unsigned char sz64; /* size on 64-bit arch, 0 if nonextant */
unsigned char fpr; /* whether register is floating-point */
unsigned char pseudo; /* whether register is pseudo */
+ int spr_num; /* PowerPC SPR number, or -1 if not an SPR.
+ This is an ISA SPR number, not a GDB
+ register number. */
};
/* Breakpoint shadows for the single step instructions will be kept here. */
/* Return a struct reg defining register NAME that's 32 bits on 32-bit systems
and 64 bits on 64-bit systems. */
-#define R(name) { STR(name), 4, 8, 0, 0 }
+#define R(name) { STR(name), 4, 8, 0, 0, -1 }
/* Return a struct reg defining register NAME that's 32 bits on all
systems. */
-#define R4(name) { STR(name), 4, 4, 0, 0 }
+#define R4(name) { STR(name), 4, 4, 0, 0, -1 }
/* Return a struct reg defining register NAME that's 64 bits on all
systems. */
-#define R8(name) { STR(name), 8, 8, 0, 0 }
+#define R8(name) { STR(name), 8, 8, 0, 0, -1 }
/* Return a struct reg defining register NAME that's 128 bits on all
systems. */
-#define R16(name) { STR(name), 16, 16, 0, 0 }
+#define R16(name) { STR(name), 16, 16, 0, 0, -1 }
/* Return a struct reg defining floating-point register NAME. */
-#define F(name) { STR(name), 8, 8, 1, 0 }
+#define F(name) { STR(name), 8, 8, 1, 0, -1 }
/* Return a struct reg defining a pseudo register NAME. */
-#define P(name) { STR(name), 4, 8, 0, 1}
+#define P(name) { STR(name), 4, 8, 0, 1, -1 }
/* Return a struct reg defining register NAME that's 32 bits on 32-bit
systems and that doesn't exist on 64-bit systems. */
-#define R32(name) { STR(name), 4, 0, 0, 0 }
+#define R32(name) { STR(name), 4, 0, 0, 0, -1 }
/* Return a struct reg defining register NAME that's 64 bits on 64-bit
systems and that doesn't exist on 32-bit systems. */
-#define R64(name) { STR(name), 0, 8, 0, 0 }
+#define R64(name) { STR(name), 0, 8, 0, 0, -1 }
/* Return a struct reg placeholder for a register that doesn't exist. */
-#define R0 { 0, 0, 0, 0, 0 }
+#define R0 { 0, 0, 0, 0, 0, -1 }
+/* Return a struct reg defining an SPR named NAME that is 32 bits on
+ 32-bit systems and 64 bits on 64-bit systems. */
+#define S(name) { STR(name), 4, 8, 0, 0, ppc_spr_ ## name }
+
+/* Return a struct reg defining an SPR named NAME that is 32 bits on
+ all systems. */
+#define S4(name) { STR(name), 4, 4, 0, 0, ppc_spr_ ## name }
+
+/* Return a struct reg defining an SPR named NAME that is 32 bits on
+ all systems, and whose SPR number is NUMBER. */
+#define SN4(name, number) { STR(name), 4, 4, 0, 0, (number) }
+
+/* Return a struct reg defining an SPR named NAME that's 64 bits on
+ 64-bit systems and that doesn't exist on 32-bit systems. */
+#define S64(name) { STR(name), 0, 8, 0, 0, ppc_spr_ ## name }
+
/* UISA registers common across all architectures, including POWER. */
#define COMMON_UISA_REGS \
/* UISA-level SPRs for PowerPC. */
#define PPC_UISA_SPRS \
- /* 66 */ R4(cr), R(lr), R(ctr), R4(xer), R4(fpscr)
