disable interrupt recognition */ mtspr(SPR_ESR_BASE, mfspr(SPR_ESR_BASE) & ~SPR_SR_IEE); except_mask |= 1 << V_INT; except_count++; } /* Trap handler */ void trap_handler (void) { except_mask |= 1 << V_TRAP; except_count++; } /* Align handler */ void align_handler (void) { except_mask |= 1 << V_ALIGN; except_count++; } /* Range handler */ void range_handler (void) { /* Disable range exception */ mtspr (SPR_ESR_BASE, mfspr (SPR_ESR_BASE) & ~SPR_SR_OVE); except_mask |= 1 << V_RANGE; except_count++; } /* DTLB miss exception handler */ void dtlb_miss_handler (void) { unsigned long ea; int set, way = 0; int i; /* Get EA that cause the exception */ ea = mfspr (SPR_EEAR_BASE); /* Find TLB set and LRU way */ set = (ea / PAGE_SIZE) % DTLB_SETS; for (i = 0; i < DTLB_WAYS; i++) { if ((mfspr (SPR_DTLBMR_BASE(i) + set) & SPR_DTLBMR_LRU) == 0) { way = i; break; } } mtspr (SPR_DTLBMR_BASE(way) + set, (ea & SPR_DTLBMR_VPN) | SPR_DTLBMR_V); mtspr (SPR_DTLBTR_BASE(way) + set, (ea & SPR_DTLBTR_PPN) | dtlb_val); except_mask |= 1 << V_DTLB_MISS; except_count++; } /* ITLB miss exception handler */ void itlb_miss_handler (void) { unsigned long ea; int set, way = 0; int i; /* Get EA that cause the exception */ ea = mfspr (SPR_EEAR_BASE); /* Find TLB set and LRU way */ set = (ea / PAGE_SIZE) % ITLB_SETS; for (i = 0; i < ITLB_WAYS; i++) { if ((mfspr (SPR_ITLBMR_BASE(i) + set) & SPR_ITLBMR_LRU) == 0) { way = i; break; } } mtspr (SPR_ITLBMR_BASE(way) + set, (ea & SPR_ITLBMR_VPN) | SPR_ITLBMR_V); mtspr (SPR_ITLBTR_BASE(way) + set, (ea & SPR_ITLBTR_PPN) | itlb_val); except_mask |= 1 << V_ITLB_MISS; except_count++; } /* Data page fault exception handler */ void dpage_fault_handler (void) { unsigned long ea; int set, way = 0; int i; /* Get EA that cause the exception */ ea = mfspr (SPR_EEAR_BASE); /* Find TLB set and way */ set = (ea / PAGE_SIZE) % DTLB_SETS; for (i = 0; i < DTLB_WAYS; i++) { if ((mfspr (SPR_DTLBMR_BASE(i) + set) & SPR_DTLBMR_VPN) == (ea & SPR_DTLBMR_VPN)) { way = i; break; } } /* Give permission */ mtspr (SPR_DTLBTR_BASE(way) + set, (mfspr (SPR_DTLBTR_BASE(way) + set) & ~DTLB_PR_NOLIMIT) | dtlb_val); except_mask |= 1 << V_DPF; except_count++; } /* Intstruction page fault exception handler */ void ipage_fault_handler (void) { unsigned long ea; int set, way = 0; int i; /* Get EA that cause the exception */ ea = mfspr (SPR_EEAR_BASE); /* Find TLB set and way */ set = (ea / PAGE_SIZE) % ITLB_SETS; for (i = 0; i < ITLB_WAYS; i++) { if ((mfspr (SPR_ITLBMR_BASE(i) + set) & SPR_ITLBMR_VPN) == (ea & SPR_ITLBMR_VPN)) { way = i; break; } } /* Give permission */ mtspr (SPR_ITLBTR_BASE(way) + set, (mfspr (SPR_ITLBTR_BASE(way) + set) & ~ITLB_PR_NOLIMIT) | itlb_val); except_mask |= 1 << V_IPF; except_count++; } /*Enable DMMU */ void dmmu_enable (void) { /* Enable DMMU */ lo_dmmu_en (); } /* Disable DMMU */ void dmmu_disable (void) { mtspr (SPR_SR, mfspr (SPR_SR) & ~SPR_SR_DME); } /* Enable IMMU */ void immu_enable (void) { /* Enable IMMU */ lo_immu_en (); } /* Disable IMMU */ void immu_disable (void) { mtspr (SPR_SR, mfspr (SPR_SR) & ~SPR_SR_IME); } /* Tick timer init */ void tick_init (int period, int hp_int) { /* Disable tick timer exception recognition */ mtspr(SPR_SR, mfspr(SPR_SR) & ~SPR_SR_TEE); /* Set period of one cycle, restartable mode */ mtspr(SPR_TTMR, SPR_TTMR_IE | SPR_TTMR_RT | (period & SPR_TTMR_PERIOD)); /* Reset counter */ mtspr(SPR_TTCR, 0); } /* Interrupt test */ int interrupt_test (void) { unsigned long ret; int i; /* Init tick timer */ tick_init (1, 1); /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Test normal high priority interrupt trigger */ ret = call ((unsigned long)&int_trigger, 0); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_TICK)); ASSERT(ret == 0); ASSERT(except_pc == (unsigned long)int_trigger + 16); /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Test inetrrupt in delay slot */ tick_init (10, 1); /* Hopefully we will have interrupt recognition between branch insn and delay slot */ except_pc = (unsigned long)&int_loop; for (i = 0; i < 10; i++) { call_with_int (except_pc, RAM_START); ASSERT(except_pc == (unsigned long)&int_loop); } return 0; } /* ITLB miss test */ int itlb_test (void) { int i, j, ret; unsigned long ea, ta; /* Invalidate all entries in ITLB */ for (i = 0; i < ITLB_WAYS; i++) { for (j = 0; j < ITLB_SETS; j++) { mtspr (SPR_ITLBMR_BASE(i) + j, 0); mtspr (SPR_ITLBTR_BASE(i) + j, 0); } } /* Set one to one translation for the use of this program */ for (i = 0; i < TLB_TEXT_SET_NB; i++) { ea = FLASH_START + (i*PAGE_SIZE); ta = FLASH_START + (i*PAGE_SIZE); mtspr (SPR_ITLBMR_BASE(0) + i, ea | SPR_ITLBMR_V); mtspr (SPR_ITLBTR_BASE(0) + i, ta | ITLB_PR_NOLIMIT); } /* Set dtlb no permisions */ itlb_val = SPR_ITLBTR_CI; /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Enable IMMU */ immu_enable (); /* Copy jump instruction to last location of a page */ ea = RAM_START + (RAM_SIZE/2) + ((TLB_TEXT_SET_NB + 1)*PAGE_SIZE) - 8; memcpy((void *)ea, (void *)&jump_back, 12); /* Check if there was ITLB miss exception */ ret = call (ea, 0); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_ITLB_MISS)); ASSERT(except_pc == ea); ASSERT(ret == 0); /* Set dtlb no permisions */ itlb_val = SPR_ITLBTR_CI | SPR_ITLBTR_SXE; /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Check if there was IPF miss exception */ ret = call (ea, 0); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_IPF)); ASSERT(except_pc == ea); ASSERT(ret == 0); /* Set dtlb no permisions */ itlb_val = SPR_ITLBTR_CI; /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Check if there was ITLB miss exception */ ret = call (ea, 0); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_ITLB_MISS)); ASSERT(except_pc == ea + 4); ASSERT(ret == 0); /* Set dtlb no permisions */ itlb_val = SPR_ITLBTR_CI | SPR_ITLBTR_SXE; /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Check if there was IPF exception */ ret = call (ea, 0); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_IPF)); ASSERT(except_pc == ea + 4); ASSERT(ret == 0); /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; ret = call (ea, 0); ASSERT(except_count == 0); ASSERT(ret == 1); /* Disable IMMU */ immu_disable (); return 0; } /* DTLB miss test */ int dtlb_test (void) { int i, j, ret; unsigned long ea, ta; /* Invalidate all entries in DTLB */ for (i = 0; i < DTLB_WAYS; i++) { for (j = 0; j < DTLB_SETS; j++) { mtspr (SPR_DTLBMR_BASE(i) + j, 0); mtspr (SPR_DTLBTR_BASE(i) + j, 0); } } /* Set one to one translation for the use of this program */ for (i = 0; i < TLB_DATA_SET_NB; i++) { ea = RAM_START + (i*PAGE_SIZE); ta = RAM_START + (i*PAGE_SIZE); mtspr (SPR_DTLBMR_BASE(0) + i, ea | SPR_ITLBMR_V); mtspr (SPR_DTLBTR_BASE(0) + i, ta | DTLB_PR_NOLIMIT); } /* Set dtlb no permisions */ dtlb_val = SPR_DTLBTR_CI; /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Set pattern */ ea = RAM_START + (RAM_SIZE/2) + ((TLB_DATA_SET_NB)*PAGE_SIZE); REG32(ea) = 0x87654321; /* Enable DMMU */ dmmu_enable (); /* Check if there was DTLB miss exception */ ret = call ((unsigned long)&load_b_acc_32, ea); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_DTLB_MISS)); ASSERT(except_pc == (unsigned long)load_b_acc_32 + 8); ASSERT(except_ea == ea); ASSERT(ret == 0x12345678); /* Set dtlb no permisions */ dtlb_val = SPR_DTLBTR_CI | SPR_DTLBTR_SRE; /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Check if there was DPF miss exception */ ret = call ((unsigned long)&load_b_acc_32, ea); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_DPF)); ASSERT(except_pc == (unsigned long)load_b_acc_32 + 8); ASSERT(except_ea == ea); ASSERT(ret == 0x12345678); /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; ret = call ((unsigned long)&load_b_acc_32, ea); ASSERT(except_count == 0); ASSERT(ret == 0x87654321); /* Disable DMMU */ dmmu_disable (); return 0; } /* Bus error test */ int buserr_test (void) { int i, j, ret; unsigned long ea, ta; /* Invalidate all entries in ITLB */ for (i = 0; i < ITLB_WAYS; i++) { for (j = 0; j < ITLB_SETS; j++) { mtspr (SPR_ITLBMR_BASE(i) + j, 0); mtspr (SPR_ITLBTR_BASE(i) + j, 0); } } /* Set one to one translation for the use of this program */ for (i = 0; i < TLB_TEXT_SET_NB; i++) { ea = FLASH_START + (i*PAGE_SIZE); ta = FLASH_START + (i*PAGE_SIZE); mtspr (SPR_ITLBMR_BASE(0) + i, ea | SPR_ITLBMR_V); mtspr (SPR_ITLBTR_BASE(0) + i, ta | ITLB_PR_NOLIMIT); } /* Invalidate all entries in DTLB */ for (i = 0; i < DTLB_WAYS; i++) { for (j = 0; j < DTLB_SETS; j++) { mtspr (SPR_DTLBMR_BASE(i) + j, 0); mtspr (SPR_DTLBTR_BASE(i) + j, 0); } } /* Set one to one translation for the use of this program */ for (i = 0; i < TLB_DATA_SET_NB; i++) { ea = RAM_START + (i*PAGE_SIZE); ta = RAM_START + (i*PAGE_SIZE); mtspr (SPR_DTLBMR_BASE(0) + i, ea | SPR_ITLBMR_V); mtspr (SPR_DTLBTR_BASE(0) + i, ta | DTLB_PR_NOLIMIT); } /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Set IMMU translation */ ea = RAM_START + (RAM_SIZE) + ((TLB_TEXT_SET_NB)*PAGE_SIZE); itlb_val = SPR_ITLBTR_CI | SPR_ITLBTR_SXE; mtspr (SPR_ITLBMR_BASE(0) + TLB_TEXT_SET_NB, (ea & SPR_ITLBMR_VPN) | SPR_ITLBMR_V); mtspr (SPR_ITLBTR_BASE(0) + TLB_TEXT_SET_NB, ((ea + PAGE_SIZE) & SPR_ITLBTR_PPN) | itlb_val); /* Enable IMMU */ immu_enable (); /* Check if there was bus error exception */ ret = call (ea, 0); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_BERR)); ASSERT(except_pc == ea); ASSERT(except_ea == ea); /* Disable IMMU */ immu_disable (); /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Copy jump instruction to last location of RAM */ ea = RAM_START + RAM_SIZE - 8; memcpy((void *)ea, (void *)&jump_back, 8); /* Check if there was bus error exception */ ret = call (ea, 0); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_BERR)); ASSERT(except_pc == ea + 4); ASSERT(except_ea == ea + 8); /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Set DMMU translation */ ea = RAM_START + (RAM_SIZE) + ((TLB_DATA_SET_NB)*PAGE_SIZE); dtlb_val = SPR_DTLBTR_CI | SPR_DTLBTR_SRE; mtspr (SPR_DTLBMR_BASE(0) + TLB_DATA_SET_NB, (ea & SPR_DTLBMR_VPN) | SPR_DTLBMR_V); mtspr (SPR_DTLBTR_BASE(0) + TLB_DATA_SET_NB, ((ea + PAGE_SIZE) & SPR_DTLBTR_PPN) | dtlb_val); /* Enable DMMU */ dmmu_enable (); /* Check if there was bus error exception */ ret = call ((unsigned long)&load_acc_32, ea ); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_BERR)); ASSERT(except_pc == (unsigned long)load_acc_32 + 8); ASSERT(except_ea == ea); ASSERT(ret == 0x12345678); /* Disable DMMU */ dmmu_disable (); /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Check if there was bus error exception */ ret = call ((unsigned long)&load_b_acc_32, ea ); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_BERR)); ASSERT(except_pc == (unsigned long)load_b_acc_32 + 8); ASSERT(except_ea == ea); ASSERT(ret == 0x12345678); return 0; } /* Illegal instruction test */ int illegal_insn_test (void) { int ret; /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Set illegal insn */ REG32(RAM_START + 0) = REG32((unsigned long)jump_back + 4); REG32(RAM_START + 4) = 0xffffffff; /* Check if there was illegal insn exception */ ret = call (RAM_START + 4, 0 ); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_ILLINSN)); ASSERT(except_pc == RAM_START + 4); /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Check if there was illegal insn exception */ ret = call (RAM_START, 0 ); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_ILLINSN)); ASSERT(except_pc == RAM_START); return 0; } /* Align test */ int align_test (void) { int ret; /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Check if there was alignment exception on read insn */ ret = call ((unsigned long)&load_acc_32, RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE) + 1); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_ALIGN)); ASSERT(ret == 0x12345678); ASSERT(except_pc == ((unsigned long)(load_acc_32) + 8)); ASSERT(except_ea == (RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE + 1))); ret = call ((unsigned long)&load_acc_32, RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE) + 2); ASSERT(except_count == 2); ASSERT(except_mask == (1 << V_ALIGN)); ASSERT(ret == 0x12345678); ASSERT(except_pc == ((unsigned long)(load_acc_32) + 8)); ASSERT(except_ea == (RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE + 2))); ret = call ((unsigned long)&load_acc_32, RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE) + 3); ASSERT(except_count == 3); ASSERT(except_mask == (1 << V_ALIGN)); ASSERT(ret == 0x12345678); ASSERT(except_pc == ((unsigned long)(load_acc_32) + 8)); ASSERT(except_ea == (RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE + 3))); ret = call ((unsigned long)&load_acc_16, RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE) + 1); ASSERT(except_count == 4); ASSERT(except_mask == (1 << V_ALIGN)); ASSERT(ret == 0x12345678); ASSERT(except_pc == ((unsigned long)(load_acc_16) + 8)); ASSERT(except_ea == (RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE + 1))); /* Check alignment exception on write insn */ call ((unsigned long)&store_acc_32, RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE) + 1); ASSERT(except_count == 5); ASSERT(except_mask == (1 << V_ALIGN)); ASSERT(except_pc == ((unsigned long)(store_acc_32) + 8)); ASSERT(except_ea == (RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE + 1))); call ((unsigned long)&store_acc_32, RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE) + 2); ASSERT(except_count == 6); ASSERT(except_mask == (1 << V_ALIGN)); ASSERT(except_pc == ((unsigned long)(store_acc_32) + 8)); ASSERT(except_ea == (RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE + 2))); call ((unsigned long)&store_acc_32, RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE) + 3); ASSERT(except_count == 7); ASSERT(except_mask == (1 << V_ALIGN)); ASSERT(except_pc == ((unsigned long)(store_acc_32) + 8)); ASSERT(except_ea == (RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE + 3))); call ((unsigned long)&store_acc_16, RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE) + 1); ASSERT(except_count == 8); ASSERT(except_mask == (1 << V_ALIGN)); ASSERT(except_pc == ((unsigned long)(store_acc_16) + 8)); ASSERT(except_ea == (RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE + 1))); ret = call ((unsigned long)&load_b_acc_32, RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE) + 1); ASSERT(except_count == 9); ASSERT(except_mask == (1 << V_ALIGN)); ASSERT(ret == 0x12345678); ASSERT(except_pc == ((unsigned long)(load_b_acc_32) + 8)); ASSERT(except_ea == (RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE + 1))); return 0; } /* Trap test */ int trap_test (void) { /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Check if there was trap exception */ call ((unsigned long)&trap, 0); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_TRAP)); ASSERT(except_pc == (unsigned long)(trap)); ASSERT(except_ea == 0); /* Check if there was trap exception */ call ((unsigned long)&b_trap, 0); ASSERT(except_count == 2); ASSERT(except_mask == (1 << V_TRAP)); ASSERT(except_pc == (unsigned long)(b_trap)); ASSERT(except_ea == 0); return 0; } /* Range test */ int range_test (void) { /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Check if there was range exception */ mtspr (SPR_SR, mfspr (SPR_SR) | SPR_SR_OVE); call ((unsigned long)&range, 0); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_RANGE)); ASSERT(except_pc == (unsigned long)(range)); ASSERT(except_ea == 0); /* Check if there was range exception */ mtspr (SPR_SR, mfspr (SPR_SR) | SPR_SR_OVE); call ((unsigned long)&b_range, 0); ASSERT(except_count == 2); ASSERT(except_mask == (1 << V_RANGE)); ASSERT(except_pc == (unsigned long)(b_range)); ASSERT(except_ea == 0); return 0; } /* Exception priority test */ void except_priority_test (void) { int i, j; unsigned long ea, ta, ret; /* Invalidate all entries in ITLB */ for (i = 0; i < ITLB_WAYS; i++) { for (j = 0; j < ITLB_SETS; j++) { mtspr (SPR_ITLBMR_BASE(i) + j, 0); mtspr (SPR_ITLBTR_BASE(i) + j, 0); } } /* Set one to one translation for the use of this program */ for (i = 0; i < TLB_TEXT_SET_NB; i++) { ea = FLASH_START + (i*PAGE_SIZE); ta = FLASH_START + (i*PAGE_SIZE); mtspr (SPR_ITLBMR_BASE(0) + i, ea | SPR_ITLBMR_V); mtspr (SPR_ITLBTR_BASE(0) + i, ta | ITLB_PR_NOLIMIT); } /* Set dtlb no permisions */ itlb_val = SPR_ITLBTR_CI; /* Invalidate all entries in DTLB */ for (i = 0; i < DTLB_WAYS; i++) { for (j = 0; j < DTLB_SETS; j++) { mtspr (SPR_DTLBMR_BASE(i) + j, 0); mtspr (SPR_DTLBTR_BASE(i) + j, 0); } } /* Set one to one translation for the use of this program */ for (i = 0; i < TLB_DATA_SET_NB; i++) { ea = RAM_START + (i*PAGE_SIZE); ta = RAM_START + (i*PAGE_SIZE); mtspr (SPR_DTLBMR_BASE(0) + i, ea | SPR_ITLBMR_V); mtspr (SPR_DTLBTR_BASE(0) + i, ta | DTLB_PR_NOLIMIT); } /* Init tick timer */ tick_init (1, 1); /* Set dtlb no permisions */ dtlb_val = SPR_DTLBTR_CI; /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Enable IMMU */ immu_enable (); /* Check if there was INT exception */ call_with_int (RAM_START + (RAM_SIZE) + (TLB_TEXT_SET_NB*PAGE_SIZE), 0); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_TICK)); ASSERT(except_pc == (RAM_START + (RAM_SIZE) + (TLB_TEXT_SET_NB*PAGE_SIZE))); ASSERT(except_ea == 0); /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Check if there was ITLB exception */ call (RAM_START + (RAM_SIZE) + (TLB_TEXT_SET_NB*PAGE_SIZE), 0); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_ITLB_MISS)); ASSERT(except_pc == (RAM_START + (RAM_SIZE) + (TLB_TEXT_SET_NB*PAGE_SIZE))); ASSERT(except_ea == (RAM_START + (RAM_SIZE) + (TLB_TEXT_SET_NB*PAGE_SIZE))); /* Set dtlb permisions */ itlb_val |= SPR_ITLBTR_SXE; /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Check if there was IPF exception */ call (RAM_START + (RAM_SIZE) + (TLB_TEXT_SET_NB*PAGE_SIZE), 0); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_IPF)); ASSERT(except_pc == (RAM_START + (RAM_SIZE) + (TLB_TEXT_SET_NB*PAGE_SIZE))); ASSERT(except_ea == (RAM_START + (RAM_SIZE) + (TLB_TEXT_SET_NB*PAGE_SIZE))); /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Check if there was bus error exception */ call (RAM_START + (RAM_SIZE) + (TLB_TEXT_SET_NB*PAGE_SIZE), 0); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_BERR)); ASSERT(except_pc == (RAM_START + (RAM_SIZE) + (TLB_TEXT_SET_NB*PAGE_SIZE))); ASSERT(except_ea == (RAM_START + (RAM_SIZE) + (TLB_TEXT_SET_NB*PAGE_SIZE))); /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Disable MMU */ immu_disable (); /* Set illegal instruction */ REG32(RAM_START + (RAM_SIZE/2) + (TLB_TEXT_SET_NB*PAGE_SIZE) + 0) = 0x00000000; REG32(RAM_START + (RAM_SIZE/2) + (TLB_TEXT_SET_NB*PAGE_SIZE) + 4) = 0xffffffff; REG32(RAM_START + (RAM_SIZE/2) + (TLB_TEXT_SET_NB*PAGE_SIZE) + 8) = 0x00000000; /* Check if there was illegal insn exception */ call (RAM_START + (RAM_SIZE/2) + (TLB_TEXT_SET_NB*PAGE_SIZE) + 4, 0); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_ILLINSN)); ASSERT(except_pc == (RAM_START + (RAM_SIZE/2) + (TLB_TEXT_SET_NB*PAGE_SIZE) + 4)); ASSERT(except_ea == (RAM_START + (RAM_SIZE/2) + (TLB_TEXT_SET_NB*PAGE_SIZE) + 4 )); /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Enable DMMU */ dmmu_enable (); /* Check if there was alignment exception on read insn */ ret = call ((unsigned long)&load_acc_32, RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE) + 1); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_ALIGN)); ASSERT(ret == 0x12345678); ASSERT(except_pc == ((unsigned long)(load_acc_32) + 8)); ASSERT(except_ea == (RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE + 1))); /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Check if there was DTLB exception */ ret = call ((unsigned