Message ID | 1573647799-30584-2-git-send-email-pmorel@linux.ibm.com (mailing list archive) |
---|---|
State | New, archived |
Headers | show |
Series | [v1,1/4] s390x: saving regs for interrupts | expand |
On 11/13/19 1:23 PM, Pierre Morel wrote: > If we use multiple source of interrupts, for exemple, using SCLP console > to print information while using I/O interrupts or during exceptions, we > need to have a re-entrant register saving interruption handling. > > Instead of saving at a static place, let's save the base registers on > the stack. > > Note that we keep the static register saving that we need for the RESET > tests. > > We also care to give the handlers a pointer to the save registers in > case the handler needs it (fixup_pgm_int needs the old psw address). So you're still ignoring the FPRs... I disassembled a test and looked at all stds and it looks like printf and related functions use them. Wouldn't we overwrite test FPRs if printing in a handler? > > Signed-off-by: Pierre Morel <pmorel@linux.ibm.com> > --- > lib/s390x/asm/interrupt.h | 15 ++++++++++----- > lib/s390x/interrupt.c | 16 ++++++++-------- > s390x/cstart64.S | 17 ++++++++++++++--- > 3 files changed, 32 insertions(+), 16 deletions(-) > > diff --git a/lib/s390x/asm/interrupt.h b/lib/s390x/asm/interrupt.h > index 4cfade9..a39a3a3 100644 > --- a/lib/s390x/asm/interrupt.h > +++ b/lib/s390x/asm/interrupt.h > @@ -15,11 +15,16 @@ > #define EXT_IRQ_EXTERNAL_CALL 0x1202 > #define EXT_IRQ_SERVICE_SIG 0x2401 > > -void handle_pgm_int(void); > -void handle_ext_int(void); > -void handle_mcck_int(void); > -void handle_io_int(void); > -void handle_svc_int(void); > +typedef struct saved_registers { > + unsigned long regs[15]; > +} sregs_t; > + > +void handle_pgm_int(sregs_t *regs); > +void handle_ext_int(sregs_t *regs); > +void handle_mcck_int(sregs_t *regs); > +void handle_io_int(sregs_t *regs); > +void handle_svc_int(sregs_t *regs); > + > void expect_pgm_int(void); > void expect_ext_int(void); > uint16_t clear_pgm_int(void); > diff --git a/lib/s390x/interrupt.c b/lib/s390x/interrupt.c > index 5cade23..7aecfc5 100644 > --- a/lib/s390x/interrupt.c > +++ b/lib/s390x/interrupt.c > @@ -50,7 +50,7 @@ void check_pgm_int_code(uint16_t code) > code == lc->pgm_int_code, code, lc->pgm_int_code); > } > > -static void fixup_pgm_int(void) > +static void fixup_pgm_int(sregs_t *regs) > { > switch (lc->pgm_int_code) { > case PGM_INT_CODE_PRIVILEGED_OPERATION: > @@ -64,7 +64,7 @@ static void fixup_pgm_int(void) > /* Handling for iep.c test case. */ > if (lc->trans_exc_id & 0x80UL && lc->trans_exc_id & 0x04UL && > !(lc->trans_exc_id & 0x08UL)) > - lc->pgm_old_psw.addr = lc->sw_int_grs[14]; > + lc->pgm_old_psw.addr = regs->regs[14]; > break; > case PGM_INT_CODE_SEGMENT_TRANSLATION: > case PGM_INT_CODE_PAGE_TRANSLATION: > @@ -103,7 +103,7 @@ static void fixup_pgm_int(void) > /* suppressed/terminated/completed point already at the next address */ > } > > -void handle_pgm_int(void) > +void handle_pgm_int(sregs_t *regs) > { > if (!pgm_int_expected) > report_abort("Unexpected program interrupt: %d at %#lx, ilen %d\n", > @@ -111,10 +111,10 @@ void handle_pgm_int(void) > lc->pgm_int_id); > > pgm_int_expected = false; > - fixup_pgm_int(); > + fixup_pgm_int(regs); > } > > -void handle_ext_int(void) > +void handle_ext_int(sregs_t *regs) > { > if (!ext_int_expected && > lc->ext_int_code != EXT_IRQ_SERVICE_SIG) { > @@ -134,19 +134,19 @@ void handle_ext_int(void) > lc->ext_old_psw.mask &= ~PSW_MASK_EXT; > } > > -void handle_mcck_int(void) > +void handle_mcck_int(sregs_t *regs) > { > report_abort("Unexpected machine check interrupt: at %#lx", > lc->mcck_old_psw.addr); > } > > -void handle_io_int(void) > +void handle_io_int(sregs_t *regs) > { > report_abort("Unexpected io interrupt: at %#lx", > lc->io_old_psw.addr); > } > > -void handle_svc_int(void) > +void handle_svc_int(sregs_t *regs) > { > report_abort("Unexpected supervisor call interrupt: at %#lx", > lc->svc_old_psw.addr); > diff --git a/s390x/cstart64.S b/s390x/cstart64.S > index 8e2b21e..eaff481 100644 > --- a/s390x/cstart64.S > +++ b/s390x/cstart64.S > @@ -90,6 +90,17 @@ memsetxc: > xc 0(1,%r1),0(%r1) > > .macro SAVE_REGS > + slgfi %r15, 15 * 8 > + stmg %r0, %r14, 0(%r15) > + lgr %r2, %r15 > + .endm > + > + .macro RESTORE_REGS > + lmg %r0, %r14, 0(%r15) > + algfi %r15, 15 * 8 > + .endm > + > + .macro SAVE_REGS_RESET > /* save grs 0-15 */ > stmg %r0, %r15, GEN_LC_SW_INT_GRS > /* save cr0 */ > @@ -105,7 +116,7 @@ memsetxc: > stfpc GEN_LC_SW_INT_FPC > .endm > > - .macro RESTORE_REGS > + .macro RESTORE_REGS_RESET > /* restore fprs 0-15 + fpc */ > la %r1, GEN_LC_SW_INT_FPRS > .irp i, 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15 > @@ -125,7 +136,7 @@ memsetxc: > */ > .globl diag308_load_reset > diag308_load_reset: > - SAVE_REGS > + SAVE_REGS_RESET > /* Save the first PSW word to the IPL PSW */ > epsw %r0, %r1 > st %r0, 0 > @@ -142,7 +153,7 @@ diag308_load_reset: > /* We lost cr0 due to the reset */ > 0: larl %r1, initial_cr0 > lctlg %c0, %c0, 0(%r1) > - RESTORE_REGS > + RESTORE_REGS_RESET > lhi %r2, 1 > br %r14 > >
On 2019-11-13 17:12, Janosch Frank wrote: > On 11/13/19 1:23 PM, Pierre Morel wrote: >> If we use multiple source of interrupts, for exemple, using SCLP console >> to print information while using I/O interrupts or during exceptions, we >> need to have a re-entrant register saving interruption handling. >> >> Instead of saving at a static place, let's save the base registers on >> the stack. >> >> Note that we keep the static register saving that we need for the RESET >> tests. >> >> We also care to give the handlers a pointer to the save registers in >> case the handler needs it (fixup_pgm_int needs the old psw address). > So you're still ignoring the FPRs... > I disassembled a test and looked at all stds and it looks like printf > and related functions use them. Wouldn't we overwrite test FPRs if > printing in a handler? If printf uses the FPRs in my opinion we should modify the compilation options for the library. What is the reason for printf and related functions to use floating point? I will have a deeper look at this. Regards, Pierre
> Am 14.11.2019 um 11:11 schrieb Pierre Morel <pmorel@linux.ibm.com>: > > >> On 2019-11-13 17:12, Janosch Frank wrote: >>> On 11/13/19 1:23 PM, Pierre Morel wrote: >>> If we use multiple source of interrupts, for exemple, using SCLP console >>> to print information while using I/O interrupts or during exceptions, we >>> need to have a re-entrant register saving interruption handling. >>> >>> Instead of saving at a static place, let's save the base registers on >>> the stack. >>> >>> Note that we keep the static register saving that we need for the RESET >>> tests. >>> >>> We also care to give the handlers a pointer to the save registers in >>> case the handler needs it (fixup_pgm_int needs the old psw address). >> So you're still ignoring the FPRs... >> I disassembled a test and looked at all stds and it looks like printf >> and related functions use them. Wouldn't we overwrite test FPRs if >> printing in a handler? > > If printf uses the FPRs in my opinion we should modify the compilation options for the library. > > What is the reason for printf and related functions to use floating point? > Register spilling. This can and will be done. Cheers. > I will have a deeper look at this. > > > Regards, > > Pierre > > > -- > Pierre Morel > IBM Lab Boeblingen >
On 2019-11-14 11:28, David Hildenbrand wrote: > >> Am 14.11.2019 um 11:11 schrieb Pierre Morel <pmorel@linux.ibm.com>: >> >> >>> On 2019-11-13 17:12, Janosch Frank wrote: >>>> On 11/13/19 1:23 PM, Pierre Morel wrote: >>>> If we use multiple source of interrupts, for exemple, using SCLP console >>>> to print information while using I/O interrupts or during exceptions, we >>>> need to have a re-entrant register saving interruption handling. >>>> >>>> Instead of saving at a static place, let's save the base registers on >>>> the stack. >>>> >>>> Note that we keep the static register saving that we need for the RESET >>>> tests. >>>> >>>> We also care to give the handlers a pointer to the save registers in >>>> case the handler needs it (fixup_pgm_int needs the old psw address). >>> So you're still ignoring the FPRs... >>> I disassembled a test and looked at all stds and it looks like printf >>> and related functions use them. Wouldn't we overwrite test FPRs if >>> printing in a handler? >> If printf uses the FPRs in my opinion we should modify the compilation options for the library. >> >> What is the reason for printf and related functions to use floating point? >> > Register spilling. This can and will be done. Hum, can you please clarify? AFAIK register spilling is for a compiler, to use memory if it has not enough registers. So your answer is for the my first sentence, meaning yes register spilling will be done or do you mean register spilling is the reason why the compiler use FPRs and it must be done so? Thanks, Pierre > > Cheers. > >> I will have a deeper look at this. >> >> >> Regards, >> >> Pierre >> >> >> -- >> Pierre Morel >> IBM Lab Boeblingen >>
On 14.11.19 12:57, Pierre Morel wrote: > > On 2019-11-14 11:28, David Hildenbrand wrote: >> >>> Am 14.11.2019 um 11:11 schrieb Pierre Morel <pmorel@linux.ibm.com>: >>> >>> >>>> On 2019-11-13 17:12, Janosch Frank wrote: >>>>> On 11/13/19 1:23 PM, Pierre Morel wrote: >>>>> If we use multiple source of interrupts, for exemple, using SCLP console >>>>> to print information while using I/O interrupts or during exceptions, we >>>>> need to have a re-entrant register saving interruption handling. >>>>> >>>>> Instead of saving at a static place, let's save the base registers on >>>>> the stack. >>>>> >>>>> Note that we keep the static register saving that we need for the RESET >>>>> tests. >>>>> >>>>> We also care to give the handlers a pointer to the save registers in >>>>> case the handler needs it (fixup_pgm_int needs the old psw address). >>>> So you're still ignoring the FPRs... >>>> I disassembled a test and looked at all stds and it looks like printf >>>> and related functions use them. Wouldn't we overwrite test FPRs if >>>> printing in a handler? >>> If printf uses the FPRs in my opinion we should modify the compilation options for the library. >>> >>> What is the reason for printf and related functions to use floating point? >>> >> Register spilling. This can and will be done. > > > Hum, can you please clarify? > > AFAIK register spilling is for a compiler, to use memory if it has not > enough registers. Not strictly memory. If the compiler needs more GPRS, it can save/restore GPRS to FPRS. Any function the compiler generates is free to use the FPRS.. > > So your answer is for the my first sentence, meaning yes register > spilling will be done > or > do you mean register spilling is the reason why the compiler use FPRs > and it must be done so? Confused by both options :D The compiler might generate code that uses the FPRS although no floating point instructions are in use. That's why we have to enable the AFP control and properly take care of FPRS being used.
On 2019-11-14 13:11, David Hildenbrand wrote: > On 14.11.19 12:57, Pierre Morel wrote: >> >> On 2019-11-14 11:28, David Hildenbrand wrote: >>> >>>> Am 14.11.2019 um 11:11 schrieb Pierre Morel <pmorel@linux.ibm.com>: >>>> >>>> >>>>> On 2019-11-13 17:12, Janosch Frank wrote: >>>>>> On 11/13/19 1:23 PM, Pierre Morel wrote: >>>>>> If we use multiple source of interrupts, for exemple, using SCLP >>>>>> console >>>>>> to print information while using I/O interrupts or during >>>>>> exceptions, we >>>>>> need to have a re-entrant register saving interruption handling. >>>>>> >>>>>> Instead of saving at a static place, let's save the base >>>>>> registers on >>>>>> the stack. >>>>>> >>>>>> Note that we keep the static register saving that we need for the >>>>>> RESET >>>>>> tests. >>>>>> >>>>>> We also care to give the handlers a pointer to the save registers in >>>>>> case the handler needs it (fixup_pgm_int needs the old psw address). >>>>> So you're still ignoring the FPRs... >>>>> I disassembled a test and looked at all stds and it looks like printf >>>>> and related functions use them. Wouldn't we overwrite test FPRs if >>>>> printing in a handler? >>>> If printf uses the FPRs in my opinion we should modify the >>>> compilation options for the library. >>>> >>>> What is the reason for printf and related functions to use floating >>>> point? >>>> >>> Register spilling. This can and will be done. >> >> >> Hum, can you please clarify? >> >> AFAIK register spilling is for a compiler, to use memory if it has not >> enough registers. > > Not strictly memory. If the compiler needs more GPRS, it can > save/restore GPRS to FPRS. > > Any function the compiler generates is free to use the FPRS.. > >> >> So your answer is for the my first sentence, meaning yes register >> spilling will be done >> or >> do you mean register spilling is the reason why the compiler use FPRs >> and it must be done so? > > Confused by both options :D The compiler might generate code that uses > the FPRS although no floating point instructions are in use. That's > why we have to enable the AFP control and properly take care of FPRS > being used. > > The compiler has the -msoft-float switch to avoid using the floating point instructions and registers, so it is our decision. Saving the FP registers on exceptions is not very efficient, we loose time on each interrupt, not sure that we win it back by using FPregs to as Regs backup. Usually a system at low level uses some enter_fpu, leave_fpu routine to enter critical sections using FPU instead of losing time on each interruptions. We can think about this, in between I do as you recomand and save the FPregs too. Best regards, Pierre
> Am 14.11.2019 um 16:21 schrieb Pierre Morel <pmorel@linux.ibm.com>: > > >> On 2019-11-14 13:11, David Hildenbrand wrote: >>> On 14.11.19 12:57, Pierre Morel wrote: >>> >>> On 2019-11-14 11:28, David Hildenbrand wrote: >>>> >>>>> Am 14.11.2019 um 11:11 schrieb Pierre Morel <pmorel@linux.ibm.com>: >>>>> >>>>> >>>>>> On 2019-11-13 17:12, Janosch Frank wrote: >>>>>>> On 11/13/19 1:23 PM, Pierre Morel wrote: >>>>>>> If we use multiple source of interrupts, for exemple, using SCLP console >>>>>>> to print information while using I/O interrupts or during exceptions, we >>>>>>> need to have a re-entrant register saving interruption handling. >>>>>>> >>>>>>> Instead of saving at a static place, let's save the base registers on >>>>>>> the stack. >>>>>>> >>>>>>> Note that we keep the static register saving that we need for the RESET >>>>>>> tests. >>>>>>> >>>>>>> We also care to give the handlers a pointer to the save registers in >>>>>>> case the handler needs it (fixup_pgm_int needs the old psw address). >>>>>> So you're still ignoring the FPRs... >>>>>> I disassembled a test and looked at all stds and it looks like printf >>>>>> and related functions use them. Wouldn't we overwrite test FPRs if >>>>>> printing in a handler? >>>>> If printf uses the FPRs in my opinion we should modify the compilation options for the library. >>>>> >>>>> What is the reason for printf and related functions to use floating point? >>>>> >>>> Register spilling. This can and will be done. >>> >>> >>> Hum, can you please clarify? >>> >>> AFAIK register spilling is for a compiler, to use memory if it has not >>> enough registers. >> >> Not strictly memory. If the compiler needs more GPRS, it can save/restore GPRS to FPRS. >> >> Any function the compiler generates is free to use the FPRS.. >> >>> >>> So your answer is for the my first sentence, meaning yes register >>> spilling will be done >>> or >>> do you mean register spilling is the reason why the compiler use FPRs >>> and it must be done so? >> >> Confused by both options :D The compiler might generate code that uses the FPRS although no floating point instructions are in use. That's why we have to enable the AFP control and properly take care of FPRS being used. >> >> > The compiler has the -msoft-float switch to avoid using the floating point instructions and registers, so it is our decision. No, not registers AFAIK. > > Saving the FP registers on exceptions is not very efficient, we loose time on each interrupt, not sure that we win it back by using FPregs to as Regs backup. Who on earth cares about performance here? > > Usually a system at low level uses some enter_fpu, leave_fpu routine to enter critical sections using FPU instead of losing time on each interruptions. > > We can think about this, in between I do as you recomand and save the FPregs too. > > Best regards, > > Pierre > > > -- > Pierre Morel > IBM Lab Boeblingen >
On 2019-11-14 16:25, David Hildenbrand wrote: > >> Am 14.11.2019 um 16:21 schrieb Pierre Morel <pmorel@linux.ibm.com>: >> >> >>> On 2019-11-14 13:11, David Hildenbrand wrote: >>>> On 14.11.19 12:57, Pierre Morel wrote: >>>> >>>> On 2019-11-14 11:28, David Hildenbrand wrote: >>>>>> Am 14.11.2019 um 11:11 schrieb Pierre Morel <pmorel@linux.ibm.com>: >>>>>> >>>>>> >>>>>>> On 2019-11-13 17:12, Janosch Frank wrote: >>>>>>>> On 11/13/19 1:23 PM, Pierre Morel wrote: >>>>>>>> If we use multiple source of interrupts, for exemple, using SCLP console >>>>>>>> to print information while using I/O interrupts or during exceptions, we >>>>>>>> need to have a re-entrant register saving interruption handling. >>>>>>>> >>>>>>>> Instead of saving at a static place, let's save the base registers on >>>>>>>> the stack. >>>>>>>> >>>>>>>> Note that we keep the static register saving that we need for the RESET >>>>>>>> tests. >>>>>>>> >>>>>>>> We also care to give the handlers a pointer to the save registers in >>>>>>>> case the handler needs it (fixup_pgm_int needs the old psw address). >>>>>>> So you're still ignoring the FPRs... >>>>>>> I disassembled a test and looked at all stds and it looks like printf >>>>>>> and related functions use them. Wouldn't we overwrite test FPRs if >>>>>>> printing in a handler? >>>>>> If printf uses the FPRs in my opinion we should modify the compilation options for the library. >>>>>> >>>>>> What is the reason for printf and related functions to use floating point? >>>>>> >>>>> Register spilling. This can and will be done. >>>> >>>> Hum, can you please clarify? >>>> >>>> AFAIK register spilling is for a compiler, to use memory if it has not >>>> enough registers. >>> Not strictly memory. If the compiler needs more GPRS, it can save/restore GPRS to FPRS. >>> >>> Any function the compiler generates is free to use the FPRS.. >>> >>>> So your answer is for the my first sentence, meaning yes register >>>> spilling will be done >>>> or >>>> do you mean register spilling is the reason why the compiler use FPRs >>>> and it must be done so? >>> Confused by both options :D The compiler might generate code that uses the FPRS although no floating point instructions are in use. That's why we have to enable the AFP control and properly take care of FPRS being used. >>> >>> >> The compiler has the -msoft-float switch to avoid using the floating point instructions and registers, so it is our decision. > No, not registers AFAIK. sorry, exact, it must be used in conjunction with -ffloat-store > >> Saving the FP registers on exceptions is not very efficient, we loose time on each interrupt, not sure that we win it back by using FPregs to as Regs backup. > Who on earth cares about performance here? I only care about simplicity and compiler optimizations are not my friends. >> Usually a system at low level uses some enter_fpu, leave_fpu routine to enter critical sections using FPU instead of losing time on each interruptions. >> >> We can think about this, in between I do as you recomand and save the FPregs too. >> >> Best regards, >> >> Pierre >> >> >> -- >> Pierre Morel >> IBM Lab Boeblingen >>
diff --git a/lib/s390x/asm/interrupt.h b/lib/s390x/asm/interrupt.h index 4cfade9..a39a3a3 100644 --- a/lib/s390x/asm/interrupt.h +++ b/lib/s390x/asm/interrupt.h @@ -15,11 +15,16 @@ #define EXT_IRQ_EXTERNAL_CALL 0x1202 #define EXT_IRQ_SERVICE_SIG 0x2401 -void handle_pgm_int(void); -void handle_ext_int(void); -void handle_mcck_int(void); -void handle_io_int(void); -void handle_svc_int(void); +typedef struct saved_registers { + unsigned long regs[15]; +} sregs_t; + +void handle_pgm_int(sregs_t *regs); +void handle_ext_int(sregs_t *regs); +void handle_mcck_int(sregs_t *regs); +void handle_io_int(sregs_t *regs); +void handle_svc_int(sregs_t *regs); + void expect_pgm_int(void); void expect_ext_int(void); uint16_t clear_pgm_int(void); diff --git a/lib/s390x/interrupt.c b/lib/s390x/interrupt.c index 5cade23..7aecfc5 100644 --- a/lib/s390x/interrupt.c +++ b/lib/s390x/interrupt.c @@ -50,7 +50,7 @@ void check_pgm_int_code(uint16_t code) code == lc->pgm_int_code, code, lc->pgm_int_code); } -static void fixup_pgm_int(void) +static void fixup_pgm_int(sregs_t *regs) { switch (lc->pgm_int_code) { case PGM_INT_CODE_PRIVILEGED_OPERATION: @@ -64,7 +64,7 @@ static void fixup_pgm_int(void) /* Handling for iep.c test case. */ if (lc->trans_exc_id & 0x80UL && lc->trans_exc_id & 0x04UL && !(lc->trans_exc_id & 0x08UL)) - lc->pgm_old_psw.addr = lc->sw_int_grs[14]; + lc->pgm_old_psw.addr = regs->regs[14]; break; case PGM_INT_CODE_SEGMENT_TRANSLATION: case PGM_INT_CODE_PAGE_TRANSLATION: @@ -103,7 +103,7 @@ static void fixup_pgm_int(void) /* suppressed/terminated/completed point already at the next address */ } -void handle_pgm_int(void) +void handle_pgm_int(sregs_t *regs) { if (!pgm_int_expected) report_abort("Unexpected program interrupt: %d at %#lx, ilen %d\n", @@ -111,10 +111,10 @@ void handle_pgm_int(void) lc->pgm_int_id); pgm_int_expected = false; - fixup_pgm_int(); + fixup_pgm_int(regs); } -void handle_ext_int(void) +void handle_ext_int(sregs_t *regs) { if (!ext_int_expected && lc->ext_int_code != EXT_IRQ_SERVICE_SIG) { @@ -134,19 +134,19 @@ void handle_ext_int(void) lc->ext_old_psw.mask &= ~PSW_MASK_EXT; } -void handle_mcck_int(void) +void handle_mcck_int(sregs_t *regs) { report_abort("Unexpected machine check interrupt: at %#lx", lc->mcck_old_psw.addr); } -void handle_io_int(void) +void handle_io_int(sregs_t *regs) { report_abort("Unexpected io interrupt: at %#lx", lc->io_old_psw.addr); } -void handle_svc_int(void) +void handle_svc_int(sregs_t *regs) { report_abort("Unexpected supervisor call interrupt: at %#lx", lc->svc_old_psw.addr); diff --git a/s390x/cstart64.S b/s390x/cstart64.S index 8e2b21e..eaff481 100644 --- a/s390x/cstart64.S +++ b/s390x/cstart64.S @@ -90,6 +90,17 @@ memsetxc: xc 0(1,%r1),0(%r1) .macro SAVE_REGS + slgfi %r15, 15 * 8 + stmg %r0, %r14, 0(%r15) + lgr %r2, %r15 + .endm + + .macro RESTORE_REGS + lmg %r0, %r14, 0(%r15) + algfi %r15, 15 * 8 + .endm + + .macro SAVE_REGS_RESET /* save grs 0-15 */ stmg %r0, %r15, GEN_LC_SW_INT_GRS /* save cr0 */ @@ -105,7 +116,7 @@ memsetxc: stfpc GEN_LC_SW_INT_FPC .endm - .macro RESTORE_REGS + .macro RESTORE_REGS_RESET /* restore fprs 0-15 + fpc */ la %r1, GEN_LC_SW_INT_FPRS .irp i, 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15 @@ -125,7 +136,7 @@ memsetxc: */ .globl diag308_load_reset diag308_load_reset: - SAVE_REGS + SAVE_REGS_RESET /* Save the first PSW word to the IPL PSW */ epsw %r0, %r1 st %r0, 0 @@ -142,7 +153,7 @@ diag308_load_reset: /* We lost cr0 due to the reset */ 0: larl %r1, initial_cr0 lctlg %c0, %c0, 0(%r1) - RESTORE_REGS + RESTORE_REGS_RESET lhi %r2, 1 br %r14
If we use multiple source of interrupts, for exemple, using SCLP console to print information while using I/O interrupts or during exceptions, we need to have a re-entrant register saving interruption handling. Instead of saving at a static place, let's save the base registers on the stack. Note that we keep the static register saving that we need for the RESET tests. We also care to give the handlers a pointer to the save registers in case the handler needs it (fixup_pgm_int needs the old psw address). Signed-off-by: Pierre Morel <pmorel@linux.ibm.com> --- lib/s390x/asm/interrupt.h | 15 ++++++++++----- lib/s390x/interrupt.c | 16 ++++++++-------- s390x/cstart64.S | 17 ++++++++++++++--- 3 files changed, 32 insertions(+), 16 deletions(-)