# # CDDL HEADER START # # The contents of this file are subject to the terms of the # Common Development and Distribution License (the "License"). # You may not use this file except in compliance with the License. # # You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE # or http://www.opensolaris.org/os/licensing. # See the License for the specific language governing permissions # and limitations under the License. # # When distributing Covered Code, include this CDDL HEADER in each # file and include the License file at usr/src/OPENSOLARIS.LICENSE. # If applicable, add the following below this CDDL HEADER, with the # fields enclosed by brackets "[]" replaced with your own identifying # information: Portions Copyright [yyyy] [name of copyright owner] # # CDDL HEADER END # # # Copyright 2006 Sun Microsystems, Inc. All rights reserved. # Use is subject to license terms. # # ident "%Z%%M% %I% %E% SMI" # # Global definitions for sun4u opl implementation specific modules. # # uts/sun4u/opl/Makefile.opl # # # Define directories. # # # ROOT_OPL_DIR = $(ROOT_PLAT_DIR)/SUNW,SPARC-Enterprise ROOT_OPL_MOD_DIR = $(ROOT_OPL_DIR)/kernel ROOT_OPL_KERN_DIR_32 = $(ROOT_OPL_MOD_DIR) ROOT_OPL_KERN_DIR_64 = $(ROOT_OPL_MOD_DIR)/$(SUBDIR64) ROOT_OPL_MISC_DIR_32 = $(ROOT_OPL_MOD_DIR)/misc ROOT_OPL_MISC_DIR_64 = $(ROOT_OPL_MOD_DIR)/misc/$(SUBDIR64) ROOT_OPL_DRV_DIR_32 = $(ROOT_OPL_MOD_DIR)/drv ROOT_OPL_DRV_DIR_64 = $(ROOT_OPL_MOD_DIR)/drv/$(SUBDIR64) ROOT_OPL_CPU_DIR_32 = $(ROOT_OPL_MOD_DIR)/cpu ROOT_OPL_CPU_DIR_64 = $(ROOT_OPL_MOD_DIR)/cpu/$(SUBDIR64) ROOT_OPL_CRYPTO_DIR_32 = $(ROOT_OPL_MOD_DIR)/crypto ROOT_OPL_CRYPTO_DIR_64 = $(ROOT_OPL_MOD_DIR)/crypto/$(SUBDIR64) ROOT_OPL_KERN_DIR = $(ROOT_OPL_KERN_DIR_$(CLASS)) ROOT_OPL_MISC_DIR = $(ROOT_OPL_MISC_DIR_$(CLASS)) ROOT_OPL_DRV_DIR = $(ROOT_OPL_DRV_DIR_$(CLASS)) ROOT_OPL_CPU_DIR = $(ROOT_OPL_CPU_DIR_$(CLASS)) ROOT_OPL_CRYPTO_DIR = $(ROOT_OPL_CRYPTO_DIR_$(CLASS)) ROOT_PLAT_MOD_DIRS += $(ROOT_OPL_MOD_DIR) ROOT_PLAT_MISC_DIRS_32 += $(ROOT_OPL_MISC_DIR_32) USR_OPL_DIR = $(USR_PLAT_DIR)/SUNW,SPARC-Enterprise USR_OPL_LIB_DIR = $(USR_OPL_DIR)/lib USR_OPL_SBIN_DIR = $(USR_OPL_DIR)/sbin USR_OPL_SBIN_EEPROM = $(USR_OPL_SBIN_DIR)/eeprom USR_OPL_SBIN_PRTDIAG = $(USR_OPL_SBIN_DIR)/prtdiag USR_OPL_SBIN_TRAPSTAT = $(USR_OPL_SBIN_DIR)/trapstat USR_OPL_SBIN_FRUADM = $(USR_OPL_SBIN_DIR)/fruadm USR_OPL_INC_DIR = $(USR_OPL_DIR)/include USR_OPL_ISYS_DIR = $(USR_OPL_INC_DIR)/sys OPL_LINT_LIB_DIR = $(UTSBASE)/$(PLATFORM)/opl/lint-libs/$(OBJS_DIR) OPLMSU_OPTION = options # # Define modules. # OPL_KMODS = platmod OPL_KMODS += dm2s OPL_KMODS += oplkmdrv OPL_KMODS += pcicmu OPL_KMODS += oplpanel OPL_KMODS += scfd OPL_KMODS += dr .WAIT drmach OPL_KMODS += oplmsu OPL_KMODS += mc-opl # # CPU modules. # OPL_CPU_KMODS += olympus_c # Links to OPL crypto modules # OPL_CRYPTO_LINKS = aes # # Include the makefiles which define build rule templates, the # collection of files per module, and a few specific flags. Note # that order is significant, just as with an include path. The # first build rule template which matches the files name will be # used. By including these in order from most machine dependent # to most machine independent, we allow a machine dependent file # to be used in preference over a machine independent version # (Such as a machine specific optimization, which preserves the # interfaces.) # include $(UTSBASE)/sun4u/ngdr/Makefile.files include $(UTSBASE)/sun4u/opl/Makefile.files # # Include common rules. # include $(UTSBASE)/sun4u/Makefile.sun4u # # Everybody needs to know how to build modstubs.o and to locate unix.o # UNIX_DIR = $(UTSBASE)/$(PLATFORM)/opl/unix MODSTUBS_DIR = $(UNIX_DIR) DSF_DIR = $(UTSBASE)/$(PLATFORM)/opl/genassym LINTS_DIR = $(OBJS_DIR) LINT_LIB_DIR = $(UTSBASE)/$(PLATFORM)/opl/lint-libs/$(OBJS_DIR) UNIX_O = $(UNIX_DIR)/$(OBJS_DIR)/unix.o LINT_LIB = $(LINT_LIB_DIR)/llib-lunix.ln # # Define the actual specific platforms # MACHINE_DEFS = -D$(PLATFORM) -D_MACHDEP -DSFMMU -DMP MACHINE_DEFS += -D_CPU_SIGNATURE # # Maximum CPUID = 01111 11 01 1 = 0x1FB (507) # Maximum CHIPID = 1 01111 11 00 0 = 0x5F8 (1528) # MACHINE_DEFS += -DNCPU=508 MACHINE_DEFS += -DMAX_CPU_CHIPID=1529 MACHINE_DEFS += -DMAX_UPA=256 MACHINE_DEFS += -DIGN_SIZE=8 MACHINE_DEFS += -DMAX_MEM_NODES=16 # # UTSB_PHYS will enable user TSB physical access for TL>0 # MACHINE_DEFS += -DUTSB_PHYS MACHINE_DEFS += -D_OPL MACHINE_DEFS += -DOLYMPUS_SHARED_FTLB MACHINE_DEFS += -D_CMP_NO_ERROR_STEERING -D_HW_MEMSCRUB_SUPPORT MACHINE_DEFS += -DDO_CORELEVEL_LOADBAL MACHINE_DEFS += -DITLB_32M_256M_SUPPORT # # OLYMPUS C cross-call erratas. # - revision A can only deliver one xcall at a time. # - revision B can dispatch xcalls to 31 (IDSR_BN_SETS) CPUs at a time, # but it can not send more xcalls until all the pending xcalls are # dispatched. In other words, all previous 31 xcall slots must be # in non-busy state before further xcalls can be issued. MACHINE_DEFS += -DOLYMPUS_C_REV_A_ERRATA_XCALL MACHINE_DEFS += -DOLYMPUS_C_REV_B_ERRATA_XCALL # # OLYMPUS C Spurious interrupts # - When an UE is detected in a interrupt packet, # Olympus-C takes an interrupt_vector_trap (TT=0x60) while # ASI_INTR_RECIEVE.BUSY is set to zero to indicate the existence # of the error. Software will see this as a spurious interrupt since # the interrupt busy bit is set to zero. SW will still need to # explicitly clear the interrupt busy bit to reset the HW state. # Failure to do so will result in the processor continuously taking # an interrupt vector trap when PSTATE.IE is reset to one. # Note that UE in interrupt packet is reported to the SP and handled # accordingly. For the domain, the system should panic as it is not # recoverable. MACHINE_DEFS += -DCLEAR_INTR_BUSYBIT_ON_SPURIOUS .KEEP_STATE: