# SPDX-License-Identifier: Apache-2.0 OR GPL-2.0-or-later # # scripts to run skiboot (and a payload) with Mambo (otherwise known as the # POWER[89] Functional Simulator) # # Copyright 2014-2019 IBM Corp. # need to get images path defined early source $env(LIB_DIR)/ppc/util.tcl if { [file exists qtrace_utils.tcl] } then { source qtrace_utils.tcl } # # Call tclreadline's Loop to move to friendlier # commandline if one exists # proc readline { } { set readline [catch { package require tclreadline }] if { $readline == 0 } { ::tclreadline::Loop } } proc mconfig { name env_name def } { global mconf global env if { [info exists env($env_name)] } { set mconf($name) $env($env_name) } if { ![info exists mconf($name)] } { set mconf($name) $def } } mconfig cpus CPUS 1 mconfig threads THREADS 1 mconfig memory MEM_SIZE 4G # Create multiple memory nodes? This will create a MEM_SIZE region # on each chip (CPUS above). mconfig numa MAMBO_NUMA 0 # Should we stop on an illeagal instruction mconfig stop_on_ill MAMBO_STOP_ON_ILL false # Location of application binary to load mconfig boot_image SKIBOOT ../../skiboot.lid # Boot: Memory location to load boot_image, for binary or vmlinux mconfig boot_load MAMBO_BOOT_LOAD 0x30000000 # Boot: Value of PC after loading, for binary or vmlinux mconfig boot_pc MAMBO_BOOT_PC 0x30000010 # Payload: Allow for a Linux style ramdisk/initrd if { ![info exists env(SKIBOOT_ZIMAGE)] } { error "Please set SKIBOOT_ZIMAGE to the path of your zImage.epapr" } mconfig payload PAYLOAD $env(SKIBOOT_ZIMAGE) mconfig linux_cmdline LINUX_CMDLINE "" # Paylod: Memory location for a Linux style ramdisk/initrd mconfig payload_addr PAYLOAD_ADDR 0x20000000; # FW: Where should ePAPR Flat Devtree Binary be loaded mconfig epapr_dt_addr EPAPR_DT_ADDR 0x1f00000;# place at 31M # Disk: Location of file to use a bogus disk 0 mconfig rootdisk ROOTDISK none # Disk: File to use for re COW file: none or mconfig rootdisk_cow MAMBO_ROOTDISK_COW none # Disk: COW method to use mconfig rootdisk_cow_method MAMBO_ROOTDISK_COW_METHOD newcow # Disk: COW hash size mconfig rootdisk_cow_hash MAMBO_ROOTDISK_COW_HASH 1024 # Net: What type of networking: none, phea, bogus mconfig net MAMBO_NET none # Net: What MAC address to use mconfig net_mac MAMBO_NET_MAC 00:11:22:33:44:55 # Net: What is the name of the tap device mconfig net_tapdev MAMBO_NET_TAPDEV "tap0" # Enable (default) or disable the "speculation-policy-favor-security" setting, # set to 0 to disable. When enabled it causes Linux's RFI flush to be enabled. mconfig speculation_policy_favor_security MAMBO_SPECULATION_POLICY_FAVOR_SECURITY 1 # These values ~= P9N DD2.3, except for fw_count_cache_flush_assist=0 because it # exercises more kernel code. # See https://github.com/open-power/hostboot/blob/7ce2a9daac0ccf759376929b2ec40bbbc7ca3398/src/usr/hdat/hdatiplparms.H#L520 mconfig needs_l1d_flush_msr_hv MAMBO_NEEDS_L1D_FLUSH_MSR_HV 1 mconfig needs_l1d_flush_msr_pr MAMBO_NEEDS_L1D_FLUSH_MSR_PR 1 mconfig fw_l1d_thread_split MAMBO_FW_L1D_THREAD_SPLIT 1 mconfig needs_spec_barrier MAMBO_NEEDS_SPEC_BARRIER 1 mconfig fw_bcctrl_serialized MAMBO_FW_BCCTRL_SERIALIZED 0 mconfig fw_count_cache_disabled MAMBO_FW_COUNT_CACHE_DISABLED 0 mconfig needs_count_cache_flush MAMBO_NEEDS_COUNT_CACHE_FLUSH 1 mconfig fw_count_cache_flush_assist MAMBO_COUNT_CACHE_FLUSH_ASSIST 0 mconfig inst_spec_barrier_ori31 MAMBO_INST_SPEC_BARRIER_ORI31 1 mconfig inst_l1d_flush_trig2 MAMBO_INST_L1D_FLUSH_TRIG2 1 mconfig inst_l1d_flush_ori30 MAMBO_INST_L1D_FLUSH_ORI30 0 # # Create machine config # set default_config [display default_configure] define dup $default_config myconf myconf config cpus $mconf(cpus) myconf config processor/number_of_threads $mconf(threads) myconf config memory_size $mconf(memory) myconf config processor_option/ATTN_STOP true myconf config processor_option/stop_on_illegal_instruction $mconf(stop_on_ill) myconf config UART/0/enabled false myconf config SimpleUART/enabled false myconf config enable_rtas_support false myconf config processor/cpu_frequency 512M myconf config processor/timebase_frequency 1/1 myconf config enable_pseries_nvram