sim/testsuite/bfin/se_misaligned_fetch.S - binutils-gdb - Git at Google

 //Original:/proj/frio/dv/testcases/seq/se_misaligned_fetch/se_misaligned_fetch.dsp
 // Description: attempt to fetch code from misaligned address
 # mach: bfin
 # sim: --environment operating

 #include "test.h"
 .include "testutils.inc"
 start

 //
 // Constants and Defines
 //

 include(gen_int.inc)
 include(selfcheck.inc)
 include(std.inc)
 include(symtable.inc)

 #ifndef STACKSIZE
 #define STACKSIZE 0x10
 #endif
 #ifndef EVT
 #define EVT  0xFFE02000
 #endif
 #ifndef EVT15
 #define EVT15  0xFFE0203C
 #endif
 #ifndef EVT_OVERRIDE
 #define EVT_OVERRIDE 0xFFE02100
 #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);

 LD32_LABEL(sp, KSTACK);   // setup the stack pointer
 FP = SP;        // and frame pointer

 LD32(p0, EVT);      // Setup Event Vectors and Handlers

 CLI R0;           // hold off nonmaskables while writing EVTs

 LD32_LABEL(r0, EHANDLE);  // Emulation Handler (Int0)

     [ P0 ++ ] = R0;

 LD32_LABEL(r0, RHANDLE);  // Reset Handler (Int1)
     [ P0 ++ ] = R0;

 LD32_LABEL(r0, NHANDLE);  // NMI Handler (Int2)
     [ P0 ++ ] = R0;

 LD32_LABEL(r0, XHANDLE);  // Exception Handler (Int3)
     [ P0 ++ ] = R0;

     [ P0 ++ ] = R0;        // IVT4 not used

 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;
     R0 = -1;     // Change this to mask interrupts (*)
     [ P0 ] = R0;   // IMASK
 CSYNC;      // wait for MMR writes
 STI R0;     // reenable events

 DUMMY:

     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

 // 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);
     [ P0 ] = P1;   // IVG15 (General) handler (Int 15) load with start

 RAISE 15;       // after we RTI, INT 15 should be taken

 RTI;

 //
 // The Main Program
 //

 STARTUSER:
 LD32_LABEL(sp, USTACK);   // setup the stack pointer
 FP = SP;            // set frame pointer
 JUMP BEGIN;

 //*********************************************************************

 BEGIN:

                 // COMMENT the following line for USER MODE tests
 //    [--sp] = RETI;  // enable interrupts in supervisor mode

                 // **** YOUR CODE GOES HERE ****
 CHECK_INIT_DEF(p0); //CHECK_INIT(p0, 0xFF7FFFFC);

 LD32_LABEL(p1, TARGET);

     P1 += 1;    // cause access to be misaligned

 JUMP ( P1 );  // should cause misaligned

     R1 += 1;
     R1 += 1;
     R1 += 1;
     R1 += 1;
     R1 += 1;
     R1 += 1;
     R1 += 1;
     R1 += 1;

 TARGET:
 NOP;
 NOP;
 NOP;

     // PUT YOUR TEST HERE!


 END:
 CHECKREG(r5, 0xFFFFFFFF);   // handler sets this if reached

 dbg_pass;            // End the test

 //*********************************************************************

 //
 // Handlers for Events
 //

 EHANDLE:            // Emulation Handler 0
 RTE;

 RHANDLE:            // Reset Handler 1
 RTI;

 NHANDLE:            // NMI Handler 2
 RTN;

 XHANDLE:            // Exception Handler 3
     [ -- SP ] = ASTAT; // save what we damage
     [ -- SP ] = ( R7:6 );
     R7 = SEQSTAT;
     R7 <<= 26;
     R7 >>= 26;      // only want EXCAUSE
     R6 = 0x2A;      // EXCAUSE 0x2A means I-Fetch Misaligned Access
 CC = r7 == r6;
 IF CC JUMP IFETCHMISALIGNED;   // If EXCAUSE != 0x2A then leave

 dbg_pass;       // if the EXCAUSE is wrong the test will infinite loop

 IFETCHMISALIGNED:
     R7 = P1;      // Fix up return address
 BITCLR(r7, 0);  // Strip off errant LSB
 RETX = r7;      // and put back in RETX

     R5 = -1;        // set flag to indicate success

 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;

 NOP;NOP;NOP;NOP;NOP;NOP;NOP; // needed for icache bug

 //
 // Data Segment
 //

 .data
 DATA:
     .space (0x10);

 // Stack Segments (Both Kernel and User)