long)&load_acc_32, RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE)); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_DTLB_MISS)); ASSERT(ret == 0x12345678); ASSERT(except_pc == ((unsigned long)(load_acc_32) + 8)); ASSERT(except_ea == (RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE))); /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Set dtlb permisions */ dtlb_val |= SPR_DTLBTR_SRE; /* Check if there was DPF exception */ ret = call ((unsigned long)&load_acc_32, RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE)); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_DPF)); ASSERT(ret == 0x12345678); ASSERT(except_pc == ((unsigned long)(load_acc_32) + 8)); ASSERT(except_ea == (RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE))); /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Check if there was bus error exception */ ret = call ((unsigned long)&load_acc_32, RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE)); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_BERR)); ASSERT(ret == 0x12345678); ASSERT(except_pc == ((unsigned long)(load_acc_32) + 8)); ASSERT(except_ea == (RAM_START + (RAM_SIZE) + (TLB_DATA_SET_NB*PAGE_SIZE))); /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Check if there was trap exception */ call ((unsigned long)&trap, 0); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_TRAP)); ASSERT(except_pc == (unsigned long)(trap)); ASSERT(except_ea == 0); #if 0 /* Reset except counter */ except_count = 0; except_mask = 0; except_pc = 0; except_ea = 0; /* Check if there was range exception */ mtspr (SPR_SR, mfspr (SPR_SR) | SPR_SR_OVE); call ((unsigned long)&range, 0); ASSERT(except_count == 1); ASSERT(except_mask == (1 << V_RANGE)); ASSERT(except_pc == (unsigned long)(range)); ASSERT(except_ea == 0); #endif } int main (void) { int ret; printf("except_test\n"); /* Register bus error handler */ excpt_buserr = (unsigned long)bus_err_handler; /* Register illegal insn handler */ excpt_illinsn = (unsigned long)ill_insn_handler; /* Register tick timer exception handler */ excpt_tick = (unsigned long)tick_handler; /* Register external interrupt handler */ excpt_int = (unsigned long)int_handler; /* Register ITLB miss handler */ excpt_itlbmiss = (unsigned long)itlb_miss_handler; /* Register instruction page fault handler */ excpt_ipfault = (unsigned long)ipage_fault_handler; /* Register DTLB miss handler */ excpt_dtlbmiss = (unsigned long)dtlb_miss_handler; /* Register data page fault handler */ excpt_dpfault = (unsigned long)dpage_fault_handler; /* Register trap handler */ excpt_trap = (unsigned long)trap_handler; /* Register align handler */ excpt_align = (unsigned long)align_handler; /* Register range handler */ excpt_range = (unsigned long)range_handler; /* Exception basic test */ ret = except_basic (); ASSERT(ret == 0); /* Interrupt exception test */ interrupt_test (); /* ITLB exception test */ itlb_test (); /* DTLB exception test */ dtlb_test (); /* Bus error exception test */ buserr_test (); /* Illegal insn test */ illegal_insn_test (); /* Alignment test */ align_test (); /* Trap test */ trap_test (); /* Range test */ // range_test (); /* Exception priority test */ except_priority_test (); report (0xdeaddead); exit (0); return 0; }
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