//Original:/proj/frio/dv/testcases/seq/se_illegalcombination/se_illegalcombination.dsp // Description: Multi-issue Illegal Combinations # mach: bfin # sim: --environment operating # xfail: "missing a few checks; hardware doesnt seem to match PRM?" bfin-* #include "test.h" .include "testutils.inc" start // // Constants and Defines // include(gen_int.inc) include(selfcheck.inc) include(std.inc) include(mmrs.inc) include(symtable.inc) #ifndef STACKSIZE #define STACKSIZE 0x100 // change for how much stack you need #endif #ifndef ITABLE #define ITABLE 0xF0000000 #endif GEN_INT_INIT(ITABLE) // set location for interrupt table // // Reset/Bootstrap Code // (Here we should set the processor operating modes, initialize registers, // etc.) // BOOT: INIT_R_REGS(0); // initialize general purpose regs INIT_P_REGS(0); // initialize the pointers INIT_I_REGS(0); // initialize the dsp address regs INIT_M_REGS(0); INIT_L_REGS(0); INIT_B_REGS(0); CLI R1; // inhibit events during MMR writes LD32_LABEL(sp, USTACK); // setup the user stack pointer USP = SP; LD32_LABEL(sp, KSTACK); // setup the kernel stack pointer FP = SP; // and frame pointer LD32(p0, EVT0); // Setup Event Vectors and Handlers P0 += 4; // EVT0 not used (Emulation) P0 += 4; // EVT1 not used (Reset) LD32_LABEL(r0, NHANDLE); // NMI Handler (Int2) [ P0 ++ ] = R0; LD32_LABEL(r0, XHANDLE); // Exception Handler (Int3) [ P0 ++ ] = R0; P0 += 4; // EVT4 not used (Global Interrupt Enable) LD32_LABEL(r0, HWHANDLE); // HW Error Handler (Int5) [ P0 ++ ] = R0; LD32_LABEL(r0, THANDLE); // Timer Handler (Int6) [ P0 ++ ] = R0; LD32_LABEL(r0, I7HANDLE); // IVG7 Handler [ P0 ++ ] = R0; LD32_LABEL(r0, I8HANDLE); // IVG8 Handler [ P0 ++ ] = R0; LD32_LABEL(r0, I9HANDLE); // IVG9 Handler [ P0 ++ ] = R0; LD32_LABEL(r0, I10HANDLE);// IVG10 Handler [ P0 ++ ] = R0; LD32_LABEL(r0, I11HANDLE);// IVG11 Handler [ P0 ++ ] = R0; LD32_LABEL(r0, I12HANDLE);// IVG12 Handler [ P0 ++ ] = R0; LD32_LABEL(r0, I13HANDLE);// IVG13 Handler [ P0 ++ ] = R0; LD32_LABEL(r0, I14HANDLE);// IVG14 Handler [ P0 ++ ] = R0; LD32_LABEL(r0, I15HANDLE);// IVG15 Handler [ P0 ++ ] = R0; LD32(p0, EVT_OVERRIDE); R0 = 0; [ P0 ++ ] = R0; R1 = -1; // Change this to mask interrupts (*) CSYNC; // wait for MMR writes to finish STI R1; // sync and reenable events (implicit write to IMASK) DUMMY: A0 = 0; // reset accumulators A1 = 0; R0 = 0 (Z); LT0 = r0; // set loop counters to something deterministic LB0 = r0; LC0 = r0; LT1 = r0; LB1 = r0; LC1 = r0; ASTAT = r0; // reset other internal regs SYSCFG = r0; RETS = r0; // prevent X's breaking LINK instruction // The following code sets up the test for running in USER mode LD32_LABEL(r0, STARTUSER);// One gets to user mode by doing a // ReturnFromInterrupt (RTI) RETI = r0; // We need to load the return address // Comment the following line for a USER Mode test JUMP STARTSUP; // jump to code start for SUPERVISOR