diff options
Diffstat (limited to 'system')
-rw-r--r-- | system/alpha/palcode/platform_m5.s | 33 | ||||
-rw-r--r-- | system/alpha/palcode/platform_srcmax.s | 1894 |
2 files changed, 17 insertions, 1910 deletions
diff --git a/system/alpha/palcode/platform_m5.s b/system/alpha/palcode/platform_m5.s index acf02e69e..818cdb53c 100644 --- a/system/alpha/palcode/platform_m5.s +++ b/system/alpha/palcode/platform_m5.s @@ -743,19 +743,19 @@ EXPORT(sys_interrupt) //- ALIGN_BRANCH sys_int_23: - or r31,0,r16 // IPI interrupt A0 = 0 + or r31,0,r16 // IPI interrupt A0 = 0 lda r12,0xf01(r31) // build up an address for the MISC register sll r12,16,r12 lda r12,0xa000(r12) sll r12,16,r12 lda r12,0x080(r12) - ldq_p r10,0(r12) // read misc register - and r10,0x3,r10 // isolate CPUID + mfpr r10, pt_whami // get CPU ID + extbl r10, 1, r10 // Isolate just whami bits or r31,0x1,r14 // load r14 with bit to clear - sll r14,r10,r14 // left shift by CPU ID + sll r14,r10,r14 // left shift by CPU ID sll r14,8,r14 - stq_p r14, 0(r12) // clear the rtc interrupt + stq_p r14, 0(r12) // clear the rtc interrupt br r31, pal_post_interrupt // Notify the OS @@ -763,17 +763,17 @@ sys_int_23: ALIGN_BRANCH sys_int_22: or r31,1,r16 // a0 means it is a clock interrupt - lda r12,0xf01(r31) // build up an address for the MISC register + lda r12,0xf01(r31) // build up an address for the MISC register sll r12,16,r12 lda r12,0xa000(r12) sll r12,16,r12 lda r12,0x080(r12) - ldq_p r10,0(r12) // read misc register - and r10,0x3,r10 // isolate CPUID - or r31,0x10,r14 // load r14 with bit to clear - sll r14,r10,r14 // left shift by CPU ID - stq_p r14, 0(r12) // clear the rtc interrupt + mfpr r10, pt_whami // get CPU ID + extbl r10, 1, r10 // Isolate just whami bits + or r31,0x10,r14 // load r14 with bit to clear + sll r14,r10,r14 // left shift by CPU ID + stq_p r14, 0(r12) // clear the rtc interrupt br r31, pal_post_interrupt // Tell the OS @@ -816,19 +816,20 @@ sys_int_21: sll r13,8,r13 bis r12,r13,r12 lda r12,0x0080(r12) - ldqp r13, 0(r12) // read the MISC register for CPUID + mfpr r13, pt_whami // get CPU ID + extbl r13, 1, r10 // Isolate just whami bits - and r13,0x1,r14 // grab LSB and shift left 6 + and r13,0x1,r14 // grab LSB and shift left 6 sll r14,6,r14 - and r13,0x2,r10 // grabl LSB+1 and shift left 9 + and r13,0x2,r10 // grabl LSB+1 and shift left 9 sll r10,9,r10 - mskbl r12,0,r12 // calculate DIRn address + mskbl r12,0,r12 // calculate DIRn address lda r13,0x280(r31) bis r12,r13,r12 or r12,r14,r12 or r12,r10,r12 - ldqp r13, 0(r12) // read DIRn + ldqp r13, 0(r12) // read DIRn or r31,1,r14 // set bit 55 (ISA Interrupt) sll r14,55,r14 diff --git a/system/alpha/palcode/platform_srcmax.s b/system/alpha/palcode/platform_srcmax.s deleted file mode 100644 index 3e3a7c16b..000000000 --- a/system/alpha/palcode/platform_srcmax.s +++ /dev/null @@ -1,1894 +0,0 @@ -// build_fixed_image: not sure what means -// real_mm to be replaced during rewrite -// remove_save_state remove_restore_state can be remooved to save space ?? -#define egore 0 -#define acore 0 -#define beh_model 0 -#define ev5_p2 1 -#define ev5_p1 0 -#define ldvpte_bug_fix 1 -#define spe_fix 0 -#define osf_chm_fix 0 -#define build_fixed_image 0 -#define enable_p4_fixups 0 -#define osf_svmin 1 -#define enable_physical_console 0 -#define fill_err_hack 0 -#define icflush_on_tbix 0 -#define max_cpuid 1 -#define perfmon_debug 0 -#define rax_mode 0 - -#define hw_rei_spe hw_rei - -#include "ev5_defs.h" -#include "ev5_impure.h" -#include "ev5_alpha_defs.h" -#include "ev5_paldef.h" -#include "ev5_osfalpha_defs.h" -#include "fromHudsonMacros.h" -#include "fromHudsonOsf.h" -#include "dc21164FromGasSources.h" -#include "cserve.h" - -#define ldlp ldl_p -#define ldqp ldq_p -#define stqp stq_p -#define stqpc stqp - -#define pt_entInt pt_entint -#define pt_entArith pt_entarith -#define mchk_size ((mchk_cpu_base + 7 + 8) &0xfff8) -#define mchk_flag CNS_Q_FLAG -#define mchk_sys_base 56 -#define mchk_cpu_base (CNS_Q_LD_LOCK + 8) -#define mchk_offsets CNS_Q_EXC_ADDR -#define mchk_mchk_code 8 -#define mchk_ic_perr_stat CNS_Q_ICPERR_STAT -#define mchk_dc_perr_stat CNS_Q_DCPERR_STAT -#define mchk_sc_addr CNS_Q_SC_ADDR -#define mchk_sc_stat CNS_Q_SC_STAT -#define mchk_ei_addr CNS_Q_EI_ADDR -#define mchk_bc_tag_addr CNS_Q_BC_TAG_ADDR -#define mchk_fill_syn CNS_Q_FILL_SYN -#define mchk_ei_stat CNS_Q_EI_STAT -#define mchk_exc_addr CNS_Q_EXC_ADDR -#define mchk_ld_lock CNS_Q_LD_LOCK -#define osfpcb_q_Ksp pcb_q_ksp -#define pal_impure_common_size ((0x200 + 7) & 0xfff8) - -#define RTCADD 0x160000 -#define RTCDAT 0x170000 - -/* Serial Port (COM) Definitions: */ -#define DLA_K_BRG 12 /* Baud Rate Divisor = 9600 */ - -#define LSR_V_THRE 5 /* Xmit Holding Register Empty Bit */ - -#define LCR_M_WLS 3 /* Word Length Select Mask */ -#define LCR_M_STB 4 /* Number Of Stop Bits Mask */ -#define LCR_M_PEN 8 /* Parity Enable Mask */ -#define LCR_M_DLAB 128 /* Divisor Latch Access Bit Mask */ - -#define LCR_K_INIT (LCR_M_WLS | LCR_M_STB) - -#define MCR_M_DTR 1 /* Data Terminal Ready Mask */ -#define MCR_M_RTS 2 /* Request To Send Mask */ -#define MCR_M_OUT1 4 /* Output 1 Control Mask */ -#define MCR_M_OUT2 8 /* UART Interrupt Mask Enable */ - -#define MCR_K_INIT (MCR_M_DTR | \ - MCR_M_RTS | \ - MCR_M_OUT1 | \ - MCR_M_OUT2) -#define SLOT_D_COM1 (0x140000) -#define COM1_RBR (SLOT_D_COM1 | (0x0 << 1)) /* Receive Buffer Register Offset */ -#define COM1_THR (SLOT_D_COM1 | (0x0 << 1)) /* Xmit Holding Register Offset */ -#define COM1_IER (SLOT_D_COM1 | (0x1 << 1)) /* Interrupt Enable Register Offset -*/ -#define COM1_IIR (SLOT_D_COM1 | (0x2 << 1)) /* Interrupt ID Register Offset */ -#define COM1_LCR (SLOT_D_COM1 | (0x3 << 1)) /* Line Control Register Offset */ -#define COM1_MCR (SLOT_D_COM1 | (0x4 << 1)) /* Modem Control Register Offset */ -#define COM1_LSR (SLOT_D_COM1 | (0x5 << 1)) /* Line Status Register Offset */ -#define COM1_MSR (SLOT_D_COM1 | (0x6 << 1)) /* Modem Status Register Offset */ -#define COM1_SCR (SLOT_D_COM1 | (0x7 << 1)) /* Scratch Register Offset */ -#define COM1_DLL (SLOT_D_COM1 | (0x8 << 1)) /* Divisor Latch (LS) Offset */ -#define COM1_DLH (SLOT_D_COM1 | (0x9 << 1)) /* Divisor Latch (MS) Offset */ - - -#define BYTE_ENABLE_SHIFT 5 -#define PCI_MEM 0x400 - -#ifdef SIMOS -#define OutPortByte(port,val,a,b) -#define InPortByte(port,val,a) -#else - -#define OutPortByte(port,val,tmp0,tmp1) \ - LDLI (tmp0, port); \ - sll