//Original:/proj/frio/dv/testcases/lmu/lmu_cplb_multiple0/lmu_cplb_multiple0.dsp // Description: Multiple CPLB Hit exceptions # mach: bfin # sim: --environment operating #include "test.h" .include "testutils.inc" start include(selfcheck.inc) include(std.inc) include(mmrs.inc) //------------------------------------- // Test LMU/CPLB exceptions // Basic outline: // Set exception handler // program CPLB Entries // Enable CPLB in DMEM_CNTL // perform access // verify exception occurred CHECK_INIT(p5, 0xEFFFFFFC); //------------------------- // Zero the CPLB Address and Data regs. LD32(p0, DCPLB_ADDR0); R0 = 0; [ P0 ++ ] = R0; // 0 [ P0 ++ ] = R0; // 1 [ P0 ++ ] = R0; // 2 [ P0 ++ ] = R0; // 3 [ P0 ++ ] = R0; // 4 [ P0 ++ ] = R0; // 5 [ P0 ++ ] = R0; // 6 [ P0 ++ ] = R0; // 7 [ P0 ++ ] = R0; // 8 [ P0 ++ ] = R0; // 9 [ P0 ++ ] = R0; // 10 [ P0 ++ ] = R0; // 11 [ P0 ++ ] = R0; // 12 [ P0 ++ ] = R0; // 13 [ P0 ++ ] = R0; // 14 [ P0 ++ ] = R0; // 15 LD32(p0, DCPLB_DATA0); [ P0 ++ ] = R0; // 0 [ P0 ++ ] = R0; // 1 [ P0 ++ ] = R0; // 2 [ P0 ++ ] = R0; // 3 [ P0 ++ ] = R0; // 4 [ P0 ++ ] = R0; // 5 [ P0 ++ ] = R0; // 6 [ P0 ++ ] = R0; // 7 [ P0 ++ ] = R0; // 8 [ P0 ++ ] = R0; // 9 [ P0 ++ ] = R0; // 10 [ P0 ++ ] = R0; // 11 [ P0 ++ ] = R0; // 12 [ P0 ++ ] = R0; // 13 [ P0 ++ ] = R0; // 14 [ P0 ++ ] = R0; // 15 // Now set the CPLB entries we will need // Data area for the desired error WR_MMR(DCPLB_ADDR0, 0x10000000, p0, r0); WR_MMR(DCPLB_ADDR1, 0x10000000, p0, r0); WR_MMR(DCPLB_ADDR2, 0x10000000, p0, r0); WR_MMR(DCPLB_ADDR3, 0x10000000, p0, r0); WR_MMR(DCPLB_ADDR4, 0x10000000, p0, r0); WR_MMR(DCPLB_ADDR5, 0x10000000, p0, r0); WR_MMR(DCPLB_ADDR6, 0x10000000, p0, r0); WR_MMR(DCPLB_ADDR7, 0x10000000, p0, r0); WR_MMR(DCPLB_ADDR8, 0x10000000, p0, r0); WR_MMR(DCPLB_ADDR9, 0x10000000, p0, r0); WR_MMR(DCPLB_ADDR10, 0x10000000, p0, r0); WR_MMR(DCPLB_ADDR11, 0x10000000, p0, r0); WR_MMR(DCPLB_ADDR12, 0x10000000, p0, r0); WR_MMR(DCPLB_ADDR13, 0x10000000, p0, r0); WR_MMR(DCPLB_ADDR14, 0x10000000, p0, r0); // MMR space WR_MMR(DCPLB_ADDR15, 0xFFC00000, p0, r0); WR_MMR(DCPLB_DATA15, PAGE_SIZE_4M|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR, p0, r0); // setup interrupt controller with exception handler address WR_MMR_LABEL(EVT3, handler, p0, r1); WR_MMR_LABEL(EVT15, int_15, p0, r1); WR_MMR(EVT_IMASK, 0xFFFFFFFF, p0, r0); WR_MMR(EVT_OVERRIDE, 0x00000000, p0, r0); CSYNC; // go to user mode. and enable exceptions LD32_LABEL(r0, User); RETI = R0; // But first raise interrupt 15 so we can do one test // in supervisor mode. RAISE 15; NOP; RTI; // Nops to work around ICache bug NOP;NOP;NOP;NOP;NOP; NOP;NOP;NOP;NOP;NOP; handler: // generic protection exception handler // Inputs: // p2: addr of CPLB entry to be modified ( current test) // // Outputs: // r4: SEQSTAT // r5: DCPLB_FAULT_ADDR // r6: DCPLB_STATUS // r7: RETX (instruction addr where exception occurred) R4 = SEQSTAT; // Get exception cause R4 <<= 24; // Clear HWERRCAUSE + SFTRESET R4 >>= 24; // read data addr which caused exception RD_MMR(DCPLB_FAULT_ADDR, p0, r5); RD_MMR(DCPLB_STATUS, p0, r6); R7 = RETX; // get address of excepting instruction // disable the offending CPLB entries R2 = 0; [ P2 ] = R2; CSYNC; // return from exception and re-execute offending instruction RTX; // Nops to work around ICache bug NOP;NOP;NOP;NOP;NOP; NOP;NOP;NOP;NOP;NOP; int_15: // Interrupt 15 handler - test will run in supervisor mode //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA0, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA1, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x41C6 (Z); LD32(p2, DCPLB_DATA1); X0_1: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA0, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB0|FAULT_CPLB1)); CHECKREG_SYM(r7, X0_1, r0); // RETX should be value of X0_1 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA0, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA2, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x167E (Z); LD32(p2, DCPLB_DATA2); X0_2: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA0, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB0|FAULT_CPLB2)); CHECKREG_SYM(r7, X0_2, r0); // RETX should be value of X0_2 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA0, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA3, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x2781 (Z); LD32(p2, DCPLB_DATA3); X0_3: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA0, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB0|FAULT_CPLB3)); CHECKREG_SYM(r7, X0_3, r0); // RETX should be value of X0_3 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA0, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA4, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x446B (Z); LD32(p2, DCPLB_DATA4); X0_4: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA0, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB0|FAULT_CPLB4)); CHECKREG_SYM(r7, X0_4, r0); // RETX should be value of X0_4 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA0, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA5, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x794B (Z); LD32(p2, DCPLB_DATA5); X0_5: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA0, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB0|FAULT_CPLB5)); CHECKREG_SYM(r7, X0_5, r0); // RETX should be value of X0_5 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA0, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA6, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x15FB (Z); LD32(p2, DCPLB_DATA6); X0_6: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA0, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB0|FAULT_CPLB6)); CHECKREG_SYM(r7, X0_6, r0); // RETX should be value of X0_6 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA0, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA7, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x59E2 (Z); LD32(p2, DCPLB_DATA7); X0_7: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA0, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB0|FAULT_CPLB7)); CHECKREG_SYM(r7, X0_7, r0); // RETX should be value of X0_7 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA0, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA8, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x1CFB (Z); LD32(p2, DCPLB_DATA8); X0_8: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA0, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB0|FAULT_CPLB8)); CHECKREG_SYM(r7, X0_8, r0); // RETX should be value of X0_8 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA0, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA9, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x3F54 (Z); LD32(p2, DCPLB_DATA9); X0_9: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA0, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB0|FAULT_CPLB9)); CHECKREG_SYM(r7, X0_9, r0); // RETX should be value of X0_9 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA0, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA10, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x0FF6 (Z); LD32(p2, DCPLB_DATA10); X0_10: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA0, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB0|FAULT_CPLB10)); CHECKREG_SYM(r7, X0_10, r0); // RETX should be value of X0_10 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA0, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA11, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x0ABD (Z); LD32(p2, DCPLB_DATA11); X0_11: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA0, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB0|FAULT_CPLB11)); CHECKREG_SYM(r7, X0_11, r0); // RETX should be value of X0_11 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA0, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA12, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x31DF (Z); LD32(p2, DCPLB_DATA12); X0_12: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA0, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB0|FAULT_CPLB12)); CHECKREG_SYM(r7, X0_12, r0); // RETX should be value of X0_12 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA0, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA13, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x237C (Z); LD32(p2, DCPLB_DATA13); X0_13: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA0, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB0|FAULT_CPLB13)); CHECKREG_SYM(r7, X0_13, r0); // RETX should be value of X0_13 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA0, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA14, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x2F1C (Z); LD32(p2, DCPLB_DATA14); X0_14: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA0, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB0|FAULT_CPLB14)); CHECKREG_SYM(r7, X0_14, r0); // RETX should be value of X0_14 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA1, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA2, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x7DE1 (Z); LD32(p2, DCPLB_DATA2); X1_2: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA1, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB1|FAULT_CPLB2)); CHECKREG_SYM(r7, X1_2, r0); // RETX should be value of X1_2 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA1, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA3, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x4487 (Z); LD32(p2, DCPLB_DATA3); X1_3: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA1, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB1|FAULT_CPLB3)); CHECKREG_SYM(r7, X1_3, r0); // RETX should be value of X1_3 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA1, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA4, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x6201 (Z); LD32(p2, DCPLB_DATA4); X1_4: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA1, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB1|FAULT_CPLB4)); CHECKREG_SYM(r7, X1_4, r0); // RETX should be value of X1_4 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA1, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA5, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x52BF (Z); LD32(p2, DCPLB_DATA5); X1_5: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA1, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB1|FAULT_CPLB5)); CHECKREG_SYM(r7, X1_5, r0); // RETX should be value of X1_5 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA1, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA6, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x6231 (Z); LD32(p2, DCPLB_DATA6); X1_6: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA1, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB1|FAULT_CPLB6)); CHECKREG_SYM(r7, X1_6, r0); // RETX should be value of X1_6 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA1, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA7, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x63DE (Z); LD32(p2, DCPLB_DATA7); X1_7: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA1, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB1|FAULT_CPLB7)); CHECKREG_SYM(r7, X1_7, r0); // RETX should be value of X1_7 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA1, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA8, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x6956 (Z); LD32(p2, DCPLB_DATA8); X1_8: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA1, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB1|FAULT_CPLB8)); CHECKREG_SYM(r7, X1_8, r0); // RETX should be value of X1_8 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA1, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA9, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x1372 (Z); LD32(p2, DCPLB_DATA9); X1_9: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA1, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB1|FAULT_CPLB9)); CHECKREG_SYM(r7, X1_9, r0); // RETX should be value of X1_9 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA1, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA10, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x500F (Z); LD32(p2, DCPLB_DATA10); X1_10: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA1, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB1|FAULT_CPLB10)); CHECKREG_SYM(r7, X1_10, r0); // RETX should be value of X1_10 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA1, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA11, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x2847 (Z); LD32(p2, DCPLB_DATA11); X1_11: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA1, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB1|FAULT_CPLB11)); CHECKREG_SYM(r7, X1_11, r0); // RETX should be value of X1_11 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA1, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA12, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x2C67 (Z); LD32(p2, DCPLB_DATA12); X1_12: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA1, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB1|FAULT_CPLB12)); CHECKREG_SYM(r7, X1_12, r0); // RETX should be value of X1_12 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA1, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA13, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x7566 (Z); LD32(p2, DCPLB_DATA13); X1_13: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA1, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB1|FAULT_CPLB13)); CHECKREG_SYM(r7, X1_13, r0); // RETX should be value of X1_13 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA1, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA14, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x4287 (Z); LD32(p2, DCPLB_DATA14); X1_14: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA1, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB1|FAULT_CPLB14)); CHECKREG_SYM(r7, X1_14, r0); // RETX should be value of X1_14 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA2, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA3, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x3359 (Z); LD32(p2, DCPLB_DATA3); X2_3: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA2, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB2|FAULT_CPLB3)); CHECKREG_SYM(r7, X2_3, r0); // RETX should be value of X2_3 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA2, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA4, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x4DAA (Z); LD32(p2, DCPLB_DATA4); X2_4: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA2, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB2|FAULT_CPLB4)); CHECKREG_SYM(r7, X2_4, r0); // RETX should be value of X2_4 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA2, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA5, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x6488 (Z); LD32(p2, DCPLB_DATA5); X2_5: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA2, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB2|FAULT_CPLB5)); CHECKREG_SYM(r7, X2_5, r0); // RETX should be value of X2_5 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA2, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA6, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x773C (Z); LD32(p2, DCPLB_DATA6); X2_6: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA2, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB2|FAULT_CPLB6)); CHECKREG_SYM(r7, X2_6, r0); // RETX should be value of X2_6 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA2, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA7, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x6F59 (Z); LD32(p2, DCPLB_DATA7); X2_7: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA2, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB2|FAULT_CPLB7)); CHECKREG_SYM(r7, X2_7, r0); // RETX should be value of X2_7 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA2, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA8, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x6EEA (Z); LD32(p2, DCPLB_DATA8); X2_8: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA2, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB2|FAULT_CPLB8)); CHECKREG_SYM(r7, X2_8, r0); // RETX should be value of X2_8 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA2, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA9, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x5656 (Z); LD32(p2, DCPLB_DATA9); X2_9: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA2, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB2|FAULT_CPLB9)); CHECKREG_SYM(r7, X2_9, r0); // RETX should be value of X2_9 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA2, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA10, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x6113 (Z); LD32(p2, DCPLB_DATA10); X2_10: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA2, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB2|FAULT_CPLB10)); CHECKREG_SYM(r7, X2_10, r0); // RETX should be value of X2_10 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA2, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA11, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x4A7B (Z); LD32(p2, DCPLB_DATA11); X2_11: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA2, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB2|FAULT_CPLB11)); CHECKREG_SYM(r7, X2_11, r0); // RETX should be value of X2_11 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA2, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA12, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x31D2 (Z); LD32(p2, DCPLB_DATA12); X2_12: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA2, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB2|FAULT_CPLB12)); CHECKREG_SYM(r7, X2_12, r0); // RETX should be value of X2_12 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA2, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA13, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x2D85 (Z); LD32(p2, DCPLB_DATA13); X2_13: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA2, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB2|FAULT_CPLB13)); CHECKREG_SYM(r7, X2_13, r0); // RETX should be value of X2_13 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA2, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA14, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x19A1 (Z); LD32(p2, DCPLB_DATA14); X2_14: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA2, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB2|FAULT_CPLB14)); CHECKREG_SYM(r7, X2_14, r0); // RETX should be value of X2_14 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA3, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA4, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x69D8 (Z); LD32(p2, DCPLB_DATA4); X3_4: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA3, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB3|FAULT_CPLB4)); CHECKREG_SYM(r7, X3_4, r0); // RETX should be value of X3_4 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA3, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA5, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x353C (Z); LD32(p2, DCPLB_DATA5); X3_5: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA3, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB3|FAULT_CPLB5)); CHECKREG_SYM(r7, X3_5, r0); // RETX should be value of X3_5 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA3, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA6, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x3B54 (Z); LD32(p2, DCPLB_DATA6); X3_6: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA3, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB3|FAULT_CPLB6)); CHECKREG_SYM(r7, X3_6, r0); // RETX should be value of X3_6 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA3, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA7, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x7D55 (Z); LD32(p2, DCPLB_DATA7); X3_7: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA3, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB3|FAULT_CPLB7)); CHECKREG_SYM(r7, X3_7, r0); // RETX should be value of X3_7 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA3, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA8, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x102F (Z); LD32(p2, DCPLB_DATA8); X3_8: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA3, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB3|FAULT_CPLB8)); CHECKREG_SYM(r7, X3_8, r0); // RETX should be value of X3_8 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA3, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA9, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x1B37 (Z); LD32(p2, DCPLB_DATA9); X3_9: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA3, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB3|FAULT_CPLB9)); CHECKREG_SYM(r7, X3_9, r0); // RETX should be value of X3_9 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA3, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA10, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x7AAE (Z); LD32(p2, DCPLB_DATA10); X3_10: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA3, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB3|FAULT_CPLB10)); CHECKREG_SYM(r7, X3_10, r0); // RETX should be value of X3_10 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA3, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA11, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x5E65 (Z); LD32(p2, DCPLB_DATA11); X3_11: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA3, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB3|FAULT_CPLB11)); CHECKREG_SYM(r7, X3_11, r0); // RETX should be value of X3_11 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA3, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA12, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x345B (Z); LD32(p2, DCPLB_DATA12); X3_12: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA3, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB3|FAULT_CPLB12)); CHECKREG_SYM(r7, X3_12, r0); // RETX should be value of X3_12 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA3, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA13, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x63DA (Z); LD32(p2, DCPLB_DATA13); X3_13: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA3, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB3|FAULT_CPLB13)); CHECKREG_SYM(r7, X3_13, r0); // RETX should be value of X3_13 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA3, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA14, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x6102 (Z); LD32(p2, DCPLB_DATA14); X3_14: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA3, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB3|FAULT_CPLB14)); CHECKREG_SYM(r7, X3_14, r0); // RETX should be value of X3_14 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA4, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA5, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x7A79 (Z); LD32(p2, DCPLB_DATA5); X4_5: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA4, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB4|FAULT_CPLB5)); CHECKREG_SYM(r7, X4_5, r0); // RETX should be value of X4_5 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA4, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA6, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x0398 (Z); LD32(p2, DCPLB_DATA6); X4_6: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA4, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB4|FAULT_CPLB6)); CHECKREG_SYM(r7, X4_6, r0); // RETX should be value of X4_6 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA4, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA7, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x28CC (Z); LD32(p2, DCPLB_DATA7); X4_7: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA4, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB4|FAULT_CPLB7)); CHECKREG_SYM(r7, X4_7, r0); // RETX should be value of X4_7 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA4, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA8, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x60E3 (Z); LD32(p2, DCPLB_DATA8); X4_8: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA4, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB4|FAULT_CPLB8)); CHECKREG_SYM(r7, X4_8, r0); // RETX should be value of X4_8 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA4, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA9, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x1F1A (Z); LD32(p2, DCPLB_DATA9); X4_9: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA4, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB4|FAULT_CPLB9)); CHECKREG_SYM(r7, X4_9, r0); // RETX should be value of X4_9 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA4, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA10, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x4B76 (Z); LD32(p2, DCPLB_DATA10); X4_10: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA4, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB4|FAULT_CPLB10)); CHECKREG_SYM(r7, X4_10, r0); // RETX should be value of X4_10 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA4, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA11, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x058E (Z); LD32(p2, DCPLB_DATA11); X4_11: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA4, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB4|FAULT_CPLB11)); CHECKREG_SYM(r7, X4_11, r0); // RETX should be value of X4_11 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA4, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA12, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x7A5F (Z); LD32(p2, DCPLB_DATA12); X4_12: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA4, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB4|FAULT_CPLB12)); CHECKREG_SYM(r7, X4_12, r0); // RETX should be value of X4_12 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA4, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA13, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x28D9 (Z); LD32(p2, DCPLB_DATA13); X4_13: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA4, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB4|FAULT_CPLB13)); CHECKREG_SYM(r7, X4_13, r0); // RETX should be value of X4_13 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA4, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA14, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x0799 (Z); LD32(p2, DCPLB_DATA14); X4_14: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA4, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB4|FAULT_CPLB14)); CHECKREG_SYM(r7, X4_14, r0); // RETX should be value of X4_14 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA5, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA6, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x388F (Z); LD32(p2, DCPLB_DATA6); X5_6: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA5, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB5|FAULT_CPLB6)); CHECKREG_SYM(r7, X5_6, r0); // RETX should be value of X5_6 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA5, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA7, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x751F (Z); LD32(p2, DCPLB_DATA7); X5_7: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA5, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB5|FAULT_CPLB7)); CHECKREG_SYM(r7, X5_7, r0); // RETX should be value of X5_7 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA5, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA8, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x493F (Z); LD32(p2, DCPLB_DATA8); X5_8: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA5, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB5|FAULT_CPLB8)); CHECKREG_SYM(r7, X5_8, r0); // RETX should be value of X5_8 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA5, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA9, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x0F36 (Z); LD32(p2, DCPLB_DATA9); X5_9: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA5, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB5|FAULT_CPLB9)); CHECKREG_SYM(r7, X5_9, r0); // RETX should be value of X5_9 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA5, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA10, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x48EE (Z); LD32(p2, DCPLB_DATA10); X5_10: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA5, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB5|FAULT_CPLB10)); CHECKREG_SYM(r7, X5_10, r0); // RETX should be value of X5_10 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA5, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA11, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x2043 (Z); LD32(p2, DCPLB_DATA11); X5_11: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA5, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB5|FAULT_CPLB11)); CHECKREG_SYM(r7, X5_11, r0); // RETX should be value of X5_11 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA5, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA12, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x3F78 (Z); LD32(p2, DCPLB_DATA12); X5_12: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA5, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB5|FAULT_CPLB12)); CHECKREG_SYM(r7, X5_12, r0); // RETX should be value of X5_12 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA5, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA13, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x1E4D (Z); LD32(p2, DCPLB_DATA13); X5_13: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA5, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB5|FAULT_CPLB13)); CHECKREG_SYM(r7, X5_13, r0); // RETX should be value of X5_13 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA5, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA14, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x3D0D (Z); LD32(p2, DCPLB_DATA14); X5_14: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA5, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB5|FAULT_CPLB14)); CHECKREG_SYM(r7, X5_14, r0); // RETX should be value of X5_14 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA6, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA7, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x33FA (Z); LD32(p2, DCPLB_DATA7); X6_7: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA6, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB6|FAULT_CPLB7)); CHECKREG_SYM(r7, X6_7, r0); // RETX should be value of X6_7 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA6, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA8, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x6FBE (Z); LD32(p2, DCPLB_DATA8); X6_8: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA6, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB6|FAULT_CPLB8)); CHECKREG_SYM(r7, X6_8, r0); // RETX should be value of X6_8 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA6, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA9, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x36A6 (Z); LD32(p2, DCPLB_DATA9); X6_9: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA6, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB6|FAULT_CPLB9)); CHECKREG_SYM(r7, X6_9, r0); // RETX should be value of X6_9 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA6, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA10, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x2DDA (Z); LD32(p2, DCPLB_DATA10); X6_10: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA6, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB6|FAULT_CPLB10)); CHECKREG_SYM(r7, X6_10, r0); // RETX should be value of X6_10 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA6, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA11, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x30E4 (Z); LD32(p2, DCPLB_DATA11); X6_11: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA6, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB6|FAULT_CPLB11)); CHECKREG_SYM(r7, X6_11, r0); // RETX should be value of X6_11 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA6, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA12, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x0586 (Z); LD32(p2, DCPLB_DATA12); X6_12: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA6, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB6|FAULT_CPLB12)); CHECKREG_SYM(r7, X6_12, r0); // RETX should be value of X6_12 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA6, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA13, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x148E (Z); LD32(p2, DCPLB_DATA13); X6_13: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA6, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB6|FAULT_CPLB13)); CHECKREG_SYM(r7, X6_13, r0); // RETX should be value of X6_13 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA6, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA14, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x42DC (Z); LD32(p2, DCPLB_DATA14); X6_14: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA6, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB6|FAULT_CPLB14)); CHECKREG_SYM(r7, X6_14, r0); // RETX should be value of X6_14 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA7, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA8, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x5929 (Z); LD32(p2, DCPLB_DATA8); X7_8: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA7, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB7|FAULT_CPLB8)); CHECKREG_SYM(r7, X7_8, r0); // RETX should be value of X7_8 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA7, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA9, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x0C6D (Z); LD32(p2, DCPLB_DATA9); X7_9: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA7, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB7|FAULT_CPLB9)); CHECKREG_SYM(r7, X7_9, r0); // RETX should be value of X7_9 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA7, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA10, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x334E (Z); LD32(p2, DCPLB_DATA10); X7_10: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA7, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB7|FAULT_CPLB10)); CHECKREG_SYM(r7, X7_10, r0); // RETX should be value of X7_10 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA7, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA11, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x62FF (Z); LD32(p2, DCPLB_DATA11); X7_11: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA7, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB7|FAULT_CPLB11)); CHECKREG_SYM(r7, X7_11, r0); // RETX should be value of X7_11 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA7, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA12, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x1F56 (Z); LD32(p2, DCPLB_DATA12); X7_12: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA7, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB7|FAULT_CPLB12)); CHECKREG_SYM(r7, X7_12, r0); // RETX should be value of X7_12 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA7, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA13, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x2BE1 (Z); LD32(p2, DCPLB_DATA13); X7_13: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA7, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB7|FAULT_CPLB13)); CHECKREG_SYM(r7, X7_13, r0); // RETX should be value of X7_13 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA7, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA14, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x1D70 (Z); LD32(p2, DCPLB_DATA14); X7_14: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA7, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB7|FAULT_CPLB14)); CHECKREG_SYM(r7, X7_14, r0); // RETX should be value of X7_14 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA8, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA9, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x2620 (Z); LD32(p2, DCPLB_DATA9); X8_9: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA8, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB8|FAULT_CPLB9)); CHECKREG_SYM(r7, X8_9, r0); // RETX should be value of X8_9 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA8, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA10, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x26FB (Z); LD32(p2, DCPLB_DATA10); X8_10: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA8, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB8|FAULT_CPLB10)); CHECKREG_SYM(r7, X8_10, r0); // RETX should be value of X8_10 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA8, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA11, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x718F (Z); LD32(p2, DCPLB_DATA11); X8_11: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA8, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB8|FAULT_CPLB11)); CHECKREG_SYM(r7, X8_11, r0); // RETX should be value of X8_11 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA8, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA12, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x04B1 (Z); LD32(p2, DCPLB_DATA12); X8_12: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA8, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB8|FAULT_CPLB12)); CHECKREG_SYM(r7, X8_12, r0); // RETX should be value of X8_12 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA8, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA13, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x5358 (Z); LD32(p2, DCPLB_DATA13); X8_13: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA8, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB8|FAULT_CPLB13)); CHECKREG_SYM(r7, X8_13, r0); // RETX should be value of X8_13 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA8, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA14, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x3305 (Z); LD32(p2, DCPLB_DATA14); X8_14: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA8, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB8|FAULT_CPLB14)); CHECKREG_SYM(r7, X8_14, r0); // RETX should be value of X8_14 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA9, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA10, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x5690 (Z); LD32(p2, DCPLB_DATA10); X9_10: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA9, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB9|FAULT_CPLB10)); CHECKREG_SYM(r7, X9_10, r0); // RETX should be value of X9_10 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA9, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA11, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x5DC5 (Z); LD32(p2, DCPLB_DATA11); X9_11: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA9, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB9|FAULT_CPLB11)); CHECKREG_SYM(r7, X9_11, r0); // RETX should be value of X9_11 