/* * Copyright (c) 2000 Apple Computer, Inc. All rights reserved. * * @APPLE_LICENSE_HEADER_START@ * * The contents of this file constitute Original Code as defined in and * are subject to the Apple Public Source License Version 1.1 (the * "License"). You may not use this file except in compliance with the * License. Please obtain a copy of the License at * http://www.apple.com/publicsource and read it before using this file. * * This Original Code and all software distributed under the License are * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT. Please see the * License for the specific language governing rights and limitations * under the License. * * @APPLE_LICENSE_HEADER_END@ */ /* * @OSF_FREE_COPYRIGHT@ */ /* * @APPLE_FREE_COPYRIGHT@ */ /* MPinterfaces.s General interface to the MP hardware handlers anonymous Lovingly crafted by Bill Angell using traditional methods and only natural or recycled materials. No animal products are used other than rendered otter bile. */ #include #include #include #include #include #include /* * This first section is the glue for the high level C code. * Anything that needs any kind of system services (e.g., VM) has to be done here. The firmware * code that implements the SC runs in real mode. */ /* #define MPI_DEBUGGING 0 */ #define MPI_DEBUGGING 0 /* * The routine that implements cpu_number. */ ENTRY(cpu_number, TAG_NO_FRAME_USED) mfmsr r9 /* Save the old MSR */ rlwinm r8,r9,0,17,15 /* Clear interruptions */ mtmsr r8 /* Interrupts off */ mfsprg r7,0 /* Get per-proc block */ lhz r3,PP_CPU_NUMBER(r7) /* Get CPU number */ mtmsr r9 /* Restore interruptions to entry */ blr /* Return... */ /* * The routine glues to the count CPU firmware call */ ENTRY(MPgetProcCount, TAG_NO_FRAME_USED) mr r12,r0 /* Keep R0 pristene */ lis r0,HIGH_ADDR(MPgetProcCountCall) /* Top half of MPgetProcCount firmware call number */ ori r0,r0,LOW_ADDR(MPgetProcCountCall) /* Bottom half */ sc /* Go see how many processors we have */ #if MPI_DEBUGGING lis r0,HIGH_ADDR(CutTrace) /* Top half of trace entry maker call */ ori r0,r0,LOW_ADDR(CutTrace) /* Bottom half of trace entry maker call */ sc /* Cut a backend trace entry */ #endif mr r0,r12 /* Restore R0 */ blr /* Return, pass back R3... */ /* * The routine glues to the start CPU firmware call - actually it's really a boot * The first parameter is the CPU number to start * The second parameter is the real address of the code used to boot the processor * The third parameter is the real addess of the CSA for the subject processor */ ENTRY(MPstart, TAG_NO_FRAME_USED) mr r12,r0 /* Keep R0 pristene */ lis r0,HIGH_ADDR(MPstartCall) /* Top half of MPstartCall firmware call number */ ori r0,r0,LOW_ADDR(MPstartCall) /* Bottom half */ sc /* Go see how many processors we have */ #if MPI_DEBUGGING lis r0,HIGH_ADDR(CutTrace) /* Top half of trace entry maker call */ ori r0,r0,LOW_ADDR(CutTrace) /* Bottom half of trace entry maker call */ sc /* Cut a backend trace entry */ #endif mr r0,r12 /* Restore R0 */ blr /* Return... */ /* * This routine glues to the get external interrupt handler physical address */ ENTRY(MPexternalHook, TAG_NO_FRAME_USED) mr r12,r0 /* Keep R0 pristene */ lis r0,HIGH_ADDR(MPexternalHookCall) /* Top half of MPexternalHookCall firmware call number */ ori r0,r0,LOW_ADDR(MPexternalHookCall) /* Bottom half */ sc /* Go see how many processors we have */ #if MPI_DEBUGGING lis r0,HIGH_ADDR(CutTrace) /* Top half of trace entry maker call */ ori r0,r0,LOW_ADDR(CutTrace) /* Bottom half of trace entry maker call */ sc /* Cut a backend trace entry */ #endif mr r0,r12 /* Restore R0 */ blr /* Return... */ /* * This routine glues to the signal processor routine */ ENTRY(MPsignal, TAG_NO_FRAME_USED) mr r12,r0 /* Keep R0 pristene */ lis r0,HIGH_ADDR(MPsignalCall) /* Top half of MPsignalCall firmware call number */ ori r0,r0,LOW_ADDR(MPsignalCall) /* Bottom half */ sc /* Go kick the other guy */ #if MPI_DEBUGGING lis r0,HIGH_ADDR(CutTrace) /* Top half of trace entry maker call */ ori r0,r0,LOW_ADDR(CutTrace) /* Bottom half of trace entry maker call */ sc /* Cut a backend trace entry */ #endif mr r0,r12 /* Restore R0 */ blr /* Return... */ /* * This routine glues to the stop processor routine */ ENTRY(MPstop, TAG_NO_FRAME_USED) mr r12,r0 /* Keep R0 pristene */ lis r0,HIGH_ADDR(MPstopCall) /* Top half of MPsignalCall firmware call number */ ori r0,r0,LOW_ADDR(MPstopCall) /* Bottom half */ sc /* Stop the other guy cold */ #if MPI_DEBUGGING lis r0,HIGH_ADDR(CutTrace) /* Top half of trace entry maker call */ ori r0,r0,LOW_ADDR(CutTrace) /* Bottom half of trace entry maker call */ sc /* Cut a backend trace entry */ #endif mr r0,r12 /* Restore R0 */ blr /* Return... */ /* ************************************************************************************************************* * * This second section is the glue for the low level stuff directly into the MP plugin. * At this point every register in existence should be saved. Well, they're saved, * but R13 points to the savearea, and R20 to the trace entry. Please be careful * with these. You won't like what happens if they're different when you exit. * ***************************************************************************************************************/ /* * See how many physical processors we have */ ENTRY(MPgetProcCountLL, TAG_NO_FRAME_USED) lis r11,HIGH_ADDR(EXT(MPEntries)) /* Get the address of the MP entry block (in the V=R area) */ ori r11,r11,LOW_ADDR(EXT(MPEntries)) /* Get the bottom of the MP spec area */ lwz r10,kCountProcessors*4(r11) /* Get the routine entry point */ mflr r14 /* Save the return in an unused register */ mtlr r10 /* Set it */ blrl /* Call the routine */ mtlr r14 /* Restore firmware caller address */ blr /* Leave... */ /* * Start up a processor */ ENTRY(MPstartLL, TAG_NO_FRAME_USED) lis r11,HIGH_ADDR(EXT(MPEntries)) /* Get the address of the MP entry block (in the V=R area) */ ori r11,r11,LOW_ADDR(EXT(MPEntries)) /* Get the bottom of the MP spec area */ lwz r10,kStartProcessor*4(r11) /* Get the routine entry point */ mflr r14 /* Save the return in an unused register */ mtlr r10 /* Set it */ blrl /* Call the routine */ mtlr r14 /* Restore firmware caller address */ blr /* Leave... */ /* * Get physical address of SIGP external handler */ ENTRY(MPexternalHookLL, TAG_NO_FRAME_USED) lis r11,HIGH_ADDR(EXT(MPEntries)) /* Get the address of the MP entry block (in the V=R area) */ ori r11,r11,LOW_ADDR(EXT(MPEntries)) /* Get the bottom of the MP spec area */ lwz r10,kExternalHook*4(r11) /* Get the routine entry point */ mflr r14 /* Save the return in an unused register */ mtlr r10 /* Set it */ blrl /* Call the routine */ mtlr r14 /* Restore firmware caller address */ blr /* Leave... */ /* * Send a signal to another processor */ ENTRY(MPsignalLL, TAG_NO_FRAME_USED) lis r11,HIGH_ADDR(EXT(MPEntries)) /* Get the address of the MP entry block (in the V=R area) */ ori r11,r11,LOW_ADDR(EXT(MPEntries)) /* Get the bottom of the MP spec area */ lwz r10,kSignalProcessor*4(r11) /* Get the routine entry point */ mflr r14 /* Save the return in an unused register */ mtlr r10 /* Set it */ blrl /* Call the routine */ mtlr r14 /* Restore firmware caller address */ blr /* Leave... */ /* * Stop another processor */ ENTRY(MPstopLL, TAG_NO_FRAME_USED) lis r11,HIGH_ADDR(EXT(MPEntries)) /* Get the address of the MP entry block (in the V=R area) */ ori r11,r11,LOW_ADDR(EXT(MPEntries)) /* Get the bottom of the MP spec area */ lwz r10,kStopProcessor*4(r11) /* Get the routine entry point */ mflr r14 /* Save the return in an unused register */ mtlr r10 /* Set it */ blrl /* Call the routine */ mtlr r14 /* Restore firmware caller address */ blr /* Leave... */ /* * Third section: Miscellaneous MP related routines */ /* * All non-primary CPUs start here. * We are dispatched by the SMP driver. Addressing is real (no DR or IR), * interruptions disabled, etc. R3 points to the CPUStatusArea (CSA) which contains * most of the state for the processor. This is set up by the primary. Note that we * do not use everything in the CSA. Caches should be clear and coherent with * no paradoxies (well, maybe one doxie, a pair would be pushing it). */ ENTRY(start_secondary,TAG_NO_FRAME_USED) mr r31,r3 /* Get the pointer to the CSA */ lis r21,HIGH_ADDR(SpinTimeOut) /* Get the top part of the spin timeout */ ori r21,r21,LOW_ADDR(SpinTimeOut) /* Slam in the bottom part */ GetValid: lbz r10,CSAregsAreValid(r31) /* Get the CSA validity value */ mr. r10,r10 /* Is the area valid yet? */ bne GotValid /* Yeah... */ addic. r21,r21,-1 /* Count the try */ isync /* Make sure we don't prefetch the valid flag */ bge+ GetValid /* Still more tries left... */ blr /* Return and cancel startup request... */ GotValid: li r21,0 /* Set the valid flag off (the won't be after the RFI) */ lwz r10,CSAdec(r31) /* Get the decrimenter */ stb r21,CSAregsAreValid(r31) /* Clear that validity flag */ lwz r11,CSAdbat+(0*8)+0(r31) /* Get the first DBAT */ lwz r12,CSAdbat+(0*8)+4(r31) /* Get the first DBAT */ lwz r13,CSAdbat+(1*8)+0(r31) /* Get the second DBAT */ mtdec r10 /* Set the decrimenter */ lwz r14,CSAdbat+(1*8)+4(r31) /* Get the second DBAT */ mtdbatu 0,r11 /* Set top part of DBAT 0 */ lwz r15,CSAdbat+(2*8)+0(r31) /* Get the third DBAT */ mtdbatl 0,r12 /* Set lower part of DBAT 0 */ lwz r16,CSAdbat+(2*8)+4(r31) /* Get the third DBAT */ mtdbatu 1,r13 /* Set top part of DBAT 1 */ lwz r17,CSAdbat+(3*8)+0(r31) /* Get the fourth DBAT */ mtdbatl 1,r14 /* Set lower part of DBAT 1 */ lwz r18,CSAdbat+(3*8)+4(r31) /* Get the fourth DBAT */ mtdbatu 2,r15 /* Set top part of DBAT 2 */ lwz r11,CSAibat+(0*8)+0(r31) /* Get the first IBAT */ mtdbatl 2,r16 /* Set lower part of DBAT 2 */ lwz r12,CSAibat+(0*8)+4(r31) /* Get the first IBAT */ mtdbatu 3,r17 /* Set top part of DBAT 3 */ lwz r13,CSAibat+(1*8)+0(r31) /* Get the second IBAT */ mtdbatl 3,r18 /* Set lower part of DBAT 3 */ lwz r14,CSAibat+(1*8)+4(r31) /* Get the second IBAT */ mtibatu 0,r11 /* Set top part of IBAT 0 */ lwz r15,CSAibat+(2*8)+0(r31) /* Get the third IBAT */ mtibatl 0,r12 /* Set lower part of IBAT 0 */ lwz r16,CSAibat+(2*8)+4(r31) /* Get the third IBAT */ mtibatu 1,r13 /* Set top part of IBAT 1 */ lwz r17,CSAibat+(3*8)+0(r31) /* Get the fourth IBAT */ mtibatl 1,r14 /* Set lower part of IBAT 1 */ lwz r18,CSAibat+(3*8)+4(r31) /* Get the fourth IBAT */ mtibatu 2,r15 /* Set top part of IBAT 2 */ lwz r11,CSAsdr1(r31) /* Get the SDR1 value */ mtibatl 2,r16 /* Set lower part of IBAT 2 */ lwz r12,CSAsprg(r31) /* Get SPRG0 (the per_proc_info address) */ mtibatu 3,r17 /* Set top part of IBAT 3 */ lwz r13,CSAmsr(r31) /* Get the MSR */ mtibatl 3,r18 /* Set lower part of IBAT 3 */ lwz r14,CSApc(r31) /* Get the PC */ sync /* Sync up */ mtsdr1 r11 /* Set the SDR1 value */ sync /* Sync up */ la r10,CSAsr-4(r31) /* Point to SR 0 - 4 */ li r9,0 /* Start at SR 0 */ LoadSRs: lwz r8,4(r10) /* Get the next SR in line */ addi r10,r10,4 mtsrin r8,r9 /* Load up the SR */ addis r9,r9,0x1000 /* Bump to the next SR */ mr. r9,r9 /* See if we wrapped back to 0 */ bne+ LoadSRs /* Not yet... */ lwz r0,CSAgpr+(0*4)(r31) /* Get a GPR */ lwz r9,CSAsprg+(1*4)(r31) /* Get SPRG1 (the initial active savearea) */ mtsrr1 r13 /* Set the MSR to dispatch */ lwz r1,CSAgpr+(1*4)(r31) /* Get a GPR */ mtsprg 0,r12 /* Set the SPRG0 (per_proc_into) value */ lwz r2,CSAgpr+(2*4)(r31) /* Get a GPR */ mtsrr0 r14 /* Set the PC to dispatch */ lwz r3,CSAgpr+(3*4)(r31) /* Get a GPR */ mtsprg 1,r9 /* Set the SPRG1 (the initial active savearea) value */ lwz r4,CSAgpr+(4*4)(r31) /* Get a GPR */ lwz r5,CSAgpr+(5*4)(r31) /* Get a GPR */ lwz r6,CSAgpr+(6*4)(r31) /* Get a GPR */ lwz r7,CSAgpr+(7*4)(r31) /* Get a GPR */ lwz r8,CSAgpr+(8*4)(r31) /* Get a GPR */ lwz r9,CSAgpr+(9*4)(r31) /* Get a GPR */ lwz r10,CSAgpr+(10*4)(r31) /* Get a GPR */ lwz r11,CSAgpr+(11*4)(r31) /* Get a GPR */ lwz r12,CSAgpr+(12*4)(r31) /* Get a GPR */ lwz r13,CSAgpr+(13*4)(r31) /* Get a GPR */ lwz r14,CSAgpr+(14*4)(r31) /* Get a GPR */ lwz r15,CSAgpr+(15*4)(r31) /* Get a GPR */ lwz r16,CSAgpr+(16*4)(r31) /* Get a GPR */ lwz r17,CSAgpr+(17*4)(r31) /* Get a GPR */ lwz r18,CSAgpr+(18*4)(r31) /* Get a GPR */ lwz r19,CSAgpr+(19*4)(r31) /* Get a GPR */ lwz r20,CSAgpr+(20*4)(r31) /* Get a GPR */ lwz r21,CSAgpr+(21*4)(r31) /* Get a GPR */ lwz r22,CSAgpr+(22*4)(r31) /* Get a GPR */ lwz r23,CSAgpr+(23*4)(r31) /* Get a GPR */ lwz r24,CSAgpr+(24*4)(r31) /* Get a GPR */ lwz r25,CSAgpr+(25*4)(r31) /* Get a GPR */ lwz r26,CSAgpr+(26*4)(r31) /* Get a GPR */ lwz r27,CSAgpr+(27*4)(r31) /* Get a GPR */ lwz r28,CSAgpr+(28*4)(r31) /* Get a GPR */ lwz r29,CSAgpr+(29*4)(r31) /* Get a GPR */ lwz r30,CSAgpr+(30*4)(r31) /* Get a GPR */ lwz r31,CSAgpr+(31*4)(r31) /* Get a GPR */ sync /* Make sure we're sunk */ rfi /* Get the whole shebang going... */ .long 0 .long 0 .long 0 .long 0 .long 0 .long 0 .long 0 .long 0 /* * This routine handles requests to firmware from another processor. It is actually the second level * of a three level signaling protocol. The first level is handled in the physical MP driver. It is the * basic physical control for the processor, e.g., physical stop, reset, start. The second level (this * one) handles cross-processor firmware requests, e.g., complete TLB purges. The last are AST requests * which are handled directly by mach. * * If this code handles the request (based upon MPPICParm0BU which is valid until the next SIGP happens - * actually, don't count on it once you enable) it will RFI back to the * interrupted code. If not, it will return and let the higher level interrupt handler be called. * * We need to worry about registers we use here, check in lowmem_vectors to see what is boten and verboten. * * Note that there are no functions implemented yet. */ ENTRY(MPsignalFW, TAG_NO_FRAME_USED) mfspr r7,pir /* Get the processor address */ lis r6,HIGH_ADDR(EXT(MPPICPUs)) /* Get high part of CPU control block array */ rlwinm r7,r7,5,23,26 /* Get index into CPU array */ ori r6,r6,HIGH_ADDR(EXT(MPPICPUs)) /* Get low part of CPU control block array */ add r7,r7,r6 /* Point to the control block for this processor */ lwz r6,MPPICParm0BU(r7) /* Just pick this up for now */ blr /* Leave... */ /* * Make space for the maximum supported CPUs in the data section */ #ifdef __ELF__ .section ".data" #else .data #endif .align 5 EXT(CSA): .set ., .+(CSAsize*NCPUS) #ifndef __MACHO__ .type EXT(CSA), @object .size EXT(CSA), CSAsize*NCPUS #endif .globl EXT(CSA)