tmp0, BYTE_ENABLE_SHIFT, tmp0; \ - lda tmp1, PCI_MEM(zero); \ - sll tmp1, 29, tmp1; \ - bis tmp0, tmp1, tmp0; \ - lda tmp1, (val)(zero); \ - sll tmp1, 8*(port & 3), tmp1; \ - stl_p tmp1, 0x00(tmp0); \ - mb - -#define InPortByte(port,tmp0,tmp1) \ - LDLI (tmp0, port); \ - sll tmp0, BYTE_ENABLE_SHIFT, tmp0; \ - lda tmp1, PCI_MEM(zero); \ - sll tmp1, 29, tmp1; \ - bis tmp0, tmp1, tmp0; \ - ldl_p tmp0, 0x00(tmp0); \ - srl tmp0, (8 * (port & 3)), tmp0; \ - zap tmp0, 0xfe, tmp0 -#endif - -#define r0 $0 -#define r1 $1 -#define r2 $2 -#define r3 $3 -#define r4 $4 -#define r5 $5 -#define r6 $6 -#define r7 $7 -#define r8 $8 -#define r9 $9 -#define r10 $10 -#define r11 $11 -#define r12 $12 -#define r13 $13 -#define r14 $14 -#define r15 $15 -#define r16 $16 -#define r17 $17 -#define r18 $18 -#define r19 $19 -#define r20 $20 -#define r21 $21 -#define r22 $22 -#define r23 $23 -#define r24 $24 -#define r25 $25 -#define r26 $26 -#define r27 $27 -#define r28 $28 -#define r29 $29 -#define r30 $30 -#define r31 $31 - -#ifdef SIMOS -#define DEBUGSTORE(c) -#define DEBUG_EXC_ADDR() -#else -#define DEBUGSTORE(c) \ - lda r13, c(zero) ; \ - bsr r25, debugstore - -#define DEBUG_EXC_ADDR() \ - bsr r25, put_exc_addr; \ - DEBUGSTORE(13) ; \ - DEBUGSTORE(10) - -#endif /* SIMOS */ - -#define ALIGN_BLOCK \ - .align 5 - -#define ALIGN_BRANCH \ - .align 3 - -// This module is for all the OSF system specific code. -// This version is for the EV5 behavioral model. -// .sbttl "Edit History" -//+ -// Who Rev When What -// ------------ --- ----------- -------------------------------- -// -// [ deleted several pages of checking comments to make the file smaller - lance ] -// -// PALcode merge done here .... JRH ....8/30/94 -// JM 1.00 1-aug-1994 Add support for pass2 to sys_perfmon code -// JM 1.01 2-aug-1994 Initialize cns_bc_config in reset -// JM 1.02 5-aug-1994 Add ARITH_AND_MCHK routine. -// Fix typo in bc_config init in rax reset flow. -// JM 1.03 19-aug-1994 BUG: sys_perfmon not generating mux control mask properly, overwriting counters 0 & 1; -// mode select masks messed up too. -// -// JH 1.03A 26-Oct-1994 Log PCI error2 register ...needed for CIA Pass 2 support -// -// JM 1.04 16-sep-1994 Moved perfmon code to ev5_osf_pal.m64 -// JM 1.05 9-jan-1995 Fix to EI_STAT entry in MCHK logout frame -- OR in lower 28 bits (previously wiped out) -// JM 1.06 2-feb-1995 Change "HW_REI" to "HW_REI_SPE" everywhere that we may be changing to kernel mode from user -// (part of super-page bug fix). -// Initialize DC_TEST_CTL in reset flow. -// -// PALcode merge done here .... TLC ....02/06/95 -// -// JM 1.07 3-mar-1995 Add init of dc_test_ctl; fix pvc_jsr statement in ret from set_sc_bc_ctl -// ES 1.08 17-mar-1995 Add osf_chm_fix to disable dcache in reset -// -// PALcode merge done here .... TLC ....03/21/95 -// -// -// Entry points -// SYS_CFLUSH - Cache flush -// SYS_CSERVE - Console service -// SYS_WRIPIR - interprocessor interrupts -// SYS_HALT_INTERRUPT - Halt interrupt -// SYS_PASSIVE_RELEASE - Interrupt, passive release -// SYS_INTERRUPT - Interrupt -// SYS_RESET - Reset -// SYS_ENTER_CONSOLE -// SYS_PERFMON - Performance monitoring setup -// -//------------------------------------------------------------------------------ -// -// EB164 specific library files .... -// -//------------------------------------------------------------------------------ -#if eb164 != 0 - - -// .sbttl "EB164 firmware required definition files" -_pal_def // console definition file -_cserve_def // cserve definition file - -#define hlt_c_callback 33 - -// -// rtc based constants -// -#define rtc_base 0xe00 // RTC device is at offset 70 << 5 -#define rtc_ptr 0x0 // RTC index register (offset 0 from rtc base) -#define rtc_data 0x20 // RTC data register (offset 1 from rtc base) -#define rtc_idx_csrc 0x0c // point to CSR C in the TOY chip - -// -// interrupt vectors -// -#define vec_eisa_base 0x800 // base for pci vectors -#endif - - ALIGN_BLOCK - .globl sys_wripir -sys_wripir: // R16 has the processor number. - // The XXM has no interprocessor interrupts - hw_rei - -// .sbttl "CFLUSH- PALcode for CFLUSH instruction" -//+ -// SYS_CFLUSH -// Entry: -// -// R16 - contains the PFN of the page to be flushed -// -// Function: -// Flush all Dstream caches of 1 entire page -// -//- - ALIGN_BLOCK - .globl sys_cflush -sys_cflush: - // convert pfn to addr, and clean off <63:20> - sll r16, ((page_offset_size_bits)+(63-20)), r12 - - lda r13, 0x10(r31) // assume 16Mbytes of cache - sll r13, 20, r13 // convert to bytes - - srl r12, 63-20, r12 // shift back to normal position - xor r12, r13, r12 // xor addr bit that aligns with cache size - - or r31, 8192/(32*8), r13 // get count of loads - nop - -CFLUSH_LOOP: - subq r13, 1, r13 // decr counter - mfpr r25, ev5__intid // Fetch level of interruptor - - ldqp r31, 32*0(r12) // do a load - ldqp r31, 32*1(r12) // do next load - - ldqp r31, 32*2(r12) // do next load - ldqp r31, 32*3(r12) // do next load - - ldqp r31, 32*4(r12) // do next load - ldqp r31, 32*5(r12) // do next load - - ldqp r31, 32*6(r12) // do next load - ldqp r31, 32*7(r12) // do next load - - mfpr r14, ev5__ipl // Fetch current level - lda r12, (32*8)(r12) // skip to next cache block addr - - cmple r25, r14, r25 // R25 = 1 if intid .less than or eql ipl - beq r25, CFLUSH_LOOP_10_ // if any int's pending, re-queue CFLUSH - - bne r13, CFLUSH_LOOP // loop till done - hw_rei // back to user - - ALIGN_BRANCH -CFLUSH_LOOP_10_: // Here if interrupted - mfpr r12, exc_addr - subq r12, 4, r12 // Backup PC to point to CFLUSH - - mtpr r12, exc_addr - nop - - mfpr r31, pt0 // Pad exc_addr write - hw_rei - - -// .sbttl "CSERVE- PALcode for CSERVE instruction" -//+ -// SYS_CSERVE -// -// Function: -// Various functions for private use of console software -// -// option selector in r0 -// arguments in r16.... -// -// -// r0 = 0 unknown -// -// r0 = 1 ldqp -// r0 = 2 stqp -// args, are as for normal STQP/LDQP in VMS PAL -// -// r0 = 3 dump_tb's -// r16 = detination PA to dump tb's to. -// -// r0<0> = 1, success -// r0<0> = 0, failure, or option not supported -// r0<63:1> = (generally 0, but may be function dependent) -// r0 - load data on ldqp -// -//- - ALIGN_BLOCK - .globl sys_cserve -sys_cserve: - cmpeq r18, CSERVE_K_RD_IMPURE, r0 - bne r0, Sys_Cserve_Rd_Impure - - cmpeq r18, CSERVE_K_JTOPAL, r0 - bne r0, Sys_Cserve_Jtopal - - // For now the XXM doesn't support any console callbacks - DEBUGSTORE(0x40) - bis r18, zero, r0 - bsr r25, put_hex - DEBUGSTORE(13) - DEBUGSTORE(10) - or r31, r31, r0 - hw_rei // and back we go - -Sys_Cserve_Rd_Impure: - mfpr r0, pt_impure // Get base of impure scratch area. - hw_rei - -// .sbttl "SYS_INTERRUPT - Interrupt processing code" -//+ -// SYS_INTERRUPT -// -// Current state: -// Stack is pushed -// ps, sp and gp are updated -// r12, r14 - available -// r13 - INTID (new EV5 IPL) -// r14 - exc_addr -// r25 - ISR -// r16, r17, r18 - available -// -//- - ALIGN_BLOCK - .globl sys_interrupt -sys_interrupt: - extbl r12, r14, r14 // Translate new OSFIPL->EV5IPL - mfpr r29, pt_kgp // update gp - - mtpr r14, ev5__ipl // load the new IPL into Ibox - cmpeq r13, 31, r12 - bne r12, sys_int_mchk_or_crd // Check for level 31 interrupt (machine check or crd) - - cmpeq r13, 30, r12 - bne r12, sys_int_powerfail // Check for level 30 interrupt (powerfail) - - cmpeq r13, 29, r12 - bne r12, sys_int_perf_cnt // Check for level 29 interrupt (performance counters) - - cmpeq r13, 23, r12 - bne r12, sys_int_23 // Check for level 23 interrupt - - cmpeq r13, 22, r12 - bne r12, sys_int_22 // Check for level 22 interrupt (clock) - - cmpeq r13, 21, r12 - bne r12, sys_int_21 // Check for level 21 interrupt - - cmpeq r13, 20, r12 - bne r12, sys_int_20 // Check for level 20 interrupt (I/O) - - mfpr r14, exc_addr // ooops, something is wrong - br r31, pal_pal_bug_check_from_int - -//+ -//sys_int_2* -// Routines to handle device interrupts at IPL 23-20. -// System specific method to ack/clear the interrupt, detect passive release, -// detect interprocessor (22), interval clock (22), corrected -// system error (20) -// -// Current state: -// Stack is pushed -// ps, sp and gp are updated -// r12, r14 - available -// r13 - INTID (new EV5 IPL) -// r25 - ISR -// -// On exit: -// Interrupt has been ack'd/cleared -// a0/r16 - signals IO device interrupt -// a1/r17 - contains interrupt vector -// exit to ent_int address -// -//- - ALIGN_BLOCK -sys_int_23: -// INT23 is unused on the XXM - nop - DEBUGSTORE(0x21) - DEBUGSTORE(0x32) - DEBUGSTORE(0x33) - DEBUGSTORE(13) - DEBUGSTORE(10) - lda r14, 0xffff(zero) - br r31, sys_int_mchk // log as a machine check - -// INT22 is the Real Time Clock -// -// Dismiss the interrupt in the TOY -// Dispatch to kernel -// - ALIGN_BLOCK -sys_int_22: - OutPortByte(RTCADD,0x0C,r12,r14)// Set up RTCADD to index register C. - InPortByte(RTCDAT,r12,r14) // Read to clear interrupt. - mfpr r12, pt_entInt - lda r17, 0x600(r31) // r17 = interrupt vector for interval timer - mtpr r12, exc_addr -// DEBUGSTORE(0x2a) -// DEBUG_EXC_ADDR() - lda r16, 0x1(r31) // r16 = interrupt type for interval timer - STALL - hw_rei - - ALIGN_BLOCK -sys_int_21: - // Not connected on the XXM - nop - DEBUGSTORE(0x21) - DEBUGSTORE(0x32) - DEBUGSTORE(0x31) - DEBUGSTORE(13) - DEBUGSTORE(10) - lda r14, 0xffff(zero) - br r31, sys_int_mchk // go log the interrupt as a machine check - -// INT20 are device interrupts -// Dispatch to kernel -// - ALIGN_BLOCK -sys_int_20: - mfpr r12, pt_entInt // Get pointer to kernel handler. - lda r17, 0x800(zero) // Hardcode device interrupt for now - mtpr r12, exc_addr // Load kernel entry address - bis zero, 0x3, r16 // Signal I/O device interrupt - STALL - hw_rei - - -//+ -// sys_passive_release -// Just pretend the interrupt never occurred. -// -// make sure we restore the old PS before calling this .... -//- - ALIGN_BRANCH - .globl sys_passive_release -sys_passive_release: - mtpr r11, ev5__dtb_cm // Restore Mbox current mode for ps - nop - - mfpr r31, pt0 // Pad write to dtb_cm - - hw_rei_spe - -//+ -//sys_int_powerfail -// The XXM doesn't generate these, right? - - ALIGN_BLOCK -sys_int_powerfail: - nop - lda r14, 0xffff(zero) - br r31, sys_int_mchk // go log the interrupt as a machine check - -//+ -// sys_halt_interrupt -// A halt interrupt has been detected. Pass control to the console. -// -// -//- - ALIGN_BLOCK - .globl sys_halt_interrupt -sys_halt_interrupt: - // wait for halt to go away -SYS_HALT_PIN: // REPEAT - mfpr r25, ev5__isr // : Fetch interrupt summary register - srl r25, isr_v_hlt, r25 // : Get HLT bit - blbs r25, SYS_HALT_PIN // UNTIL interrupt goes away - LDLI (r25, 25000000) // Loop 100msec on an XXM -SYS_HALT_KEY_DEBOUNCE: - subq r25, 1, r25 - bne r25, SYS_HALT_KEY_DEBOUNCE - mfpr r25, ev5__isr - srl r25, isr_v_hlt, r25 - blbs r25, SYS_HALT_PIN - - mtpr r11, dtb_cm // Restore Mbox current mode - mtpr r0, pt0 -// pvc_jsr updpcb, bsr=1 -// bsr r0, pal_update_pcb // update the pcb - -// lda r0, hlt_c_hw_halt(r31) // set halt code to hw halt - br r31, sys_enter_console // enter the console - - -//+ -// sys_int_mchk_or_crd -// -// Current state: -// Stack is pushed -// ps, sp and gp are updated -// r12 -// r13 - INTID (new EV5 IPL) -// r14 - exc_addr -// r25 - ISR -// r16, r17, r18 - available -// -//- - ALIGN_BLOCK - -sys_int_mchk_or_crd: - srl r25, isr_v_mck, r12 - lda r14, 7(zero) - blbs r12, sys_int_mchk - bsr r12, sys_int_mchk // on the XXM it's always a mchk - - - -// .sbttl "SYS_INT_MCHK - MCHK Interrupt code" -//+ -// Machine check interrupt from the system. Setup and join the -// regular machine check flow. -// On exit: -// pt0 - saved r0 -// pt1 - saved r1 -// pt4 - saved r4 -// pt5 - saved r5 -// pt6 - saved r6 -// pt10 - saved exc_addr -// pt_misc<47:32> - mchk code -// pt_misc<31:16> - scb vector -// r14 - base of Cbox IPRs in IO space -// MCES<mchk> is set -//- - ALIGN_BLOCK -sys_int_mchk: -// -// Common code to setup machine so we can join with -// the code to log processor detected machine checks -// -// Input Registers: -// -// r14 - machine check code -// - mfpr r12, exc_addr - - mtpr r6, pt6 - mtpr r12, pt10 // Stash exc_addr - - bis r14, r31, r6 // save machine check code - sll r14, 32, r14 // Move mchk code to position - - mfpr r12, pt_misc // Get MCES and scratch - mtpr r0, pt0 // Stash for scratch - - zap r12, 0x3c, r12 // Clear scratch - blbs r12, sys_double_machine_check // MCHK halt if double machine check - - or r12, r14, r12 // Combine mchk code - lda r14, scb_v_sysmchk(r31) // Get SCB vector - - sll r14, 16, r14 // Move SCBv to position - or r12, r14, r14 // Combine SCBv - - bis r14, 1<<mces_v_mchk, r14 // Set MCES<MCHK> bit - mtpr r14, pt_misc // Save mchk code!scbv!whami!mces - - ldah r14, 0xfff0(r31) - mtpr r1, pt1 // Stash for scratch - - zap r14, 0xE0, r14 // Get Cbox IPR base - mtpr r4, pt4 - - mtpr r5, pt5 - - // Start to collect the IPRs. Common entry point for mchk flows. - // - // Current state: - // pt0 - saved r0 - // pt1 - saved r1 - // pt4 - saved r4 - // pt5 - saved r5 - // pt6 - saved r6 - // pt10 - saved exc_addr - // pt_misc<47:32> - mchk code - // pt_misc<31:16> - scb vector - // r6 - saved machine check code - // r0, r1, r4, r5, r12, r13, r25 - available - // r8, r9, r10 - available as all loads are physical - // MCES<mchk> is set and machine check code is saved - - ldah r14, 0xfff0(r31) - mtpr r1, pt1 // Stash for scratch - 30 instructions - - zap r14, 0xE0, r14 // Get Cbox IPR base - - mb // MB before reading Scache IPRs - mfpr r1, icperr_stat - - mfpr r8, dcperr_stat - mtpr r31, dc_flush // Flush the Dcache - - mfpr r31, pt0 // Pad Mbox instructions from dc_flush - mfpr r31, pt0 - nop - nop - - ldqp r9, sc_addr(r14)// SC_ADDR IPR - bis r9, r31, r31 // Touch ld to make sure it completes before - // read of SC_STAT - ldqp r10, sc_stat(r14) // SC_STAT, also unlocks SC_ADDR - - ldqp r12, ei_addr(r14)// EI_ADDR IPR - ldqp r13, bc_tag_addr(r14) // BC_TAG_ADDR IPR - ldqp r0, fill_syn(r14) // FILL_SYN IPR - // Touch lds to make sure they complete before reading EI_STAT - bis r12, r13, r31 - bis r0, r0, r31 - ldqp r25, ei_stat(r14) // EI_STAT, unlock EI_ADDR, BC_TAG_ADDR, FILL_SYN - ldqp r31, ei_stat(r14) // Read again to insure it is unlocked - br r31, sys_mchk_write_logout_frame // Join common machine check flow - - -// .sbttl "SYS_INT_PERF_CNT - Performance counter interrupt code" -//+ -//sys_int_perf_cnt -// -// A performance counter interrupt has been detected. The stack has been pushed. -// IPL and PS are updated as well. -// -// on exit to interrupt entry point ENTINT:: -// a0 = osfint_c_perf -// a1 = scb_v_perfmon (650) -// a2 = 0 if performance counter 0 fired -// a2 = 1 if performance counter 1 fired -// a2 = 2 if performance counter 2 fired -// (if more than one counter overflowed, an interrupt will be -// generated for each counter that overflows) -// -// -//- - ALIGN_BLOCK -sys_int_perf_cnt: // Performance counter interrupt - lda r17, scb_v_perfmon(r31) // a1 to interrupt vector - mfpr r25, pt_entInt - - lda r16, osfint_c_perf(r31) // a0 to perf counter code - mtpr r25, exc_addr - - //isolate which perf ctr fired, load code in a2, and ack - mfpr r25, isr - or r31, r31, r18 // assume interrupt was pc0 - - srl r25, isr_v_pc1, r25 // isolate - cmovlbs r25, 1, r18 // if pc1 set, load 1 into r14 - - srl r25, 1, r25 // get pc2 - cmovlbs r25, 2, r18 // if pc2 set, load 2 into r14 - - lda r25, 1(r31) // get a one - sll r25, r18, r25 - - sll r25, hwint_clr_v_pc0c, r25 // ack only the perf counter that generated the interrupt - mtpr r25, hwint_clr - - hw_rei_spe - - - -// .sbttl "System specific RESET code" -//+ -// RESET code -// On entry: -// r1 = pal_base +8 -// -// Entry state on trap: -// r0 = whami -// r2 = base of scratch area -// r3 = halt code -// and the following 3 if init_cbox is enabled: -// r5 = sc_ctl -// r6 = bc_ctl -// r7 = bc_cnfg -// -// Entry state on switch: -// r17 - new PC -// r18 - new PCBB -// r19 - new VPTB -// -//- - ALIGN_BLOCK - .globl sys_reset -sys_reset: - bis r1, r31, r22 - bis r2, r31, r23 - bis r3, r31, r24 - - lda r0, 0(zero) // The XXM has only one CPU - lda r2, 0x2000(zero) // KLUDGE the impure area address - lda r3, 0(zero) // Machine restart - mtpr r31, pt_misc // Zero out whami & swppal flag - mtpr r31, pt0 // halt code of "reset" - mtpr r31, pt1 // whami is always 0 on XXM - -/* Check to see if the transfer from the POST (Power-on-Self Test) code -** is following a standard protocol and that the other input parameter -** values may be trusted. Register a3 (r19) will contain a signature if so. -** -** Register values: -** -** t0 (r1) bcCtl value, saved into pt4 -** t1 (r2) bcCfg value -** t2 (r3) bcCfgOff value (values for bcache off) -** -** s6 (r15) encoded srom.s RCS revision -** a0 (r16) processor identification (a la SRM) -** a1 (r17) size of contiguous, good memory in bytes -** a2 (r18) cycle count in picoseconds -** a3 (r19) signature (0xDECB) in <31:16> and system revision ID in <15:0> -** a4 (r20) active processor mask -** a5 (r21) system context value -*/ - lda r4, CNS_Q_IPR(r2) // Point to base of IPR area. - lda r4, pal_impure_common_size(r4) // Bias by PAL common size - SAVE_SHADOW(r22,CNS_Q_BC_CTL,r4) // Save shadow of bcCtl. - SAVE_SHADOW(r23,CNS_Q_BC_CFG,r4) // Save shadow of bcCfg. -#ifdef undef - SAVE_SHADOW(r24,CNS_Q_BC_CFG_OFF,r4) // Save shadow of bcCfg. -#endif - SAVE_SHADOW(r15,CNS_Q_SROM_REV,r4) // Save srom revision. - SAVE_SHADOW(r16,CNS_Q_PROC_ID,r4) // Save processor id. - SAVE_SHADOW(r17,CNS_Q_MEM_SIZE,r4) // Save memory size. - SAVE_SHADOW(r18,CNS_Q_CYCLE_CNT,r4) // Save cycle count. - SAVE_SHADOW(r19,CNS_Q_SIGNATURE,r4) // Save signature and sys rev. - SAVE_SHADOW(r20,CNS_Q_PROC_MASK,r4) // Save processor mask. - SAVE_SHADOW(r21,CNS_Q_SYSCTX,r4) // Save system context. - -//;;;;;; mtpr r31, ic_flush_ctl; do not flush the icache - done by hardware before SROM load - -/* - * Initialize the serial ports - * - * Baud rate: 9600 baud - * Word length: 8 bit characters - * Stop bits: 1 stop bit - * Parity: No parity - * Modem control: DTR, RTS active, OUT1 lov, UART interrupts enabled - */ - -/* Initialize COM1*/ - OutPortByte(COM1_LCR,LCR_M_DLAB,r12,r14)// Access clock divisor latch. - OutPortByte(COM1_DLL,DLA_K_BRG,r12,r14) // Set the baud rate. - OutPortByte(COM1_DLH,0,r12,r14) - OutPortByte(COM1_LCR,LCR_K_INIT,r12,r14)// Set line control register. - OutPortByte(COM1_MCR,MCR_K_INIT,r12,r14)// Set modem control register. - OutPortByte(COM1_IER,0x0f,r12,r14) // Turn on interrupts. - -/* Flush COM1's receive buffer*/ -#ifndef SIMOS -Sys_ResetFlushCom1: - InPortByte(COM1_LSR,r12,r14) // Read the line status. - blbc t0, Sys_ResetCom1Done // Are we done yet? - InPortByte(COM1_RBR,r12,r14) // Read receive buffer reg. - br zero, Sys_ResetFlushCom1 // Loop till done. - -Sys_ResetCom1Done: -#endif - mb - - mtpr r31, itb_ia // clear the ITB - mtpr r31, dtb_ia // clear the DTB - -//;;;;;; lda r1, 0x1FFF(R31) -//;;;;;; mtpr r1, dc_test_ctl ; initialize tag index to all 1's. - - /* Hardwire the base address of the PALcode */ - lda r1, 0x4000(r31) // point to start of code - mtpr r1, pal_base // initialize PAL_BASE - - // Interrupts - mtpr r31, astrr // stop ASTs - mtpr r31, aster // stop ASTs - mtpr r31, sirr // clear software