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA9, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA12, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x7809 (Z); LD32(p2, DCPLB_DATA12); X9_12: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA9, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB9|FAULT_CPLB12)); CHECKREG_SYM(r7, X9_12, r0); // RETX should be value of X9_12 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA9, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA13, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x1DDC (Z); LD32(p2, DCPLB_DATA13); X9_13: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA9, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB9|FAULT_CPLB13)); CHECKREG_SYM(r7, X9_13, r0); // RETX should be value of X9_13 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA9, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA14, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x6B53 (Z); LD32(p2, DCPLB_DATA14); X9_14: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA9, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB9|FAULT_CPLB14)); CHECKREG_SYM(r7, X9_14, r0); // RETX should be value of X9_14 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA10, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA11, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x7BCD (Z); LD32(p2, DCPLB_DATA11); X10_11: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA10, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB10|FAULT_CPLB11)); CHECKREG_SYM(r7, X10_11, r0); // RETX should be value of X10_11 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA10, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA12, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x63AA (Z); LD32(p2, DCPLB_DATA12); X10_12: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA10, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB10|FAULT_CPLB12)); CHECKREG_SYM(r7, X10_12, r0); // RETX should be value of X10_12 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA10, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA13, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x373B (Z); LD32(p2, DCPLB_DATA13); X10_13: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA10, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB10|FAULT_CPLB13)); CHECKREG_SYM(r7, X10_13, r0); // RETX should be value of X10_13 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA10, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA14, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x5648 (Z); LD32(p2, DCPLB_DATA14); X10_14: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA10, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB10|FAULT_CPLB14)); CHECKREG_SYM(r7, X10_14, r0); // RETX should be value of X10_14 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA11, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA12, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x6799 (Z); LD32(p2, DCPLB_DATA12); X11_12: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA11, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB11|FAULT_CPLB12)); CHECKREG_SYM(r7, X11_12, r0); // RETX should be value of X11_12 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA11, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA13, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x1452 (Z); LD32(p2, DCPLB_DATA13); X11_13: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA11, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB11|FAULT_CPLB13)); CHECKREG_SYM(r7, X11_13, r0); // RETX should be value of X11_13 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA11, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA14, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x23D3 (Z); LD32(p2, DCPLB_DATA14); X11_14: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA11, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB11|FAULT_CPLB14)); CHECKREG_SYM(r7, X11_14, r0); // RETX should be value of X11_14 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA12, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA13, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x1152 (Z); LD32(p2, DCPLB_DATA13); X12_13: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA12, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB12|FAULT_CPLB13)); CHECKREG_SYM(r7, X12_13, r0); // RETX should be value of X12_13 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA12, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA14, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x6E9D (Z); LD32(p2, DCPLB_DATA14); X12_14: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA12, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB12|FAULT_CPLB14)); CHECKREG_SYM(r7, X12_14, r0); // RETX should be value of X12_14 (HARDCODED ADDR!!) //------------------------------------------------------- R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; WR_MMR(DCPLB_DATA13, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DCPLB_DATA14, (PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_SUPV_WR|CPLB_USER_RW), p0, r0); WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); CSYNC; LD32(i1, 0x10000000); R1 = 0x6006 (Z); LD32(p2, DCPLB_DATA14); X13_14: [ I1 ] = R1; // Exception should occur here WR_MMR(DMEM_CONTROL, ENDM | DMC_AB_CACHE, p0, r0); CSYNC; WR_MMR(DCPLB_DATA13, 0, p0, r0); // Now check that handler read correct values CHECKREG(r4,0x27); // supv and EXCPT_PROT CHECKREG(r5, 0x10000000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB13|FAULT_CPLB14)); CHECKREG_SYM(r7, X13_14, r0); // RETX should be value of X13_14 (HARDCODED ADDR!!) //------------------------------------------------------- User: NOP; dbg_pass;