     .space (STACKSIZE);
 KSTACK:

     .space (STACKSIZE);
 USTACK:
	//Original:/proj/frio/dv/testcases/seq/se_misaligned_fetch/se_misaligned_fetch.dsp
	// Description: attempt to fetch code from misaligned address
	# mach: bfin
	# sim: --environment operating

	#include "test.h"
	.include "testutils.inc"
	start

	//
	// Constants and Defines
	//

	include(gen_int.inc)
	include(selfcheck.inc)
	include(std.inc)
	include(symtable.inc)

	#ifndef STACKSIZE
	#define STACKSIZE 0x10
	#endif
	#ifndef EVT
	#define EVT 0xFFE02000
	#endif
	#ifndef EVT15
	#define EVT15 0xFFE0203C
	#endif
	#ifndef EVT_OVERRIDE
	#define EVT_OVERRIDE 0xFFE02100
	#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);

	LD32_LABEL(sp, KSTACK); // setup the stack pointer
	FP = SP; // and frame pointer

	LD32(p0, EVT); // Setup Event Vectors and Handlers

	CLI R0; // hold off nonmaskables while writing EVTs

	LD32_LABEL(r0, EHANDLE); // Emulation Handler (Int0)

	[ P0 ++ ] = R0;

	LD32_LABEL(r0, RHANDLE); // Reset Handler (Int1)
	[ P0 ++ ] = R0;

	LD32_LABEL(r0, NHANDLE); // NMI Handler (Int2)
	[ P0 ++ ] = R0;

	LD32_LABEL(r0, XHANDLE); // Exception Handler (Int3)
	[ P0 ++ ] = R0;

	[ P0 ++ ] = R0; // IVT4 not used

	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;
	R0 = -1; // Change this to mask interrupts (*)
	[ P0 ] = R0; // IMASK
	CSYNC; // wait for MMR writes
	STI R0; // reenable events

	DUMMY:

	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

	// 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);
	[ P0 ] = P1; // IVG15 (General) handler (Int 15) load with start

	RAISE 15; // after we RTI, INT 15 should be taken

	RTI;

	//
	// The Main Program
	//

	STARTUSER:
	LD32_LABEL(sp, USTACK); // setup the stack pointer
	FP = SP; // set frame pointer
	JUMP BEGIN;

	//*********************************************************************

	BEGIN:

	// COMMENT the following line for USER MODE tests
	// [--sp] = RETI; // enable interrupts in supervisor mode

	// ** YOUR CODE GOES HERE **
	CHECK_INIT_DEF(p0); //CHECK_INIT(p0, 0xFF7FFFFC);

	LD32_LABEL(p1, TARGET);

	P1 += 1; // cause access to be misaligned

	JUMP ( P1 ); // should cause misaligned

	R1 += 1;
	R1 += 1;
	R1 += 1;
	R1 += 1;
	R1 += 1;
	R1 += 1;
	R1 += 1;
	R1 += 1;

	TARGET:
	NOP;
	NOP;
	NOP;

	// PUT YOUR TEST HERE!


	END:
	CHECKREG(r5, 0xFFFFFFFF); // handler sets this if reached

	dbg_pass; // End the test

	//*********************************************************************

	//
	// Handlers for Events
	//

	EHANDLE: // Emulation Handler 0
	RTE;

	RHANDLE: // Reset Handler 1
	RTI;

	NHANDLE: // NMI Handler 2
	RTN;

	XHANDLE: // Exception Handler 3
	[ -- SP ] = ASTAT; // save what we damage
	[ -- SP ] = ( R7:6 );
	R7 = SEQSTAT;
	R7 <<= 26;
	R7 >>= 26; // only want EXCAUSE
	R6 = 0x2A; // EXCAUSE 0x2A means I-Fetch Misaligned Access
	CC = r7 == r6;
	IF CC JUMP IFETCHMISALIGNED; // If EXCAUSE != 0x2A then leave

	dbg_pass; // if the EXCAUSE is wrong the test will infinite loop

	IFETCHMISALIGNED:
	R7 = P1; // Fix up return address
	BITCLR(r7, 0); // Strip off errant LSB
	RETX = r7; // and put back in RETX

	R5 = -1; // set flag to indicate success

	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;

	NOP;NOP;NOP;NOP;NOP;NOP;NOP; // needed for icache bug

	//
	// Data Segment
	//

	.data
	DATA:
	.space (0x10);

	// Stack Segments (Both Kernel and User)

	.space (STACKSIZE);
	KSTACK:

	.space (STACKSIZE);
	USTACK: