a6d9dbf5e4
Rather than print just part of the accumulator register, show the whole 40 bits. This matches the simulator behavior better. Signed-off-by: Robin Getz <robin.getz@analog.com> Signed-off-by: Mike Frysinger <vapier@gentoo.org>
192 lines
5.3 KiB
C
192 lines
5.3 KiB
C
/* The fake debug assert instructions
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*
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* Copyright 2010 Analog Devices Inc.
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*
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* Licensed under the GPL-2 or later
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*/
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#include <linux/types.h>
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#include <linux/kernel.h>
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#include <linux/ptrace.h>
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const char * const greg_names[] = {
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"R0", "R1", "R2", "R3", "R4", "R5", "R6", "R7",
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"P0", "P1", "P2", "P3", "P4", "P5", "SP", "FP",
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"I0", "I1", "I2", "I3", "M0", "M1", "M2", "M3",
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"B0", "B1", "B2", "B3", "L0", "L1", "L2", "L3",
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"A0.X", "A0.W", "A1.X", "A1.W", "<res>", "<res>", "ASTAT", "RETS",
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"<res>", "<res>", "<res>", "<res>", "<res>", "<res>", "<res>", "<res>",
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"LC0", "LT0", "LB0", "LC1", "LT1", "LB1", "CYCLES", "CYCLES2",
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"USP", "SEQSTAT", "SYSCFG", "RETI", "RETX", "RETN", "RETE", "EMUDAT",
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};
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static const char *get_allreg_name(int grp, int reg)
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{
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return greg_names[(grp << 3) | reg];
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}
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/*
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* Unfortunately, the pt_regs structure is not laid out the same way as the
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* hardware register file, so we need to do some fix ups.
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*
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* CYCLES is not stored in the pt_regs structure - so, we just read it from
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* the hardware.
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*
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* Don't support:
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* - All reserved registers
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* - All in group 7 are (supervisors only)
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*/
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static bool fix_up_reg(struct pt_regs *fp, long *value, int grp, int reg)
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{
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long *val = &fp->r0;
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unsigned long tmp;
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/* Only do Dregs and Pregs for now */
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if (grp == 5 ||
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(grp == 4 && (reg == 4 || reg == 5)) ||
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(grp == 7))
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return false;
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if (grp == 0 || (grp == 1 && reg < 6))
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val -= (reg + 8 * grp);
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else if (grp == 1 && reg == 6)
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val = &fp->usp;
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else if (grp == 1 && reg == 7)
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val = &fp->fp;
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else if (grp == 2) {
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val = &fp->i0;
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val -= reg;
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} else if (grp == 3 && reg >= 4) {
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val = &fp->l0;
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val -= (reg - 4);
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} else if (grp == 3 && reg < 4) {
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val = &fp->b0;
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val -= reg;
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} else if (grp == 4 && reg < 4) {
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val = &fp->a0x;
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val -= reg;
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} else if (grp == 4 && reg == 6)
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val = &fp->astat;
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else if (grp == 4 && reg == 7)
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val = &fp->rets;
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else if (grp == 6 && reg < 6) {
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val = &fp->lc0;
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val -= reg;
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} else if (grp == 6 && reg == 6) {
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__asm__ __volatile__("%0 = cycles;\n" : "=d"(tmp));
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val = &tmp;
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} else if (grp == 6 && reg == 7) {
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__asm__ __volatile__("%0 = cycles2;\n" : "=d"(tmp));
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val = &tmp;
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}
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*value = *val;
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return true;
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}
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#define PseudoDbg_Assert_opcode 0xf0000000
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#define PseudoDbg_Assert_expected_bits 0
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#define PseudoDbg_Assert_expected_mask 0xffff
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#define PseudoDbg_Assert_regtest_bits 16
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#define PseudoDbg_Assert_regtest_mask 0x7
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#define PseudoDbg_Assert_grp_bits 19
