//Original:/proj/frio/dv/testcases/lmu/lmu_excpt_prot0/lmu_excpt_prot0.dsp // Description: LMU protection 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, 0x800, p0, r0); WR_MMR(DCPLB_ADDR1, 0x1000, p0, r0); WR_MMR(DCPLB_DATA0, PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_L1_CACHABLE|CPLB_USER_RW, p0, r0); WR_MMR(DCPLB_ADDR2, 0x2000, p0, r0); WR_MMR(DCPLB_ADDR3, 0x3000, p0, r0); WR_MMR(DCPLB_ADDR4, 0x4000, p0, r0); WR_MMR(DCPLB_ADDR5, 0x5000, p0, r0); WR_MMR(DCPLB_ADDR6, 0x6000, p0, r0); WR_MMR(DCPLB_ADDR7, 0x7000, p0, r0); // CHECKREG segment WR_MMR(DCPLB_ADDR14, 0xEFFFFC00, p0, r0); WR_MMR(DCPLB_DATA14, PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_WT|CPLB_L1_CACHABLE|CPLB_SUPV_WR|CPLB_USER_RW, 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); // enable CPLB WR_MMR(DMEM_CONTROL, ENDM | ENDCPLB | DMC_AB_CACHE, p0, r0); NOP;NOP;NOP;NOP;NOP; // in lieu of 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; int_15: // Interrupt 15 handler - needed to try supervisor access with exceptions enabled //------------------------------------------------------- // Protection violation - Illegal Supervisor Write Access R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; LD32(p1, 0x800); LD32(r1, 0xDEADBEEF); LD32(p2, DCPLB_DATA0); LD32(r2, PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_L1_CACHABLE|CPLB_SUPV_WR); LD32(p3, DCPLB_DATA1); LD32(r3, PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_L1_CACHABLE|CPLB_SUPV_WR); X0: [ P1 ] = R1; // Exception should occur here // Now check that handler read correct values CHECKREG(r4,0x23); // supv and EXCPT_PROT CHECKREG(r5, 0x800); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_SUPV|FAULT_CPLB0)); CHECKREG_SYM(r7, X0, r0); // RETX should be value of X0 (HARDCODED ADDR!!) // go to user mode. and enable exceptions LD32_LABEL(r0, User); RTI; NOP;NOP;NOP;NOP;NOP; NOP;NOP;NOP;NOP;NOP; User: NOP;NOP;NOP;NOP;NOP; //------------------------------------------------------- // Protection violation - Illegal User Write Access R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; LD32(p1, 0x1000); LD32(r1, 0xDEADBEEF); // values to fix up current test LD32(p2, DCPLB_DATA1); LD32(r2, PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_L1_CACHABLE|CPLB_USER_RW|CPLB_SUPV_WR); // values for next test LD32(p3, DCPLB_DATA2); LD32(r3, PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_L1_CACHABLE); X1: [ P1 ] = R1; // Exception should occur here // Now check that handler read correct values CHECKREG(r4,0x23); // supv and EXCPT_PROT CHECKREG(r5, 0x1000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_USER | FAULT_CPLB1)); CHECKREG_SYM(r7, X1, r0); // RETX should be value of X1 (HARDCODED ADDR!!) //------------------------------------------------------- // Protection violation - Illegal User Read Access R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; LD32(p1, 0x2000); LD32(r1, 0xDEADBEEF); LD32(p2, DCPLB_DATA2); LD32(r2, PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_L1_CACHABLE|CPLB_USER_RO|CPLB_SUPV_WR); LD32(p3, DCPLB_DATA3); LD32(r3, PAGE_SIZE_1K|CPLB_VALID|CPLB_L1_CACHABLE|CPLB_USER_RW|CPLB_SUPV_WR); X2: //[p1] = r1; // Exception should occur here R0 = [ P1 ]; // Now check that handler read correct values CHECKREG(r4,0x23); // supv and EXCPT_PROT CHECKREG(r5, 0x2000); CHECKREG(r6, (FAULT_READ|FAULT_DAG0|FAULT_USER | FAULT_CPLB2)); CHECKREG_SYM(r7, X2, r0); // RETX should be value of X2 (HARDCODED ADDR!!) //------------------------------------------------------- // Protection violation - Illegal Dirty Page Access R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; LD32(p1, 0x3000); LD32(r1, 