+ /* 66 */ R4(cr), S(lr), S(ctr), S4(xer), R4(fpscr)
/* UISA-level SPRs for PowerPC without floating point support. */
#define PPC_UISA_NOFP_SPRS \
- /* 66 */ R4(cr), R(lr), R(ctr), R4(xer), R0
+ /* 66 */ R4(cr), S(lr), S(ctr), S4(xer), R0
/* Segment registers, for PowerPC. */
#define PPC_SEGMENT_REGS \
/* OEA SPRs for PowerPC. */
#define PPC_OEA_SPRS \
- /* 87 */ R4(pvr), \
- /* 88 */ R(ibat0u), R(ibat0l), R(ibat1u), R(ibat1l), \
- /* 92 */ R(ibat2u), R(ibat2l), R(ibat3u), R(ibat3l), \
- /* 96 */ R(dbat0u), R(dbat0l), R(dbat1u), R(dbat1l), \
- /* 100 */ R(dbat2u), R(dbat2l), R(dbat3u), R(dbat3l), \
- /* 104 */ R(sdr1), R64(asr), R(dar), R4(dsisr), \
- /* 108 */ R(sprg0), R(sprg1), R(sprg2), R(sprg3), \
- /* 112 */ R(srr0), R(srr1), R(tbl), R(tbu), \
- /* 116 */ R4(dec), R(dabr), R4(ear)
+ /* 87 */ S4(pvr), \
+ /* 88 */ S(ibat0u), S(ibat0l), S(ibat1u), S(ibat1l), \
+ /* 92 */ S(ibat2u), S(ibat2l), S(ibat3u), S(ibat3l), \
+ /* 96 */ S(dbat0u), S(dbat0l), S(dbat1u), S(dbat1l), \
+ /* 100 */ S(dbat2u), S(dbat2l), S(dbat3u), S(dbat3l), \
+ /* 104 */ S(sdr1), S64(asr), S(dar), S4(dsisr), \
+ /* 108 */ S(sprg0), S(sprg1), S(sprg2), S(sprg3), \
+ /* 112 */ S(srr0), S(srr1), S(tbl), S(tbu), \
+ /* 116 */ S4(dec), S(dabr), S4(ear)
/* AltiVec registers. */
#define PPC_ALTIVEC_REGS \
static const struct reg registers_power[] =
{
COMMON_UISA_REGS,
- /* 66 */ R4(cnd), R(lr), R(cnt), R4(xer), R4(mq),
+ /* 66 */ R4(cnd), S(lr), S(cnt), S4(xer), S4(mq),
/* 71 */ R4(fpscr)
};
PPC_ALTIVEC_REGS
};
-/* IBM PowerPC 403. */
+/* IBM PowerPC 403.
+
+ Some notes about the "tcr" special-purpose register:
+ - On the 403 and 403GC, SPR 986 is named "tcr", and it controls the
+ 403's programmable interval timer, fixed interval timer, and
+ watchdog timer.
+ - On the 602, SPR 984 is named "tcr", and it controls the 602's
+ watchdog timer, and nothing else.
+
+ Some of the fields are similar between the two, but they're not
+ compatible with each other. Since the two variants have different
+ registers, with different numbers, but the same name, we can't
+ splice the register name to get the SPR number. */
static const struct reg registers_403[] =
{
COMMON_UISA_REGS,
PPC_UISA_SPRS,
PPC_SEGMENT_REGS,
PPC_OEA_SPRS,
- /* 119 */ R(icdbdr), R(esr), R(dear), R(evpr),
- /* 123 */ R(cdbcr), R(tsr), R(tcr), R(pit),
- /* 127 */ R(tbhi), R(tblo), R(srr2), R(srr3),
- /* 131 */ R(dbsr), R(dbcr), R(iac1), R(iac2),
- /* 135 */ R(dac1), R(dac2), R(dccr), R(iccr),
- /* 139 */ R(pbl1), R(pbu1), R(pbl2), R(pbu2)
+ /* 119 */ S(icdbdr), S(esr), S(dear), S(evpr),
+ /* 123 */ S(cdbcr), S(tsr), SN4(tcr, ppc_spr_403_tcr), S(pit),
+ /* 127 */ S(tbhi), S(tblo), S(srr2), S(srr3),
+ /* 131 */ S(dbsr), S(dbcr), S(iac1), S(iac2),
+ /* 135 */ S(dac1), S(dac2), S(dccr), S(iccr),
+ /* 139 */ S(pbl1), S(pbu1), S(pbl2), S(pbu2)
};
-/* IBM PowerPC 403GC. */
+/* IBM PowerPC 403GC.
+ See the comments about 'tcr' for the 403, above. */
static const struct reg registers_403GC[] =
{
COMMON_UISA_REGS,
PPC_UISA_SPRS,
PPC_SEGMENT_REGS,
PPC_OEA_SPRS,
- /* 119 */ R(icdbdr), R(esr), R(dear), R(evpr),
- /* 123 */ R(cdbcr), R(tsr), R(tcr), R(pit),
- /* 127 */ R(tbhi), R(tblo), R(srr2), R(srr3),
- /* 131 */ R(dbsr), R(dbcr), R(iac1), R(iac2),
- /* 135 */ R(dac1), R(dac2), R(dccr), R(iccr),
- /* 139 */ R(pbl1), R(pbu1), R(pbl2), R(pbu2),
- /* 143 */ R(zpr), R(pid), R(sgr), R(dcwr),
- /* 147 */ R(tbhu), R(tblu)
+ /* 119 */ S(icdbdr), S(esr), S(dear), S(evpr),
+ /* 123 */ S(cdbcr), S(tsr), SN4(tcr, ppc_spr_403_tcr), S(pit),
+ /* 127 */ S(tbhi), S(tblo), S(srr2), S(srr3),
+ /* 131 */ S(dbsr), S(dbcr), S(iac1), S(iac2),
+ /* 135 */ S(dac1), S(dac2), S(dccr), S(iccr),
+ /* 139 */ S(pbl1), S(pbu1), S(pbl2), S(pbu2),
+ /* 143 */ S(zpr), S(pid), S(sgr), S(dcwr),
+ /* 147 */ S(tbhu), S(tblu)
};
/* Motorola PowerPC 505. */
PPC_UISA_SPRS,
PPC_SEGMENT_REGS,
PPC_OEA_SPRS,
- /* 119 */ R(eie), R(eid), R(nri)
+ /* 119 */ S(eie), S(eid), S(nri)
};
/* Motorola PowerPC 860 or 850. */
PPC_UISA_SPRS,
PPC_SEGMENT_REGS,
PPC_OEA_SPRS,
- /* 119 */ R(eie), R(eid), R(nri), R(cmpa),
- /* 123 */ R(cmpb), R(cmpc), R(cmpd), R(icr),
- /* 127 */ R(der), R(counta), R(countb), R(cmpe),
- /* 131 */ R(cmpf), R(cmpg), R(cmph), R(lctrl1),
- /* 135 */ R(lctrl2), R(ictrl), R(bar), R(ic_cst),
- /* 139 */ R(ic_adr), R(ic_dat), R(dc_cst), R(dc_adr),
- /* 143 */ R(dc_dat), R(dpdr), R(dpir), R(immr),
- /* 147 */ R(mi_ctr), R(mi_ap), R(mi_epn), R(mi_twc),
- /* 151 */ R(mi_rpn), R(md_ctr), R(m_casid), R(md_ap),
- /* 155 */ R(md_epn), R(m_twb), R(md_twc), R(md_rpn),
- /* 159 */ R(m_tw), R(mi_dbcam), R(mi_dbram0), R(mi_dbram1),
- /* 163 */ R(md_dbcam), R(md_dbram0), R(md_dbram1)
+ /* 119 */ S(eie), S(eid), S(nri), S(cmpa),
+ /* 123 */ S(cmpb), S(cmpc), S(cmpd), S(icr),
+ /* 127 */ S(der), S(counta), S(countb), S(cmpe),
+ /* 131 */ S(cmpf), S(cmpg), S(cmph), S(lctrl1),
+ /* 135 */ S(lctrl2), S(ictrl), S(bar), S(ic_cst),
+ /* 139 */ S(ic_adr), S(ic_dat), S(dc_cst), S(dc_adr),
+ /* 143 */ S(dc_dat), S(dpdr), S(dpir), S(immr),
+ /* 147 */ S(mi_ctr), S(mi_ap), S(mi_epn), S(mi_twc),
+ /* 151 */ S(mi_rpn), S(md_ctr), S(m_casid), S(md_ap),
+ /* 155 */ S(md_epn), S(m_twb), S(md_twc), S(md_rpn),
+ /* 159 */ S(m_tw), S(mi_dbcam), S(mi_dbram0), S(mi_dbram1),
+ /* 163 */ S(md_dbcam), S(md_dbram0), S(md_dbram1)
};
/* Motorola PowerPC 601. Note that the 601 has different register numbers
PPC_UISA_SPRS,
PPC_SEGMENT_REGS,
PPC_OEA_SPRS,
- /* 119 */ R(hid0), R(hid1), R(iabr), R(dabr),
- /* 123 */ R(pir), R(mq), R(rtcu), R(rtcl)
+ /* 119 */ S(hid0), S(hid1), S(iabr), S(dabr),
+ /* 123 */ S(pir), S(mq), S(rtcu), S(rtcl)
};
-/* Motorola PowerPC 602. */
+/* Motorola PowerPC 602.
+ See the notes under the 403 about 'tcr'. */
static const struct reg registers_602[] =
{
COMMON_UISA_REGS,
PPC_UISA_SPRS,
PPC_SEGMENT_REGS,
PPC_OEA_SPRS,
- /* 119 */ R(hid0), R(hid1), R(iabr), R0,
- /* 123 */ R0, R(tcr), R(ibr), R(esasrr),
- /* 127 */ R(sebr), R(ser), R(sp), R(lt)
+ /* 119 */ S(hid0), S(hid1), S(iabr), R0,
+ /* 123 */ R0, SN4(tcr, ppc_spr_602_tcr), S(ibr), S(esasrr),
+ /* 127 */ S(sebr), S(ser), S(sp), S(lt)
};
/* Motorola/IBM PowerPC 603 or 603e. */
PPC_UISA_SPRS,
PPC_SEGMENT_REGS,
PPC_OEA_SPRS,
- /* 119 */ R(hid0), R(hid1), R(iabr), R0,
- /* 123 */ R0, R(dmiss), R(dcmp), R(hash1),
- /* 127 */ R(hash2), R(imiss), R(icmp), R(rpa)
+ /* 119 */ S(hid0), S(hid1), S(iabr), R0,
+ /* 123 */ R0, S(dmiss), S(dcmp), S(hash1),
+ /* 127 */ S(hash2), S(imiss), S(icmp), S(rpa)
};
/* Motorola PowerPC 604 or 604e. */
PPC_UISA_SPRS,
PPC_SEGMENT_REGS,
PPC_OEA_SPRS,
- /* 119 */ R(hid0), R(hid1), R(iabr), R(dabr),
- /* 123 */ R(pir), R(mmcr0), R(pmc1), R(pmc2),
- /* 127 */ R(sia), R(sda)
+ /* 119 */ S(hid0), S(hid1), S(iabr), S(dabr),
+ /* 123 */ S(pir), S(mmcr0), S(pmc1), S(pmc2),
+ /* 127 */ S(sia), S(sda)
};
/* Motorola/IBM PowerPC 750 or 740. */
PPC_UISA_SPRS,
PPC_SEGMENT_REGS,
PPC_OEA_SPRS,
- /* 119 */ R(hid0), R(hid1), R(iabr), R(dabr),
- /* 123 */ R0, R(ummcr0), R(upmc1), R(upmc2),
- /* 127 */ R(usia), R(ummcr1), R(upmc3), R(upmc4),
- /* 131 */ R(mmcr0), R(pmc1), R(pmc2), R(sia),
- /* 135 */ R(mmcr1), R(pmc3), R(pmc4), R(l2cr),
- /* 139 */ R(ictc), R(thrm1), R(thrm2), R(thrm3)
+ /* 119 */ S(hid0), S(hid1), S(iabr), S(dabr),
+ /* 123 */ R0, S(ummcr0), S(upmc1), S(upmc2),
+ /* 127 */ S(usia), S(ummcr1), S(upmc3), S(upmc4),
+ /* 131 */ S(mmcr0), S(pmc1), S(pmc2), S(sia),
+ /* 135 */ S(mmcr1), S(pmc3), S(pmc4), S(l2cr),
+ /* 139 */ S(ictc), S(thrm1), S(thrm2), S(thrm3)
};
PPC_UISA_NOFP_SPRS,
/* 7...38 */
PPC_EV_REGS,
- R8(acc), R(spefscr),
+ R8(acc), S4(spefscr),
/* NOTE: Add new registers here the end of the raw register
list and just before the first pseudo register. */
/* 41...72 */