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#define PseudoDbg_Assert_grp_mask 0x7
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#define PseudoDbg_Assert_dbgop_bits 22
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#define PseudoDbg_Assert_dbgop_mask 0x3
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#define PseudoDbg_Assert_dontcare_bits 24
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#define PseudoDbg_Assert_dontcare_mask 0x7
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#define PseudoDbg_Assert_code_bits 27
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#define PseudoDbg_Assert_code_mask 0x1f
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/*
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* DBGA - debug assert
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*/
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bool execute_pseudodbg_assert(struct pt_regs *fp, unsigned int opcode)
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{
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int expected = ((opcode >> PseudoDbg_Assert_expected_bits) & PseudoDbg_Assert_expected_mask);
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int dbgop = ((opcode >> (PseudoDbg_Assert_dbgop_bits)) & PseudoDbg_Assert_dbgop_mask);
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int grp = ((opcode >> (PseudoDbg_Assert_grp_bits)) & PseudoDbg_Assert_grp_mask);
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int regtest = ((opcode >> (PseudoDbg_Assert_regtest_bits)) & PseudoDbg_Assert_regtest_mask);
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long value;
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if ((opcode & 0xFF000000) != PseudoDbg_Assert_opcode)
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return false;
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if (!fix_up_reg(fp, &value, grp, regtest))
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return false;
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if (dbgop == 0 || dbgop == 2) {
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/* DBGA ( regs_lo , uimm16 ) */
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/* DBGAL ( regs , uimm16 ) */
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if (expected != (value & 0xFFFF)) {
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pr_notice("DBGA (%s.L,0x%x) failure, got 0x%x\n",
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get_allreg_name(grp, regtest),
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expected, (unsigned int)(value & 0xFFFF));
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return false;
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}
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} else if (dbgop == 1 || dbgop == 3) {
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/* DBGA ( regs_hi , uimm16 ) */
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/* DBGAH ( regs , uimm16 ) */
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if (expected != ((value >> 16) & 0xFFFF)) {
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pr_notice("DBGA (%s.H,0x%x) failure, got 0x%x\n",
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get_allreg_name(grp, regtest),
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expected, (unsigned int)((value >> 16) & 0xFFFF));
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return false;
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}
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}
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fp->pc += 4;
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return true;
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}
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#define PseudoDbg_opcode 0xf8000000
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#define PseudoDbg_reg_bits 0
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#define PseudoDbg_reg_mask 0x7
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#define PseudoDbg_grp_bits 3
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#define PseudoDbg_grp_mask 0x7
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#define PseudoDbg_fn_bits 6
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#define PseudoDbg_fn_mask 0x3
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#define PseudoDbg_code_bits 8
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#define PseudoDbg_code_mask 0xff
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/*
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* DBG - debug (dump a register value out)
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*/
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bool execute_pseudodbg(struct pt_regs *fp, unsigned int opcode)
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{
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int grp, fn, reg;
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long value, value1;
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if ((opcode & 0xFF000000) != PseudoDbg_opcode)
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return false;
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opcode >>= 16;
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grp = ((opcode >> PseudoDbg_grp_bits) & PseudoDbg_reg_mask);
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fn = ((opcode >> PseudoDbg_fn_bits) & PseudoDbg_fn_mask);
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reg = ((opcode >> PseudoDbg_reg_bits) & PseudoDbg_reg_mask);
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if (fn == 3 && (reg == 0 || reg == 1)) {
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if (!fix_up_reg(fp, &value, 4, 2 * reg))
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return false;
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if (!fix_up_reg(fp, &value1, 4, 2 * reg + 1))
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return false;
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pr_notice("DBG A%i = %02lx%08lx\n", reg, value & 0xFF, value1);
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fp->pc += 2;
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return true;
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} else if (fn == 0) {
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if (!fix_up_reg(fp, &value, grp, reg))
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return false;
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pr_notice("DBG %s = %08lx\n", get_allreg_name(grp, reg), value);
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fp->pc += 2;
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return true;
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}
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return false;
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}
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