0xDEADBEEF); LD32(p2, DCPLB_DATA3); LD32(r2, PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_L1_CACHABLE|CPLB_USER_RW|CPLB_SUPV_WR); LD32(p3, DCPLB_DATA4); LD32(r3, PAGE_SIZE_1K|CPLB_VALID|CPLB_DA0ACC|CPLB_DIRTY|CPLB_L1_CACHABLE|CPLB_USER_RW|CPLB_SUPV_WR); X3: [ P1 ] = R1; // Exception should occur here // Now check that handler read correct values CHECKREG(r4,0x23); // supv and EXCPT_PROT CHECKREG(r5, 0x3000); CHECKREG(r6, (FAULT_WRITE|FAULT_DAG0|FAULT_USER | FAULT_CPLB3)); CHECKREG_SYM(r7, X3, r0); // RETX should be value of X3 (HARDCODED ADDR!!) //------------------------------------------------------- // Protection violation - Illegal DAG1 Access // Since this test uses DAG0, there shouldn't be any exception R0 = 0;R1 = 0;R2 = 0;R3 = 0;R4 = 0;R5 = 0;R6 = 0;R7 = 0; LD32(p1, 0x4000); LD32(r1, 0xDEADBEEF); LD32(p2, DCPLB_DATA4); LD32(r2, PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_L1_CACHABLE|CPLB_USER_RW|CPLB_SUPV_WR); LD32(p3, DCPLB_DATA5); LD32(r3, PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_L1_CACHABLE|CPLB_USER_RW|CPLB_SUPV_WR); X4: [ P1 ] = R1; // Exception should NOT occur here // Now check that handler read correct values // Handler shouldn't have been invoked, so registers should // remain unchanged. CHECKREG(r4,0); // supv and EXCPT_PROT CHECKREG(r5, 0); CHECKREG(r6, 0); CHECKREG(r7, 0); // RETX should NOT be value of X4 (HARDCODED ADDR!!) //------------------------------------------------------- // L1Miss not implemented yet - skip for now.... // //------------------------------------------------------- // // Protection violation - L1 Miss // r0=0;r1=0;r2=0;r3=0;r4=0;r5=0;r6=0;r7=0; // // LD32(p1, 0x5000); // LD32(r1, 0xDEADBEEF); // // LD32(p2, DCPLB_DATA5); // LD32(r2, PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_L1_CACHABLE|CPLB_USER_RW|CPLB_SUPV_WR); // // LD32(p3, DCPLB_DATA6); // LD32(r3, PAGE_SIZE_1K|CPLB_VALID|CPLB_DIRTY|CPLB_USER_RW|CPLB_SUPV_WR); // // //X5: //[p1] = r1; // Exception should occur here // r0 = [p1]; // // // // Now check that handler read correct values // CHECKREG(r4,0x23); // supv and EXCPT_PROT // CHECKREG(r5, 0x5000); // // CHECKREG(r6, FAULT_DATA | FAULT_CPLB5); // CHECKREG_SYM(r7, X5, r0); // RETX should be value of X5 (HARDCODED ADDR!!) //------------------------------------------------------- dbg_pass; handler: // generic protection exception handler // Inputs: // p2: addr of CPLB entry to be modified ( current test) // r2: new data for CPLB entry // // p3: addr of CPLB entry to be modified ( next test) // r3: new data for CPLB entry // // Outputs: // r4: SEQSTAT // r5: DCPLB_FAULT_ADDR // r6: DCPLB_STATUS // r7: RETX (instruction addr where exception occurred) R4 = SEQSTAT; // Get exception cause // 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 // modify CPLB to allow access. Main pgm passes in addr and data [ P2 ] = R2; // Set up for next test [ P3 ] = R3; NOP;NOP;NOP;NOP;NOP;NOP;NOP; // in lieu of 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; .section MEM_0x800,"aw" .dd 0x00000000 .dd 0x00000000 .dd 0x00000000 .dd 0x00000000 .section MEM_0x1000,"aw" .dd 0x00000000 .dd 0x00000000 .dd 0x00000000 .dd 0x00000000 .section MEM_0x2000,"aw" .dd 0x00000000 .dd 0x00000000 .dd 0x00000000 .dd 0x00000000 .section MEM_0x3000,"aw" .dd 0x00000000 .dd 0x00000000 .dd 0x00000000 .dd 0x00000000 .section MEM_0x4000,"aw" .dd 0x00000000 .dd 0x00000000 .dd 0x00000000 .dd 0x00000000 .section MEM_0x5000,"aw" .dd 0x00000000 .dd 0x00000000 .dd 0x00000000 .dd 0x00000000 // Need illegal SRAM addr to test CPLB_L1SRAM //.data 0x6000 // .dd 0x00000000 // .dd 0x00000000 // .dd 0x00000000 // .dd 0x00000000 .section MEM_0x7000,"aw" .dd 0x00000000 .dd 0x00000000 .dd 0x00000000 .dd 0x00000000