mode RTI; STARTSUP: LD32_LABEL(p1, BEGIN); LD32(p0, EVT15); CLI R1; // inhibit events during write to MMR [ P0 ] = P1; // IVG15 (General) handler (Int 15) load with start CSYNC; // wait for it STI R1; // reenable events with proper imask RAISE 15; // after we RTI, INT 15 should be taken RTI; // // The Main Program // STARTUSER: LINK 0; // change for how much stack frame space you need. JUMP BEGIN; //********************************************************************* BEGIN: // COMMENT the following line for USER MODE tests [ -- SP ] = RETI; // enable interrupts in supervisor mode // **** YOUR CODE GOES HERE **** // PUT YOUR TEST HERE! // Slot 0 can only be LDST LOAD with search instruction (2 instrs) .dw 0xcc0d //(R0,R1)=SEARCH R2(GT)||[P0]=R3||NOP; .dw 0x0210 .dw 0x9303 .dw 0x0000 // (r0,r1) = search r2 gt, nop, r3 = [i0]; // nop supposedly ok ( R0 , R1 ) = SEARCH R2 (GT) || R4 = [ P0 ++ P1 ] || NOP; // only nop or dspLDST allowed in slot 1 (1 instr) // a0 = r0, nop, [p0] = r3; .dw 0xCC09; // can't assemble .dw 0x2000; .dw 0x0000; .dw 0x9303; // Slot 0 illegal opcodes (1 instr) // a0 = r0, raise 15, nop; .dw 0xCC09; // can't assemble .dw 0x2000; .dw 0x009F; .dw 0x0000; // multiissue with two stores (8 instrs) .dw 0xcc09 //A0=R0||W[P3]=R5.L||[I0]=R4; .dw 0x2000 .dw 0x8b5b .dw 0x9f04 .dw 0xcc09 //A0=R0||[I2]=R2||[I0]=R4; .dw 0x2000 .dw 0x9f12 .dw 0x9f04 .dw 0xcc09 //A0=R0||[P3]=R0||[I0]=R4; .dw 0x2000 .dw 0x9318 .dw 0x9f04 .dw 0xcc09 //A0=R0||[P3]=P0||[I0]=R4; .dw 0x2000 .dw 0x9358 .dw 0x9f04 .dw 0xcc09 //A0=R0||[FP+-36]=R0||[I0]=R4; .dw 0x2000 .dw 0xbb70 .dw 0x9f04 .dw 0xcc09 //A0=R0||[FP+-48]=P0||[I0]=R4; .dw 0x2000 .dw 0xbb48 .dw 0x9f04 .dw 0xcc09 //A0=R0||[P3+0x20]=R1||[I0]=R4; .dw 0x2000 .dw 0xb219 .dw 0x9f04 .dw 0xcc09 //A0=R0||[P3+0x20]=P1||[I0]=R4; .dw 0x2000 .dw 0xbe19 .dw 0x9f04 // multiissue two instructions can't modify same ireg (6 instrs) .dw 0xcc09 //A0=R0||I0+=M1(BREV)||R1.L=W[I0++]; .dw 0x2000 .dw 0x9ee4 .dw 0x9c21 .dw 0xcc09 //A0=R0||I1-=M3||R0=[I1++M3]; .dw 0x2000 .dw 0x9e7d .dw 0x9de8 .dw 0xcc09 //A0=R0||I2+=2||W[I2++]=R0.L; .dw 0x2000 .dw 0x9f62 .dw 0x9e30 .dw 0xcc09 //A0=R0||I3-=4||[I3++M1]=R7; .dw 0x2000 .dw 0x9f6f .dw 0x9fbf .dw 0xcc09 //A0=R0||R1.L=W[I1++]||W[I1++]=R2.L; .dw 0x2000 .dw 0x9c29 .dw 0x9e2a .dw 0xcc09 //A0=R0||[I2++M3]=R7||R6=[I2++M0]; .dw 0x2000 .dw 0x9ff7 .dw 0x9d96 // multiissue two instructions can't load same dreg (9 instrs) .dw 0xcc09 //A0=R0||R0.L=W[P0++P2]||R0=[I0++]; .dw 0x2000 .dw 0x8210 .dw 0x9c00 .dw 0xcc09 //A0=R0||R1=W[P0++P3](X)||R1.L=W[I2]; .dw 0x2000 .dw 0x8e58 .dw 0x9d31 .dw 0xcc09 //A0=R0||R2=W[P0++P3](X)||R2=[I1++M3]; .dw 0x2000 .dw 0x8e98 .dw 0x9dea .dw 0xcc09 //A0=R0||R3=[I0++]||R3=[I1++]; .dw 0x2000 .dw 0x9c03 .dw 0x9c0b .dw 0xcc09 //A0=R0||R4.L=W[I2]||R4.L=W[I3]; .dw 0x2000 .dw 0x9d34 .dw 0x9d3c .dw 0xcc09 //A0=R0||R5=[I1++M3]||R5.L=W[I2++]; .dw 0x2000 .dw 0x9ded .dw 0x9c35 .dw 0xcc09 //A0=R0||R6=[P0]||R6=[I0++]; .dw 0x2000 .dw 0x9106 .dw 0x9c06 .dw 0xcc09 //A0=R0||R7=[FP+-56]||R7.L=W[I1]; .dw 0x2000 .dw 0xb927 .dw 0x9d2f .dw 0xcc09 //A0=R0||R0=W[P1+0x1e](X)||R0=[I0++]; .dw 0x2000 .dw 0xabc8 .dw 0x9c00 // dsp32alu instructions with one dest and slot 0 multi with same dest (1 ins) .dw 0xcc00 //R0=R2+|+R3||R0=W[P1+0x1e](X)||NOP; .dw 0x0013 .dw 0xabc8 .dw 0x0000 // other slot 0 dreg cases already covered // dsp32alu one dest and slot 1 multi with same dest (1 ins) .dw 0xcc18 //R1=BYTEPACK(R4,R5)||NOP||R1.L=W[I2]; .dw 0x0225 .dw 0x0000 .dw 0x9d31 // other slot 1 dreg dest cases already covered // dsp32alu dual dests and slot 0 multi with either same dest (2 instrs) .dw 0xcc18 //(R2,R3)=BYTEUNPACKR1:0||R2=W[P0++P3](X)||NOP; .dw 0x4680 .dw 0x8e98 .dw 0x0000 .dw 0xcc01 //R2=R2+|+R3,R3=R2-|-R3||R3=[P3]||NOP; .dw 0x0693 .dw 0x911b .dw 0x0000 // dsp32alu dual dests and slot 1 multi with either same dest (2 instrs) .dw 0xcc18 //(R4,R5)=BYTEUNPACKR1:0||NOP||R4=[I1++M3]; .dw 0x4b00 .dw 0x0000 .dw 0x9dec .dw 0xcc01 //R4=R2+|+R3,R5=R2-|-R3||NOP||R5.L=W[I2++]; .dw 0x0b13 .dw 0x0000 .dw 0x9c35 // dsp32shift one dest and slot 0 multi with same dest (1 instruction) .dw 0xce0d //R6=ALIGN8(R4,R5)||R6=[P0]||NOP; .dw 0x0c2c .dw 0x9106 .dw 0x0000 // dsp32shift one dest and slot 1 multi with same dest (1 instruction) .dw 0xce00 //R7.L=ASHIFTR0.HBYR7.L||NOP||R7.L=W[I1]; .dw 0x1e38 .dw 0x0000 .dw 0x9d2f // dsp32shift two dests and slot 0 multi with either same dest (2 instrs) .dw 0xce08 //BITMUX(R0,R1,A0)(ASR)||R0.L=W[P0++P2]||NOP; .dw 0x0001 .dw 0x8210 .dw 0x0000 .dw 0xce08 //BITMUX(R2,R3,A0)(ASL)||R3=[I0++]||NOP; .dw 0x4013 .dw 0x9c03 .dw 0x0000 // dsp32shift two dests and slot 1 multi with either same dest (2 instrs) .dw 0xce08 //BITMUX(R4,R5,A0)(ASR)||NOP||R4.H=W[I3]; .dw 0x0025 .dw 0x0000 .dw 0x9d5c .dw 0xce08 //BITMUX(R6,R7,A0)(ASL)||NOP||R7.L=W[I1]; .dw 0x4037 .dw 0x0000 .dw 0x9d2f // dsp32shiftimm one dest and slot 0 with same dest (1 instr) .dw 0xce80 //R1.L=R0.H<<0x7||R1=W[P0++P3](X)||NOP; .dw 0x1238 .dw 0x8e58 .dw 0x0000 // dsp32shiftimm one dest and slot 1 with same dest (1 instr) .dw 0xce81 //R5=R2<<0x9(V)||NOP||R5.L=W[I2++]; .dw 0x0a4a .dw 0x0000 .dw 0x9c35 // dsp32mac one dest and slot 0 multi with same dest (1 inst) .dw 0xc805 //A0+=R1.H*R0.L,R6.H=(A1+=R1.L*R0.H)||R6=W[P0++P3](X)||NOP; .dw 0x4d88 .dw 0x8f98 .dw 0x0000 // dsp32mult one dest and slot 0 multi with same dest (1 inst) .dw 0xca04 //R7.H=R3.L*R4.H||R7=[FP+-56]||NOP; .dw 0x41dc .dw 0xb927 .dw 0x0000 // dsp32 mac one dest and slot 1 multi with same dest (1 inst) .dw 0xc805 //A0+=R1.H*R0.L,R0.H=(A1+=R1.L*R0.H)||NOP||R0=[I0++]; .dw 0x4c08 .dw 0x0000 .dw 0x9c00 // dsp32mult one dest and slot 1 multi with same dest (1 inst) .dw 0xca04 //R1.H=R3.L*R4.H||NOP||R1.H=W[I1]; .dw 0x405c .dw 0x0000 .dw 0x9d49 // dsp32mac write to register pair and slot 0 same dest - even (1 instr) .dw 0xc80d //R3=(A1+=R1.L*R0.H),R2=(A0+=R1.H*R0.L)||R2=W[P0++P3](X)||NOP; .dw 0x6c88 .dw 0x8e98 .dw 0x0000 // dsp32mult write to register pair and slot 0 same dest - even (1 instr) .dw 0xca0c //R5=R1.L*R0.H,R4=R1.H*R0.L||R4=[P0++P1]||NOP; .dw 0x6508 .dw 0x8108 .dw 0x0000 // dsp32mac write to register pair and slot 1 same dest - even (1 instr) .dw 0xc80d //R3=(A1+=R1.L*R0.H),R2=(A0+=R1.H*R0.L)||NOP||R2=[I1++M3]; .dw 0x6c88 .dw 0x0000 .dw 0x9dea // dsp32mult write to register pair and slot 1 same dest - even (1 instr) .dw 0xca0c //R5=R1.L*R0.H,R4=R1.H*R0.L||NOP||R4=[I1++M3]; .dw 0x6508 .dw 0x0000 .dw 0x9dec // dsp32mac write to register pair and slot 0 same dest - odd (1 instr) .dw 0xc80d //A0+=R1.H*R0.L,R3=(A1+=R1.L*R0.H)||R3=W[P0++P3](X)||NOP; .dw 0x4c88 .dw 0x8ed8 .dw 0x0000 // dsp32mult write to register pair and slot 0 same dest - odd (1 instr) .dw 0xca0c //R5=R1.L*R0.H,R4=R1.H*R0.L||R5=[P0++P1]||NOP; .dw 0x6508 .dw 0x8148 .dw 0x0000 // dsp32mac write to register pair and slot 1 same dest - odd (1 instr) .dw 0xc80d //A0+=R1.H*R0.L,R3=(A1+=R1.L*R0.H)||NOP||R3=[I1++M3]; .dw 0x4c88 .dw 0x0000 .dw 0x9deb // dsp32mult write to register pair and slot 1 same dest - odd (1 instr) .dw 0xca0c //R5=R1.L*R0.H,R4=R1.H*R0.L||NOP||R5=[I1++M3]; .dw 0x6508 .dw 0x0000 .dw 0x9ded // CHECKER CHECK_INIT_DEF(p0); //CHECK_INIT(p0, 0xFF7FFFFC); // Xhandler counts all EXCAUSE = 0x22; CHECKREG(r5, 53); // count of all Illegal Combination Exceptions. END: dbg_pass; // End the test //********************************************************************* // // Handlers for Events // NHANDLE: // NMI Handler 2 RTN; XHANDLE: // Exception Handler 3 // 16 bit illegal opcode handler - skips bad instruction [ -- SP ] = ASTAT; // save what we damage [ -- SP ] = ( R7:6 ); R7 = SEQSTAT; R7 <<= 26; R7 >>= 26; // only want EXCAUSE R6 = 0x22; // EXCAUSE 0x22 means I-Fetch Undefined Instruction CC = r7 == r6; IF CC JUMP ILLEGALCOMBINATION; // If EXCAUSE != 0x22 then leave dbg_fail; JUMP.S OUT; // if the EXCAUSE is wrong the test will infinite loop ILLEGALCOMBINATION: R7 = RETX; // Fix up return address R7 += 8; // skip offending 64 bit instruction RETX = r7; // and put back in RETX R5 += 1; // Increment global counter OUT: ( R7:6 ) = [ SP ++ ]; ASTAT = [sp++]; RTX; HWHANDLE: // HW Error Handler 5 RTI; THANDLE: // Timer Handler 6 RTI; I7HANDLE: // IVG 7 Handler RTI; I8HANDLE: // IVG 8 Handler RTI; I9HANDLE: // IVG 9 Handler RTI; I10HANDLE: // IVG 10 Handler RTI; I11HANDLE: // IVG 11 Handler RTI; I12HANDLE: // IVG 12 Handler RTI; I13HANDLE: // IVG 13 Handler RTI; I14HANDLE: // IVG 14 Handler RTI; I15HANDLE: // IVG 15 Handler RTI; // padding for the icache EXCPT 0; EXCPT 0; EXCPT 0; EXCPT 0; EXCPT 0; EXCPT 0; EXCPT 0; // // Data Segment // .data DATA: .space (0x10); // Stack Segments (Both Kernel and User) .space (STACKSIZE); KSTACK: .space (STACKSIZE); USTACK: