| /* |
| * Startup glue code for parisc firmware |
| * |
| * (C) 2017-2023 Helge Deller <deller@gmx.de> |
| */ |
| |
| #include "parisc/hppa.h" |
| #include "parisc/hppa_hardware.h" |
| #include "autoconf.h" |
| #include "autoversion.h" |
| |
| /* load 32-bit 'value' into 'reg' compensating for the ldil |
| * sign-extension when running in wide mode. */ |
| .macro load32 value, reg |
| ldil L%\value, \reg |
| ldo R%\value(\reg), \reg |
| .endm |
| |
| #define ENTRY(name) \ |
| .export name !\ |
| .align 4 !\ |
| name: |
| |
| #define END(name) \ |
| .size name, .-name |
| |
| #define ENDPROC(name) \ |
| .type name, @function !\ |
| END(name) |
| |
| #define BOOTADDR(x) (x) |
| |
| .macro loadgp |
| ldil L%$global$, %r27 |
| ldo R%$global$(%r27), %r27 |
| .endm |
| |
| #ifdef CONFIG_64BIT |
| #define LDREG ldd |
| #define STREG std |
| #define LDREGX ldd,s |
| #define LDREGM ldd,mb |
| #define STREGM std,ma |
| #define SHRREG shrd |
| #define SHLREG shld |
| #define ANDCM andcm,* |
| #define COND(x) * ## x |
| #define FRAME_SIZE 128 |
| #define CALLEE_REG_FRAME_SIZE 144 |
| #define ASM_ULONG_INSN .dword |
| #define WORD_LEN 8 |
| #define INT_LEN 4 |
| #else /* CONFIG_64BIT */ |
| #define LDREG ldw |
| #define STREG stw |
| #define LDREGX ldwx,s |
| #define LDREGM ldwm |
| #define STREGM stwm |
| #define SHRREG shr |
| #define SHLREG shlw |
| #define ANDCM andcm |
| #define COND(x) x |
| #define FRAME_SIZE 64 |
| #define CALLEE_REG_FRAME_SIZE 128 |
| #define ASM_ULONG_INSN .word |
| #define WORD_LEN 4 |
| #define INT_LEN 4 |
| #endif |
| |
| /* various control register and irq bits */ |
| #define PSW_I 1 |
| #define PSW_Q 8 |
| #define CR_EIRR 23 |
| #define CR_IVA 14 |
| #define CR_EIEM 15 |
| #define PSW_W_SM 0x200 |
| #define PSW_W_BIT 36 |
| |
| .import $global$ |
| .section ".head.text","ax" |
| .level 1.1 |
| |
| /* On HPMC, the CPUs will start here at 0xf0000000 */ |
| hpmc_entry: |
| b,n toc_asm_entry /* TOC and HPMC */ |
| |
| reset_entry: |
| /* at reset, the CPU begins fetching instructions from address 0xf0000004. */ |
| b,n startup |
| |
| marker: |
| /* file identification, useful for strings command on binary file to see version. */ |
| .stringz "PA-RISC/HPPA PDC Firmware " SEABIOS_HPPA_VERSION_STR " (SeaBIOS fork)" |
| .stringz "https://github.com/hdeller/seabios-hppa" |
| .stringz BUILD_VERSION |
| |
| /******************************************************* |
| Firmware startup code |
| *******************************************************/ |
| |
| .align 0x80 |
| ENTRY(startup) |
| rsm PSW_I, %r0 /* disable local irqs */ |
| ssm PSW_Q, %r0 /* enable PSW_Q flag */ |
| |
| /* Make sure space registers are set to zero */ |
| mtsp %r0,%sr0 |
| mtsp %r0,%sr1 |
| mtsp %r0,%sr2 |
| mtsp %r0,%sr3 |
| mtsp %r0,%sr4 |
| mtsp %r0,%sr5 |
| mtsp %r0,%sr6 |
| mtsp %r0,%sr7 |
| |
| ;! nuke the W bit |
| .level 2.0 |
| rsm PSW_W_SM, %r0 |
| .level 1.1 |
| |
| /* If CPU HPA is already set in CPU_HPA_CR_REG then the |
| * CPU is already initialized and the machine was only reset */ |
| mfctl CPU_HPA_CR_REG, %r1 |
| comib,= 0,%r1,$startup_fresh_booted |
| nop |
| |
| $startup_just_rebooted: |
| /* Get current CPU HPA. It was stored there at initial bootup. */ |
| mfctl CPU_HPA_CR_REG, %r5 |
| |
| /* branch if this is the monarch cpu */ |
| load32 CPU_HPA, %r1 |
| comb,=,n %r5,%r1,$is_monarch_cpu_reboot |
| |
| b,n enter_smp_idle_loop |
| |
| $startup_fresh_booted: |
| /* Here the machine was booted from scratch: */ |
| |
| /* Save CPU HPA in cr7, hopefully HP-UX will not use that register. */ |
| mtctl %r5, CPU_HPA_CR_REG /* store CPU HPA */ |
| |
| /* branch if this is the monarch cpu */ |
| load32 CPU_HPA,%r1 |
| comb,= %r5,%r1,$is_monarch_cpu |
| nop |
| |
| ENTRY(enter_smp_idle_loop) |
| /* IDLE LOOP for SMP CPUs - wait for rendenzvous. */ |
| mfctl CPU_HPA_CR_REG, %r25 /* get CPU HPA from cr7 */ |
| |
| rsm PSW_I, %r0 /* disable local irqs */ |
| mtctl %r0, CR_EIEM /* disable all external irqs */ |
| |
| /* EIRR : clear all pending external intr */ |
| load32 -1,%r1 |
| mtctl %r1, CR_EIRR |
| mfctl CR_EIRR, %r0 |
| mtctl %r0, CR_EIRR |
| |
| /* Load IVT for SMT tiny loop exit */ |
| load32 BOOTADDR(smp_ivt),%r1 |
| mtctl %r1, CR_IVA |
| |
| /* enable CPU local interrupts */ |
| load32 1<<31, %r1 /* allow IRQ0 (Timer) */ |
| mtctl %r1, CR_EIEM |
| ssm PSW_I, %r0 /* enable local irqs */ |
| |
| /* endless idle loop for secondary CPUs. Exits to $smp_exit_loop by IRQ only */ |
| $smp_idle_loop: |
| b $smp_idle_loop |
| or %r10,%r10,%r10 /* qemu sleep instruction */ |
| |
| $smp_exit_loop: |
| rsm PSW_I, %r0 /* disable local irqs */ |
| mtctl %r0, CR_EIEM |
| |
| /* on 64bit: Address of PDCE_PROC for each non-monarch processor in GR26. */ |
| load32 BOOTADDR(pdc_entry), %r26 |
| |
| /* jump to rendevouz */ |
| ldw 0x10(%r0),%r3 /* MEM_RENDEZ */ |
| /* ldw 0x28(%r0),%r0 MEM_RENDEZ_HI - assume addr < 4GB */ |
| cmpb,=,n %r0,%r3,startup /* branch to startup if not yet initialized */ |
| load32 startup, %rp |
| bv,n 0(%r3) |
| |
| $is_monarch_cpu: |
| /* Save boot_args in PAGE0->pad608[]. Only monarch CPU does this once. */ |
| load32 BOOTADDR(0x608),%r1 |
| stw,ma %r26,4(%r1) |
| stw,ma %r25,4(%r1) |
| stw,ma %r24,4(%r1) |
| stw,ma %r23,4(%r1) |
| stw,ma %r22,4(%r1) |
| stw,ma %r21,4(%r1) |
| stw,ma %r20,4(%r1) |
| stw,ma %r19,4(%r1) |
| |
| $is_monarch_cpu_reboot: |
| /* Initialize stack pointer */ |
| load32 BOOTADDR(parisc_stack),%r1 |
| ldo FRAME_SIZE(%r1),%sp |
| |
| /* Initialize the global data pointer */ |
| loadgp |
| |
| /* Clear BSS on monarch CPU */ |
| .import _bss,data |
| .import _ebss,data |
| |
| load32 BOOTADDR(_bss),%r3 |
| load32 BOOTADDR(_ebss),%r4 |
| $bss_loop: |
| cmpb,<<,n %r3,%r4,$bss_loop |
| stw,ma %r0,4(%r3) |
| |
| load32 BOOTADDR(start_parisc_firmware),%r3 |
| bv 0(%r3) |
| copy %r0,%r2 |
| END(startup) |
| |
| /******************************************************* |
| TOC handler |
| Write all GRs, CRs, SRs and the iaoq_back and iasq_back registers (in |
| r24/r25) into PIM area (when it's not filled yet). This is done by trashing the |
| shadow registers. |
| In a second step call the arificial getshadowregs asm instruction to restore |
| the shadow registers to their real values and store them in PIM as well. Then |
| call the C-code. |
| *******************************************************/ |
| |
| /* uses the shadow registers: 1,8,9,16,17,24,25 */ |
| #define PIM_PTR %r1 |
| #define TEMP %r8 |
| #define TEMP2 %r9 |
| #define PIM_SAVE %r16 |
| #define IASQ_BACK %r24 /* provided by qemu */ |
| #define IAOQ_BACK %r25 /* provided by qemu */ |
| |
| .import pim_toc_data, data |
| ENTRY(toc_asm_entry) |
| /* serialize CPUs on entry */ |
| load32 BOOTADDR(toc_lock),TEMP |
| 0: ldcw,co 0(TEMP),TEMP2 |
| cmpib,= 0,TEMP2,0b |
| nop |
| |
| mfctl CPU_HPA_CR_REG, TEMP2 /* get CPU HPA from cr7 */ |
| extru TEMP2,31-12,4, TEMP /* extract cpu id */ |
| |
| load32 BOOTADDR(pim_toc_data), PIM_PTR |
| |
| 1: comib,= 0,TEMP,2f |
| ldo -1(TEMP),TEMP |
| ldo (PIM_STORAGE_SIZE)(PIM_PTR), PIM_PTR /* find PIM entry */ |
| b 1b |
| |
| 2: copy PIM_PTR, PIM_SAVE |
| mtsp %r0,%sr0 |
| |
| /* save registers into PIM only if cpu_state field is empty */ |
| ldw ((32+32+8+2)*WORD_LEN + 1*INT_LEN)(PIM_SAVE), TEMP |
| comib,<>,n 0, TEMP, 5f |
| |
| /* save all general registers */ |
| .set loop,0 |
| .rept 32 |
| STREGM loop, WORD_LEN(PIM_PTR) |
| .set loop,loop+1 |
| .endr |
| |
| /* save all control registers */ |
| .set loop,0 |
| .rept 32 |
| mfctl loop,TEMP |
| STREGM TEMP, WORD_LEN(PIM_PTR) |
| .set loop,loop+1 |
| .endr |
| |
| /* save all space registers */ |
| .set loop,0 |
| .rept 8 |
| mfsp loop,TEMP |
| STREGM TEMP, WORD_LEN(PIM_PTR) |
| .set loop,loop+1 |
| .endr |
| |
| /* save IASQ_back and IAOQ_back as provided by qemu */ |
| STREG IASQ_BACK, ((32+32+8+0)*WORD_LEN)(PIM_SAVE) |
| STREG IAOQ_BACK, ((32+32+8+1)*WORD_LEN)(PIM_SAVE) |
| |
| /* restore shadow registers, can not use PIM_SAVE reg for this */ |
| copy PIM_SAVE, %r26 |
| .word 0xfffdead2 /* qemu artificial getshadowregs asm instruction */ |
| STREG %r1, (1*WORD_LEN)(%r26) |
| STREG %r8, (8*WORD_LEN)(%r26) |
| STREG %r9, (9*WORD_LEN)(%r26) |
| STREG %r16, (16*WORD_LEN)(%r26) |
| STREG %r17, (17*WORD_LEN)(%r26) |
| STREG %r24, (24*WORD_LEN)(%r26) |
| STREG %r25, (25*WORD_LEN)(%r26) |
| |
| #ifdef CONFIG_64BIT |
| /* cr11 (sar) is a funny one. 5 bits on PA1.1 and 6 bit on PA2.0 |
| * For PA2.0 mtsar or mtctl always write 6 bits, but mfctl only |
| * reads 5 bits. Use mfctl,w to read all six bits. Otherwise |
| * we lose the 6th bit on a save/restore. */ |
| mfctl,w %cr11, TEMP |
| STREG TEMP, ((32+11)*WORD_LEN)(%r26) |
| #endif |
| |
| 5: /* call the "C" toc_handler in SeaBIOS */ |
| loadgp |
| load32 BOOTADDR(parisc_stack), %sp |
| b,l toc_handler, %r2 |
| ldo FRAME_SIZE(%sp),%sp |
| |
| /* call OS handler, in case it returns reset the system */ |
| load32 BOOTADDR(reset), %rp |
| bv,n 0(%ret0) |
| END(toc_asm_entry) |
| |
| |
| /******************************************************* |
| SMP Interrupt vector table (IVT) |
| *******************************************************/ |
| |
| .macro DEF_IVA_ENTRY |
| .align 32 |
| load32 BOOTADDR($smp_exit_loop),%r1 |
| bv 0(%r1) |
| nop |
| .endm |
| |
| .align 32 /* should be 4k aligned but qemu does not check */ |
| ENTRY(smp_ivt) |
| .rept 32 |
| DEF_IVA_ENTRY |
| .endr |
| END(smp_ivt) |
| |
| |
| /******************************************************* |
| PDC and IODC entry |
| *******************************************************/ |
| |
| ENTRY(pdc_entry) |
| stw %rp,-20(%sp) |
| stw %dp,-32(%sp) |
| stw %arg0,-36(%sp) |
| stw %arg1,-40(%sp) |
| stw %arg2,-44(%sp) |
| stw %arg3,-48(%sp) |
| ldo -FRAME_SIZE(%sp),%arg0 |
| |
| loadgp |
| b,l parisc_pdc_entry, %rp |
| ldo FRAME_SIZE(%sp),%sp |
| |
| ldo -FRAME_SIZE(%sp),%sp |
| ldw -20(%sp),%rp |
| bv %r0(%rp) |
| ldw -32(%sp),%dp |
| END(pdc_entry) |
| |
| /* pdc_entry_table will be copied into low memory. */ |
| ENTRY(pdc_entry_table) |
| load32 pdc_entry,%r1 |
| bv,n %r0(%r1) |
| END(pdc_entry_table) |
| |
| ENTRY(iodc_entry_table) |
| load32 parisc_iodc_ENTRY_INIT, %r1 |
| load32 parisc_iodc_ENTRY_IO, %r1 |
| load32 parisc_iodc_ENTRY_SPA, %r1 |
| load32 parisc_iodc_ENTRY_CONFIG, %r1 |
| load32 hlt, %r1 /* obsolete */ |
| load32 parisc_iodc_ENTRY_TEST, %r1 |
| load32 parisc_iodc_ENTRY_TLB, %r1 |
| END(iodc_entry_table) |
| |
| ENTRY(iodc_entry) |
| load32 parisc_iodc_ENTRY_IO, %r1 |
| |
| stw %rp,-20(%sp) |
| stw %dp,-32(%sp) |
| stw %arg0,-36(%sp) |
| stw %arg1,-40(%sp) |
| stw %arg2,-44(%sp) |
| stw %arg3,-48(%sp) |
| ldo -FRAME_SIZE(%sp),%arg0 |
| |
| loadgp |
| load32 .iodc_ret, %rp |
| bv %r0(%r1) |
| ldo FRAME_SIZE(%sp),%sp |
| .iodc_ret: |
| ldo -FRAME_SIZE(%sp),%sp |
| ldw -20(%sp),%rp |
| bv %r0(%rp) |
| ldw -32(%sp),%dp |
| END(iodc_entry) |
| |
| /**************************************************************** |
| * Rom Header for VGA / STI |
| ****************************************************************/ |
| |
| #if 0 // def CONFIG_BUILD_VGABIOS |
| |
| .section .rom.header |
| .global _rom_header, _rom_header_size, _rom_header_checksum |
| _rom_header: |
| .word 0xaa55 |
| _rom_header_size: |
| .byte 0 |
| _rom_header_entry: |
| .word _optionrom_entry // b,n ? |
| _rom_header_checksum: |
| .byte 0 |
| _rom_header_other: |
| .space 17 |
| _rom_header_pcidata: |
| #if CONFIG_VGA_PCI == 1 |
| .word rom_pci_data |
| #else |
| .word 0 |
| #endif |
| _rom_header_pnpdata: |
| .word 0 |
| _rom_header_other2: |
| .word 0 |
| _rom_header_signature: |
| .asciz "IBM" |
| |
| |
| ENTRY(_optionrom_entry) |
| .import vga_post |
| load32 BOOTADDR(vga_post), %r1 |
| bv,n %r0(%r1) |
| END(_optionrom_entry) |
| |
| #endif /* CONFIG_BUILD_VGABIOS */ |