interrupts - - // enable shadow registers, floating point, kseg addressing - ldah r1, ((1<<(icsr_v_sde-16)) | (1<<(icsr_v_fpe-16)) | (2<<(icsr_v_spe-16)))(r31) - mtpr r1, icsr - - // Mbox/Dcache init - lda r1, (1<<(mcsr_v_sp1))(r31) - mtpr r1, mcsr // MCSR - Super page enabled - lda r1, 1<<dc_mode_v_dc_ena(r31) - bsr r31, 1f - - ALIGN_BRANCH -1: mtpr r1, dc_mode // turn Dcache on - nop - STALL // No Mbox instr in 1,2,3,4 - STALL - STALL - STALL - mtpr r31, dc_flush // flush Dcache - - // build PS (IPL=7,CM=K,VMM=0,SW=0) - lda r11, 0x7(r31) // Shadow copy of PS - kern mode, IPL=7 - lda r1, 0x1e(r31) - - mtpr r1, ev5__ipl // set internal <ipl> - mtpr r31, ips // set new ps<cm>=0, Ibox copy - mtpr r31, dtb_cm // set new ps<cm>=0, Mbox copy - - // Create the PALtemp pt_intmask - - // MAP: - // OSF IPL EV5 internal IPL(hex) note - // 0 0 - // 1 1 - // 2 2 - // 3 14 device - // 4 15 device - // 5 16 device - // 6 1e device - // 7 1e make sure we can take mchks at ipl 31 - - ldah r1, 0x1e1e(r31) // Create upper lw of int_mask - lda r1, 0x1615(r1) - - sll r1, 32, r1 - ldah r1, 0x1402(r1) // Create lower lw of int_mask - - lda r1, 0x0100(r1) - mtpr r1, pt_intmask // Stash in PALtemp - - // Unlock a bunch of chip internal IPRs - mtpr r31, exc_sum // clear exeception summary and exc_mask - mfpr r31, va // unlock va, mmstat - lda r8, ((1<<icperr_stat_v_dpe) | (1<<icperr_stat_v_tpe) | (1<<icperr_stat_v_tmr))(r31) - mtpr r8, icperr_stat // Clear Icache parity error & timeout - lda r8, ((1<<dcperr_stat_v_lock) | (1<<dcperr_stat_v_seo))(r31) - mtpr r8, dcperr_stat // Clear Dcache parity error status - - rc r0 // clear intr_flag - mtpr r31, pt_trap - - mfpr r0, pt_misc - srl r0, pt_misc_v_switch, r1 - blbs r1, sys_reset_switch // see if we got here from swppal - - // Rest of the "real" reset flow - // ASN - mtpr r31, dtb_asn - mtpr r31, itb_asn - - lda r1, 0x1FFF(r31) - mtpr r1, dc_test_ctl // initialize tag index to all 1's. - - lda r1, 0x67(r31) - sll r1, hwint_clr_v_pc0c, r1 - mtpr r1, hwint_clr // Clear hardware interrupt requests - - lda r1, 1<<mces_v_dpc(r31) // 1 in disable processor correctable error - mfpr r0, pt1 // get whami - insbl r0, 1, r0 // isolate whami in correct pt_misc position - or r0, r1, r1 // combine whami and mces - mtpr r1, pt_misc // store whami and mces, swap bit clear - - // CPU specific impure pointer - extbl r0, 1, r0 //get whami again -#if eb164 != 0 -// compile error ..... -// -// mulq r0, ((pal_impure_specific_size+mchk_size+mchk_crd_size)/8), r0 ; whami * per_node size/8 - lda r1, ((pal_impure_specific_size+mchk_size+mchk_crd_size)/8)(r31) - mulq r0, r1, r0 // -#endif - - addq r0, pal_impure_common_size/8, r0// add common area - sll r0, 3, r0 // * 8 - addq r2, r0, r2 // addr our impure area offset - mtpr r2, pt_impure - - zapnot r3, 1, r0 // isolate halt code - mtpr r0, pt0 // save entry type - - // Cycle counter - or r31, 1, r9 // get a one - sll r9, 32, r9 // shift to <32> - mtpr r31, cc // clear Cycle Counter - mtpr r9, cc_ctl // clear and enable the Cycle Counter - mtpr r31, pt_scc // clear System Cycle Counter - - - // Misc PALtemps - mtpr r31, maf_mode // no mbox instructions for 3 cycles - or r31, 1, r1 // get bogus scbb value - mtpr r1, pt_scbb // load scbb - mtpr r31, pt_prbr // clear out prbr - mfpr r1, pal_base - lda r1, (kludge_initial_pcbb-0x4000)(r1) // get address for temp pcbb - - mtpr r1, pt_pcbb // load pcbb - lda r1, 2(r31) // get a two - sll r1, 32, r1 // gen up upper bits - mtpr r1, mvptbr - mtpr r1, ivptbr - mtpr r31, pt_ptbr - // Performance counters - mtpr r31, pmctr - - // Clear pmctr_ctl in impure area - mfpr r1, pt_impure - stqp r31, CNS_Q_PM_CTL(r1) - - ldah r14, 0xfff0(r31) - zap r14, 0xE0, r14 // Get Cbox IPR base - -#ifndef SIMOS - ldqp r31, sc_stat(r14) // Clear sc_stat and sc_addr - ldqp r31, ei_stat(r14) - ldqp r31, ei_stat(r14) // Clear ei_stat, ei_addr, bc_tag_addr, fill_syn -#endif - mfpr r13, pt_impure - stqpc r31, 0(r13) // Clear lock_flag - - lda r0, 0(zero) - mfpr r1, pt_impure - bsr r3, pal_save_state - - mfpr r0, pt0 // get entry type - br r31, sys_enter_console // enter the cosole - - - // swppal entry - // r0 - pt_misc - // r17 - new PC - // r18 - new PCBB - // r19 - new VPTB -sys_reset_switch: - or r31, 1, r9 - sll r9, pt_misc_v_switch, r9 - bic r0, r9, r0 // clear switch bit - mtpr r0, pt_misc - - rpcc r1 // get cyccounter - - ldqp r22, osfpcb_q_fen(r18) // get new fen/pme - ldlp r23, osfpcb_l_cc(r18) // get cycle counter - ldlp r24, osfpcb_l_asn(r18) // get new asn - - ldqp r25, osfpcb_q_Mmptr(r18)// get new mmptr - sll r25, page_offset_size_bits, r25 // convert pfn to pa - mtpr r25, pt_ptbr // load the new mmptr - mtpr r18, pt_pcbb // set new pcbb - - bic r17, 3, r17 // clean use pc - mtpr r17, exc_addr // set new pc - mtpr r19, mvptbr - mtpr r19, ivptbr - - ldqp r30, osfpcb_q_Usp(r18) // get new usp - mtpr r30, pt_usp // save usp - - sll r24, dtb_asn_v_asn, r8 - mtpr r8, dtb_asn - sll r24, itb_asn_v_asn, r24 - mtpr r24, itb_asn - - mfpr r25, icsr // get current icsr - lda r24, 1(r31) - sll r24, icsr_v_fpe, r24 // 1 in icsr<fpe> position - bic r25, r24, r25 // clean out old fpe - and r22, 1, r22 // isolate new fen bit - sll r22, icsr_v_fpe, r22 - or r22, r25, r25 // or in new fpe - mtpr r25, icsr // update ibox ipr - - subl r23, r1, r1 // gen new cc offset - insll r1, 4, r1 // << 32 - mtpr r1, cc // set new offset - - or r31, r31, r0 // set success - ldqp r30, osfpcb_q_Ksp(r18) // get new ksp - mfpr r31, pt0 // stall - hw_rei_stall - -// .sbttl "SYS_MACHINE_CHECK - Machine check PAL" - ALIGN_BLOCK -//+ -//sys_machine_check -// A machine_check trap has occurred. The Icache has been flushed. -// -//- - .globl sys_machine_check -sys_machine_check: - DEBUGSTORE(052) - DEBUGSTORE(052) - DEBUGSTORE(052) - // Need to fill up the refill buffer (32 instructions) and - // then flush the Icache again. - // Also, due to possible 2nd Cbox register file write for - // uncorrectable errors, no register file read or write for 7 cycles. - - nop - mtpr r0, pt0 // Stash for scratch -- OK if Cbox overwrites r0 later - - nop - nop - - nop - nop - - nop - nop - - nop - nop - // 10 instructions; 5 cycles - - nop - nop - - nop - nop - - // Register file can now be written - lda r0, scb_v_procmchk(r31) // SCB vector - mfpr r13, pt_mces // Get MCES - sll r0, 16, r0 // Move SCBv to correct position - bis r13, 1<<mces_v_mchk, r14 // Set MCES<MCHK> bit - - zap r14, 0x3C, r14 // Clear mchk_code word and SCBv word - mtpr r14, pt_mces // 20 instructions - - nop - or r14, r0, r14 // Insert new SCB vector - lda r0, mchk_c_proc_hrd_error(r31) // MCHK code - mfpr r12, exc_addr - - sll r0, 32, r0 // Move MCHK code to correct position - mtpr r4, pt4 - or r14, r0, r14 // Insert new MCHK code - mtpr r14, pt_misc // Store updated MCES, MCHK code, and SCBv - - ldah r14, 0xfff0(r31) - mtpr r1, pt1 // Stash for scratch - 30 instructions - - zap r14, 0xE0, r14 // Get Cbox IPR base - mtpr r12, pt10 // Stash exc_addr - - mtpr r31, ic_flush_ctl // Second Icache flush, now it is really flushed. -// blbs r13, sys_double_machine_check ; MCHK halt if double machine check - blbs r12, sys_machine_check_while_in_pal // MCHK halt if machine check in pal - - mtpr r6, pt6 - mtpr r5, pt5 - - - //+ - // Start to collect the IPRs. Common entry point for mchk flows. - // - // Current state: - // pt0 - saved r0 - // pt1 - saved r1 - // pt4 - saved r4 - // pt5 - saved r5 - // pt6 - saved r6 - // pt10 - saved exc_addr - // pt_misc<47:32> - mchk code - // pt_misc<31:16> - scb vector - // r14 - base of Cbox IPRs in IO space - // r0, r1, r4, r5, r6, r12, r13, r25 - available - // r8, r9, r10 - available as all loads are physical - // MCES<mchk> is set and machine check code is saved - // - //- - - ALIGN_BRANCH - .globl sys_mchk_collect_iprs -sys_mchk_collect_iprs: - - - mb // MB before reading Scache IPRs - mfpr r1, icperr_stat - - mfpr r8, dcperr_stat - mtpr r31, dc_flush // Flush the Dcache - - mfpr r31, pt0 // Pad Mbox instructions from dc_flush - mfpr r31, pt0 - nop - nop - - ldqp r9, sc_addr(r14) // SC_ADDR IPR - bis r9, r31, r31 // Touch ld to make sure it completes before - // read of SC_STAT - ldqp r10, sc_stat(r14) // SC_STAT, also unlocks SC_ADDR - - ldqp r12, ei_addr(r14) // EI_ADDR IPR - ldqp r13, bc_tag_addr(r14) // BC_TAG_ADDR IPR - ldqp r0, fill_syn(r14) // FILL_SYN IPR - // Touch lds to make sure they complete before reading EI_STAT - bis r12, r13, r31 - // wait for r0 ldqp to complete - bis r0, r0, r31 - ldqp r25, ei_stat(r14) // EI_STAT, unlock EI_ADDR, BC_TAG_ADDR, FILL_SYN - ldqp r31, ei_stat(r14) // Read again to insure it is unlocked - mfpr r6, pt_misc - extwl r6, 4, r6 // Fetch mchk code - br r31, sys_mchk_write_logout_frame // - - - - //+ - // Write the logout frame - // - // Current state: - // r0 - fill_syn - // r1 - icperr_stat - // r4 - available - // r5<0> - retry flag - // r6 - mchk code - // r8 - dcperr_stat - // r9 - sc_addr - // r10 - sc_stat - // r12 - ei_addr - // r13 - bc_tag_addr - // r14 - available - // r25 - ei_stat (shifted) - // pt0 - saved r0 - // pt1 - saved r1 - // pt4 - saved r4 - // pt5 - saved r5 - // pt6 - saved r6 - // pt10 - saved exc_addr - // - //- - ALIGN_BRANCH -sys_mchk_write_logout_frame: - //------------------------------------------------------------------------------------ - // EB164 specific code .... - // - // R14 - uncorrectable error logout frame address = 6000h + size of CRD frame - // - //------------------------------------------------------------------------------------ -#if eb164 != 0 - - - lda r14,PAL_LOGOUT_BASE(r31) // get the start of logout frame location - lda r14,mchk_mchk_base(r14) // add in the size of the CRD frame -#endif - - // Write the first 2 quadwords of the logout area: - - sll r5, 63, r5 // Move retry flag to bit 63 - lda r4, mchk_size(r5) // Combine retry flag and frame size - stqp r4, mchk_flag(r14) // store flag/frame size - lda r4, mchk_sys_base(r31) // sys offset - sll r4, 32, r4 - lda r4, mchk_cpu_base(r4) // cpu offset - stqp r4, mchk_offsets(r14) // store sys offset/cpu offset into logout frame - - //+ - // Write the mchk code to the logout area - // Write error IPRs already fetched to the logout area - // Restore some GPRs from PALtemps - //- - - mfpr r5, pt5 - stqp r6, mchk_mchk_code(r14) - mfpr r4, pt4 - stqp r1, mchk_ic_perr_stat(r14) - mfpr r6, pt6 - stqp r8, mchk_dc_perr_stat(r14) - mfpr r1, pt1 - stqp r9, mchk_sc_addr(r14) - stqp r10, mchk_sc_stat(r14) - stqp r12, mchk_ei_addr(r14) - stqp r13, mchk_bc_tag_addr(r14) - stqp r0, mchk_fill_syn(r14) - mfpr r0, pt0 -#define ei_stat_v_bc_tperr 28 - sll r25, ei_stat_v_bc_tperr, r25 // Move EI_STAT status bits back to expected position - // - // Steve Shirron ei_stat.chip_id bits fix - // - // r25 has the ei_stat<35:28> bits aligned to bit 0. - // Because this alignment trashed the ei_stat.chip_id<27:24> bits, - // Steve's fix re-reads the ei_stat to recover the chip_id bits before - // writing the ei_stat to the log. - // - ldah r13, 0xfff0(r31) // r13 <- pointer to cbox - zapnot r13, 0x1f, r13 // : - ldqp r13, ei_stat(r13) // r13 <- contents of ei_stat register - sll r13, 64-ei_stat_v_bc_tperr, r13 // clear bits <63:36> - srl r13, 64-ei_stat_v_bc_tperr, r13 // put ei_stat bits back - or r25, r13, r25 // or-in the stat bits from the original read - stqp r25, mchk_ei_stat(r14) // write to the log - - mfpr r25, pt10 - stqp r25, mchk_exc_addr(r14) - - // complete the CPU-specific part of the logout frame - -#define mchk_logout(regName, regOff) \ - mfpr r25, regName ; \ - stqp r25, CNS_Q_/**/regOff(r14) - -// mchk_logout(mm_stat, MM_STAT) -// mchk_logout(va, VA) // Unlocks VA and MM_STAT -// mchk_logout(isr, ISR) -// mchk_logout(icsr, ICSR) -// mchk_logout(pal_base, PAL_BASE) -// mchk_logout(exc_mask, EXC_MASK) -// mchk_logout(exc_sum, EXC_SUM) - - mfpr r25, mm_stat - stqp r25, CNS_Q_MM_STAT(r14) - mfpr r25, va - stqp r25, CNS_Q_VA(r14) - mfpr r25, isr - stqp r25, CNS_Q_ISR(r14) - mfpr r25, icsr - stqp r25, CNS_Q_ICSR(r14) - mfpr r25, pal_base - stqp r25, CNS_Q_PAL_BASE(r14) - mfpr r25, exc_mask - stqp r25, CNS_Q_EXC_MASK(r14) - mfpr r25, exc_sum - stqp r25, CNS_Q_EXC_SUM(r14) - - - - - - ldah r13, 0xfff0(r31) - zap r13, 0xE0, r13 // Get Cbox IPR base - ldqp r13, ld_lock(r13) // Get ld_lock IPR - stqp r13, mchk_ld_lock(r14) // and stash it in the frame - - //+ - // complete the PAL-specific part of the logout frame - //- -#define svpt(n)\ - mfpr r25, pt/**/n ;\ - stqp r25, CNS_Q_PT+(8*n)(r14) - - mfpr r25, pt0 - stqp r25, CNS_Q_PT+(8*0)(r14) - mfpr r25, pt1 - stqp r25, CNS_Q_PT+(8*1)(r14) - mfpr r25, pt2 - stqp r25, CNS_Q_PT+(8*2)(r14) - mfpr r25, pt3 - stqp r25, CNS_Q_PT+(8*3)(r14) - mfpr r25, pt4 - stqp r25, CNS_Q_PT+(8*4)(r14) - mfpr r25, pt5 - stqp r25, CNS_Q_PT+(8*5)(r14) - mfpr r25, pt6 - stqp r25, CNS_Q_PT+(8*6)(r14) - mfpr r25, pt7 - stqp r25, CNS_Q_PT+(8*7)(r14) - mfpr r25, pt8 - stqp r25, CNS_Q_PT+(8*8)(r14) - mfpr r25, pt9 - stqp r25, CNS_Q_PT+(8*9)(r14) - mfpr r25, pt10 - stqp r25, CNS_Q_PT+(8*10)(r14) - mfpr r25, pt11 - stqp r25, CNS_Q_PT+(8*11)(r14) - mfpr r25, pt12 - stqp r25, CNS_Q_PT+(8*12)(r14) - mfpr r25, pt13 - stqp r25, CNS_Q_PT+(8*13)(r14) - mfpr r25, pt14 - stqp r25, CNS_Q_PT+(8*14)(r14) - mfpr r25, pt15 - stqp r25, CNS_Q_PT+(8*15)(r14) - mfpr r25, pt16 - stqp r25, CNS_Q_PT+(8*16)(r14) - mfpr r25, pt17 - stqp r25, CNS_Q_PT+(8*17)(r14) - mfpr r25, pt18 - stqp r25, CNS_Q_PT+(8*18)(r14) - mfpr r25, pt19 - stqp r25, CNS_Q_PT+(8*19)(r14) - mfpr r25, pt20 - stqp r25, CNS_Q_PT+(8*20)(r14) - mfpr r25, pt21 - stqp r25, CNS_Q_PT+(8*21)(r14) - mfpr r25, pt22 - stqp r25, CNS_Q_PT+(8*22)(r14) - mfpr r25, pt23 - stqp r25, CNS_Q_PT+(8*23)(r14) - - -// svpt(0) -// svpt(1) -// svpt(2) -// svpt(3) -// svpt(4) -// svpt(5) -// svpt(6) -// svpt(7) -// svpt(8) -// svpt(9) -// svpt(10) -// svpt(11) -// svpt(12) -// svpt(13) -// svpt(14) -// svpt(15) -// svpt(16) -// svpt(17) -// svpt(18) -// svpt(19) -// svpt(20) -// svpt(21) -// svpt(22) -// svpt(23) -// - //+ - // Log system specific info here - //- - - // Unlock IPRs - lda r8, ((1<<dcperr_stat_v_lock) | (1<<dcperr_stat_v_seo))(r31) - mtpr r8, dcperr_stat // Clear Dcache parity error status - - lda r8, ((1<<icperr_stat_v_dpe) | (1<<icperr_stat_v_tpe) | (1<<icperr_stat_v_tmr))(r31) - mtpr r8, icperr_stat // Clear Icache parity error & timeout status - -// pvc_jsr armc, bsr=1 - bsr r12, sys_arith_and_mchk // go check for and deal with arith trap - - mtpr r31, exc_sum // Clear Exception Summary - - mfpr r25, pt10 // write exc_addr after arith_and_mchk to pickup new pc - stqp r25, mchk_exc_addr(r14) - - //+ - // Set up the km trap - //- - -sys_post_mchk_trap: - mfpr r25, pt_misc // Check for flag from mchk interrupt - extwl r25, 4, r25 - blbs r25, sys_mchk_stack_done // Stack from already pushed if from interrupt flow - - bis r14, r31, r12 // stash pointer to logout area - mfpr r14, pt10 // get exc_addr - - sll r11, 63-3, r25 // get mode to msb - bge r25, sys_post_mchk_trap_30_ - - mtpr r31, dtb_cm - mtpr r31, ips - - mtpr r30, pt_usp // save user stack - mfpr r30, pt_ksp - -sys_post_mchk_trap_30_: - lda sp, 0-osfsf_c_size(sp) // allocate stack space - nop - - stq r18, osfsf_a2(sp) // a2 - stq r11, osfsf_ps(sp) // save ps - - stq r14, osfsf_pc(sp) // save pc - mfpr r25, pt_entInt // get the VA of the interrupt routine - - stq r16, osfsf_a0(sp) // a0 - lda r16, osfint_c_mchk(r31) // flag as mchk in a0 - - stq r17, osfsf_a1(sp) // a1 - mfpr r17, pt_misc // get vector - - stq r29, osfsf_gp(sp) // old gp - mtpr r25, exc_addr // - - or r31, 7, r11 // get new ps (km, high ipl) - subq r31, 1, r18 // get a -1 - - extwl r17, 2, r17 // a1 <- interrupt vector - bis r31, ipl_machine_check, r25 - - mtpr r25, ev5__ipl // Set internal ipl - srl r18, 42, r18 // shift off low bits of kseg addr - - sll r18, 42, r18 // shift back into position - mfpr r29, pt_kgp // get the kern r29 - - or r12, r18, r18 // EV4 algorithm - pass pointer to mchk frame as kseg address - - hw_rei_spe // out to interrupt dispatch routine - - - //+ - // The stack is pushed. Load up a0,a1,a2 and vector via entInt - // - //- - ALIGN_BRANCH -sys_mchk_stack_done: - lda r16, osfint_c_mchk(r31) // flag as mchk/crd in a0 - lda r17, scb_v_sysmchk(r31) // a1 <- interrupt vector - - subq r31, 1, r18 // get a -1 - mfpr r25, pt_entInt - - srl r18, 42, r18 // shift off low bits of kseg addr - mtpr r25, exc_addr // load interrupt vector - - sll r18, 42, r18 // shift back into position - or r14, r18, r18 // EV4 algorithm - pass pointer to mchk frame as kseg address - - hw_rei_spe // done - - - - -//sys_double_machine_check - a machine check was started, but MCES<MCHK> was -// already set. We will now double machine check halt. -// -// pt0 - old R0 -// - ALIGN_BLOCK - .globl sys_double_machine_check -sys_double_machine_check: - -// pvc_jsr updpcb, bsr=1 -// bsr r0, pal_update_pcb // update the pcb - lda r0, hlt_c_dbl_mchk(r31) - br r31, sys_enter_console - -//sys_machine_check_while_in_pal - a machine check was started, exc_addr points to -// a PAL PC. We will now machine check halt. -// -// pt0 - old R0 -// -sys_machine_check_while_in_pal: - -// pvc_jsr updpcb, bsr=1 -// bsr r0, pal_update_pcb // update the pcb - lda r0, hlt_c_mchk_from_pal(r31) - br r31, sys_enter_console - -//ARITH and MCHK -// Check for arithmetic errors and build trap frame, -// but don't post the trap. -// on entry: -// pt10 - exc_addr -// r12 - return address -// r14 - logout frame pointer -// r13 - available -// r8,r9,r10 - available except across stq's -// pt0,1,6 - available -// -// on exit: -// pt10 - new exc_addr -// r17 = exc_mask -// r16 = exc_sum -// r14 - logout frame pointer -// - ALIGN_BRANCH -sys_arith_and_mchk: - mfpr r13, ev5__exc_sum - srl r13, exc_sum_v_swc, r13 - bne r13, handle_arith_and_mchk - -// pvc_jsr armc, bsr=1, dest=1 - ret r31, (r12) // return if no outstanding arithmetic error - -handle_arith_and_mchk: - mtpr r31, ev5__dtb_cm // Set Mbox current mode to kernel - - // no virt ref for next 2 cycles - mtpr r14, pt0 - - mtpr r1, pt1 // get a scratch reg - and r11, osfps_m_mode, r1 // get mode bit - - bis r11, r31, r25 // save ps - beq r1, handle_arith_and_mchk_10_ // if zero we are in kern now - - bis r31, r31, r25 // set the new ps - mtpr r30, pt_usp // save user stack - - mfpr r30, pt_ksp // get kern stack -handle_arith_and_mchk_10_: - mfpr r14, exc_addr // get pc into r14 in case stack writes fault - - lda sp, 0-osfsf_c_size(sp) // allocate stack space - mtpr r31, ev5__ps // Set Ibox current mode to kernel - - mfpr r1, pt_entArith - stq r14, osfsf_pc(sp) // save pc - - stq r17, osfsf_a1(sp) - mfpr r17, ev5__exc_mask // Get exception register mask IPR - no mtpr exc_sum in next cycle - - stq r29, osfsf_gp(sp) - stq r16, osfsf_a0(sp) // save regs - - bis r13, r31, r16 // move exc_sum to r16 - stq r18, osfsf_a2(sp) - - stq r11, osfsf_ps(sp) // save ps - mfpr r29, pt_kgp // get the kern gp - - mfpr r14, pt0 // restore logout frame pointer from pt0 - bis r25, r31, r11 // set new ps - - mtpr r1, pt10 // Set new PC - mfpr r1, pt1 - -// pvc_jsr armc, bsr=1, dest=1 - ret r31, (r12) // return if no outstanding arithmetic error - - - - - -// .sbttl "SYS_ENTER_CONSOLE - Common PALcode for ENTERING console" - -// SYS_enter_console -// -// Entry: -// Entered when PAL wants to enter the console. -// usually as the result of a HALT instruction or button, -// or catastrophic error. -// -// Regs on entry... -// -// R0 = halt code -// pt0 <- r0 -// -// Function: -// -// Save all readable machine state, and "call" the console -// -// Returns: -// -// -// Notes: -// -// In these routines, once the save state routine has been executed, -// the remainder of the registers become scratchable, as the only -// "valid" copy of them is the "saved" copy. -// -// Any registers or PTs that are modified before calling the save -// routine will have there data lost. The code below will save all -// state, but will loose pt 0,4,5. -// -//- -#define KSEG 0xfffffc0000000000 - ALIGN_BLOCK - .globl sys_enter_console -sys_enter_console: - - DEBUGSTORE(0x7a) - DEBUG_EXC_ADDR() - DEBUGSTORE(13) - DEBUGSTORE(10) - mtpr r1, pt4 - mtpr r3, pt5 - STALL - STALL - mfpr r1, pt_impure - bsr r3, pal_save_state - - // build PS (IPL=7,CM=K,VMM=0,SW=0) - lda r11, 0x7(r31) // Shadow copy of PS - kern mode, IPL=7 - lda r1, 0x1e(r31) - mtpr r1, ev5__ipl // set internal <ipl> - - /* kernel sp: KSEG + 0xffe000 */ - subq r31, 1, sp - sll sp, 42, sp - lda r3, 0xffe(zero) - sll r3, 12, r3 - addq r3, sp, sp - mtpr sp, ptKsp // Update the saved KSP value. - mtpr zero, ips // Set mode to kernel, IPL = 0. - mtpr zero, dtb_ia // Flush the DTB - mtpr zero, itb_ia // Flush the ITB - mtpr zero, astrr // Clear all ASTs ... - mtpr zero, aster - mtpr zero, sirr // Clear all software interrupts. -// lda r3, pal_enter_console_ptr(r31) //find stored vector -// ldqp r1, 0(r3) - /* put the KSEG address in the top, then add 0x10000 to it */ - subq r31, 1, r1 - sll r1, 42, r1 - - ldah r1, 1(r1) - mtpr r1, exc_addr - mfpr r1, pt4 - mfpr r3, pt5 - STALL - STALL - hw_rei_stall - - .align 7 -kludge_initial_pcbb: // PCB is 128 bytes long - .quad 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 - - .globl debugstore -debugstore: - stq_p r16,0(zero) - stq_p r17,8(zero) - lda r16, 0x400(zero) - sll r16, 29, r16 - ldah r16, 0x280(r16) -9: lda r17, 0x140(r16) - ldl_p r17, 0(r17) - srl r17, 16, r17 - and r17, 0x20, r17 - beq r17, 9b - stl_p r13, 0(r16) - mb - ldq_p r17, 8(zero) - ldq_p r16, 0(zero) - jmp r31, (r25) - -// - .globl put_exc_addr -put_exc_addr: - stq_p r16,0(zero) - stq_p r17,8(zero) - stq_p r18,16(zero) - stq_p r19,24(zero) - - mfpr r16, exc_addr - bis r31, 64-4, r17 // shift count for quadword - -1: lda r18, 0x400(zero) // Wait for UART ready - sll r18, 29, r18 - ldah r18, 0x280(r18) -9: lda r19, 0x140(r18) - ldl_p r19, 0(r19) - srl r19, 16, r19 - and r19, 0x20, r19 - beq r19, 9b - - srl r16, r17, r19 // grab a nibble - and r19, 0x0f, r19 - addq r19, 0x30, r19 // make ascii - cmple r19, 0x39, r18 - bne r18, 0f - addq r19, 0x27, r19 // 0x07 gets A-F - -0: lda r18, 0x400(zero) // Wait for UART ready - sll r18, 29, r18 - ldah r18, 0x280(r18) - - stl_p r19, 0(r18) - mb - - subq r17, 4, r17 // do all nibbles - bge r17, 1b - - ldq_p r16,0(zero) - ldq_p r17,8(zero) - ldq_p r18,16(zero) - ldq_p r19,24(zero) - - ret r31, (r25) - - // print out r13 - .globl put_hex -put_hex: - stq_p r16,0(zero) - stq_p r17,8(zero) - stq_p r18,16(zero) - stq_p r19,24(zero) - - bis r13, zero, r16 - bis r31, 64-4, r17 // shift count for quadword - -1: lda r18, 0x400(zero) // Wait for UART ready - sll r18, 29, r18 - ldah r18, 0x280(r18) -9: lda r19, 0x140(r18) - ldl_p r19, 0(r19) - srl r19, 16, r19 - and r19, 0x20, r19 - beq r19, 9b - - srl r16, r17, r19 // grab a nibble - and r19, 0x0f, r19 - addq r19, 0x30, r19 // make ascii - cmple r19, 0x39, r18 - bne r18, 0f - addq r19, 0x27, r19 // 0x07 gets A-F - -0: lda r18, 0x400(zero) // Wait for UART ready - sll r18, 29, r18 - ldah r18, 0x280(r18) - - stl_p r19, 0(r18) - mb - - subq r17, 4, r17 // do all nibbles - bge r17, 1b - - ldq_p r16,0(zero) - ldq_p r17,8(zero) - ldq_p r18,16(zero) - ldq_p r19,24(zero) - - ret r31, (r25) - - -/* -** -** FUNCTIONAL DESCRIPTION: -** -** Transfer control to the specified address, passed in -** register a0, in PAL mode. -** -** INPUT PARAMETERS: -** -** a0 (r16) - Transfer address -** -** OUTPUT PARAMETERS: -** -** DECchip 21064 specific parameters: -** -** t0 (r1) - bcCtl -** t1 (r2) - bcCfg -** -** Firmware specific parameters: -** -** s6 (r15) - Encoded srom.s RCS revision -** a0 (r16) - Processor identification (a la SRM) -** a1 (r17) - Size of good memory in bytes -** a2 (r18) - Cycle count in picoseconds -** a3 (r19) - Protocol signature and system revision -** a4 (r20) - Active processor mask -** a5 (r21) - System Context value -** -** SIDE EFFECTS: -** -*/ - ALIGN_BRANCH - -Sys_Cserve_Jtopal: - bic a0, 3, t8 // Clear out low 2 bits of address - bis t8, 1, t8 // Or in PAL mode bit - - mfpr t9, ptImpure // Get base of impure scratch area. - lda t9, CNS_Q_IPR(t9) // Point to start of IPR area. - - RESTORE_SHADOW(a3,CNS_Q_SIGNATURE,t9) // Get signature. - srl a3, 16, t0 // Shift signature into lower word. - - LDLI(t10,0xDECB) // Load the expected valid signature. - - cmpeq t0, t10, t0 // Check if saved signature was valid. - blbc t0, 1f // If invalid, pass nothing. -/* -** Load the processor specific parameters ... -*/ - RESTORE_SHADOW(t0,CNS_Q_BC_CTL,t9) // Get bcCtl. - RESTORE_SHADOW(t1,CNS_Q_BC_CFG,t9) // Get bcCfg. -/* RESTORE_SHADOW(t2,CNS_Q_BC_CFG_OFF,t9) // Get bcCfg.*/ -/* -** Load the firmware specific parameters ... -*/ - RESTORE_SHADOW(s6,CNS_Q_SROM_REV,t9) // Get srom revision. - RESTORE_SHADOW(a0,CNS_Q_PROC_ID,t9) // Get processor id. - RESTORE_SHADOW(a1,CNS_Q_MEM_SIZE,t9) // Get memory size. - RESTORE_SHADOW(a2,CNS_Q_CYCLE_CNT,t9) // Get cycle count. - RESTORE_SHADOW(a4,CNS_Q_PROC_MASK,t9) // Get processor mask. - RESTORE_SHADOW(a5,CNS_Q_SYSCTX,t9) // Get system context. - - STALL - STALL - -1: mtpr zero, ptWhami // Clear WHAMI and swap flag. - mtpr t8, excAddr // Load the dispatch address. - br zero, 2f - - ALIGN_BLOCK - -2: NOP - mtpr zero, icFlush // Flush the icache. - NOP - NOP - - NOP // Required NOPs ... 1-10 - NOP - NOP - NOP - NOP - NOP - NOP - NOP - NOP - NOP - - NOP // Required NOPs ... 11-20 - NOP - NOP - NOP - NOP - NOP - NOP - NOP - NOP - NOP - - NOP // Required NOPs ... 21-30 - NOP - NOP - NOP - NOP - NOP - NOP - NOP - NOP - NOP - - NOP // Required NOPs ... 31-40 - NOP - NOP - NOP - NOP - NOP - NOP - NOP - NOP - NOP - - - - NOP // Required NOPs ... 41-44 - NOP - NOP - NOP - - hw_rei // Dispatch in PAL mode ... |