false myconf config machine_option/NO_RAM TRUE myconf config machine_option/NO_ROM TRUE myconf config machine_option/MEMORY_OVERFLOW FALSE if { $default_config == "PEGASUS" } { # We need to be DD2 or greater on p8 for the HILE HID bit. myconf config processor/initial/PVR 0x4b0201 if { $mconf(numa) } { myconf config memory_region_id_shift 35 } } if { $default_config == "P9" } { # PVR configured for POWER9 DD2.3 Scale out 24 Core (ie SMT4) # This still is not configured with LPAR-per-thread, which will make # multi-thread KVM not work properly. And possibly even small-core is # not set correctly either. myconf config processor/initial/PVR 0x4e1203 myconf config processor/initial/SIM_CTRL1 0x42283c1710000000 if { $mconf(numa) } { myconf config memory_region_id_shift 45 } } if { $default_config == "P10" } { # PVR configured for POWER10 DD2.0, LPAR-per-thread myconf config processor/initial/SIM_CTRL 0x0c1dd60000000000 if { $mconf(threads) == 8 } { # Big-core mode. myconf config processor/initial/PVR 0x00800200 myconf config processor/initial/SIM_CTRL1 0xc0400c0400040a40 puts "Set P10 big-core mode" } else { # Small-core mode. myconf config processor/initial/PVR 0x00801200 myconf config processor/initial/SIM_CTRL1 0xc0400c0401040a40 if { $mconf(threads) != 1 && $mconf(threads) != 2 && $mconf(threads) != 4 } { puts "ERROR: Bad threads configuration" exit } if { $mconf(threads) != 4 && $mconf(cpus) != 1 } { puts "ERROR: Bad threads, cpus configuration" exit } puts "Set P10 small-core mode" } if { $mconf(numa) } { myconf config memory_region_id_shift 44 } } if { $mconf(numa) } { myconf config memory_regions $mconf(cpus) } if { [info exists env(SKIBOOT_SIMCONF)] } { source $env(SKIBOOT_SIMCONF) } define machine myconf mysim # Some mambo does not expose SIM_CTRL as a config option. Also set the SPRs # after machine is defined. if { $default_config == "P10" } { for { set c 0 } { $c < $mconf(cpus) } { incr c } { for { set t 0 } { $t < $mconf(threads) } { incr t } { mysim mcm 0 cpu $c thread $t set spr ctrl 0x0c1dd60000000000 } } } # # Include various utilities # source $env(LIB_DIR)/common/epapr.tcl if {![info exists of::encode_compat]} { source $env(LIB_DIR)/common/openfirmware_utils.tcl } # Only source mambo_utils.tcl if it exists in the current directory. That # allows running mambo in another directory to the one skiboot.tcl is in. if { [file exists mambo_utils.tcl] } then { source mambo_utils.tcl if { [info exists env(USER_MAP)] } { global user_symbol_map user_symbol_list set fp [open $env(USER_MAP) r] set user_symbol_map [read $fp] set user_symbol_list [split $user_symbol_map "\n"] close $fp } if { [info exists env(VMLINUX_MAP)] } { global linux_symbol_map linux_symbol_list set fp [open $env(VMLINUX_MAP) r] set linux_symbol_map [read $fp] set linux_symbol_list [split $linux_symbol_map "\n"] close $fp } if { [info exists env(SKIBOOT_MAP)] } { global skiboot_symbol_map skiboot_symbol_list set fp [open $env(SKIBOOT_MAP) r] set skiboot_symbol_map [read $fp] set skiboot_symbol_list [split $skiboot_symbol_map "\n"] close $fp } } # # Instanciate xscom # set xscom_base 0x1A0000000000 mysim xscom create $xscom_base # Setup bogus IO if { $mconf(rootdisk) != "none" } { # Now load the bogus disk image switch $mconf(rootdisk_cow) { none { mysim bogus disk init 0 $mconf(rootdisk) rw puts "bogusdisk initialized for $mconf(rootdisk)" } default { mysim bogus disk init 0 $mconf(rootdisk) \ $mconf(rootdisk_cow_method) \ $mconf(rootdisk_cow) $mconf(rootdisk_cow_hash) } } } switch $mconf(net) { none { puts "No network support selected" } bogus - bogusnet { mysim bogus net init 0 $mconf(net_mac) $mconf(net_tapdev) } default { error "Bad net \[none | bogus]: $mconf(net)" } } # Device tree fixups set root_node [mysim of find_device "/"] mysim of addprop $root_node string "epapr-version" "ePAPR-1.0" mysim of setprop $root_node "compatible" "ibm,powernv" set cpus_node [mysim of find_device "/cpus"] mysim of addprop $cpus_node int "#address-cells" 1 mysim of addprop $cpus_node int "#size-cells" 0 set mem0_node [mysim of find_device "/memory@0"] mysim of addprop $mem0_node int "ibm,chip-id" 0 set xscom_node [ mysim of addchild $root_node xscom [format %x $xscom_base]] set reg [list $xscom_base 0x10000000] mysim of addprop $xscom_node array64 "reg" reg mysim of addprop $xscom_node empty "scom-controller" "" mysim of addprop $xscom_node int "ibm,chip-id" 0 mysim of addprop $xscom_node int "#address-cells" 1 mysim of addprop $xscom_node int "#size-cells" 1 set compat [list] lappend compat "ibm,xscom" lappend compat "ibm,power8-xscom" set compat [of::encode_compat $compat] mysim of addprop $xscom_node byte_array "compatible" $compat set chosen_node [mysim of find_device /chosen] set base_addr [list $mconf(payload_addr)] mysim of addprop $chosen_node array64 "kernel-base-address" base_addr # Load any initramfs set cpio_start 0x80000000 set cpio_end $cpio_start set cpio_size 0 if { [info exists env(SKIBOOT_INITRD)] } { set cpios [split $env(SKIBOOT_INITRD) ","] foreach cpio_file $cpios { set cpio_file [string trim $cpio_file] set cpio_size [file size $cpio_file] mysim mcm 0 memory fread $cpio_end $cpio_size $cpio_file set cpio_end [expr $cpio_end + $cpio_size] # Linux requires cpios are 4 byte aligned set cpio_end [expr $cpio_end + 3 & 0xfffffffffffffffc] } mysim of addprop $chosen_node int "linux,initrd-start" $cpio_start mysim of addprop $chosen_node int "linux,initrd-end" $cpio_end } # Map persistent memory disks proc pmem_node_add { root start size } { set start_hex [format %x $start] set node [mysim of addchild $root "pmem@$start_hex" ""] set reg [list [expr $start >> 32] [expr $start & 0xffffffff] [expr $size >> 32] [expr $size & 0xffffffff] ] mysim of addprop $node array "reg" reg mysim of addprop $node string "compatible" "pmem-region" mysim of addprop $node empty "volatile" "1" mysim of addprop $node int "ibm,chip-id" 0 return [expr $start + $size] } set pmem_files "" if { [info exists env(PMEM_DISK)] } { set pmem_files [split $env(PMEM_DISK) ","] } set pmem_sizes "" if { [info exists env(PMEM_VOLATILE)] } { set pmem_sizes [split $env(PMEM_VOLATILE) ","] } set pmem_modes "" if { [info exists env(PMEM_MODE)] } { set pmem_modes [split $env(PMEM_MODE) ","] } set pmem_root [mysim of addchild $root_node "pmem" ""] mysim of addprop $pmem_root int "#address-cells" 2 mysim of addprop $pmem_root int "#size-cells" 2 mysim of addprop $pmem_root empty "ranges" "" # Start above where XICS normally is at 0x1A0000000000 set pmem_start [expr 0x20000000000] set pmem_file_ix 0 foreach pmem_file $pmem_files { # PMEM_DISK set pmem_file [string trim $pmem_file] set pmem_size [file size $pmem_file] if { [expr [llength $pmem_modes] > $pmem_file_ix] } { set pmem_mode [lindex $pmem_modes $pmem_file_ix] } else { set pmem_mode "rw" } if {[catch {mysim memory mmap $pmem_start $pmem_size $pmem_file $pmem_mode} err]} { puts "ERROR: pmem: 'mysim mmap' $err" exit } set pmem_start [pmem_node_add $pmem_root $pmem_start $pmem_size] set pmem_file_ix [expr $pmem_file_ix + 1] } foreach pmem_size $pmem_sizes { # PMEM_VOLATILE set pmem_start [pmem_node_add $pmem_root $pmem_start $pmem_size] } # Default NVRAM is blank and will be formatted by Skiboot if no file is provided set fake_nvram_start $cpio_end set fake_nvram_size 0x40000 # Load any fake NVRAM file if provided if { [info exists env(SKIBOOT_NVRAM)] } { # Set up and write NVRAM file set fake_nvram_file $env(SKIBOOT_NVRAM) set fake_nvram_size [file size $fake_nvram_file] mysim mcm 0 memory fread $fake_nvram_start $fake_nvram_size $fake_nvram_file } # Add device tree entry for NVRAM set reserved_memory [mysim of addchild $root_node "reserved-memory" ""] mysim of addprop $reserved_memory int "#size-cells" 2 mysim of addprop $reserved_memory int "#address-cells" 2 mysim of addprop $reserved_memory empty "ranges" "" set cvc_code_start [expr $fake_nvram_start + $fake_nvram_size] set cvc_code_end $cvc_code_start set cvc_code_size 0 if { [info exists env(SKIBOOT_CVC_CODE)] } { set cvc_file $env(SKIBOOT_CVC_CODE) set cvc_code_size [file size $cvc_file] mysim mcm 0 memory fread $cvc_code_start $cvc_code_size $cvc_file set cvc_code_end [expr $cvc_code_start + $cvc_code_size] # Set up Device Tree for Container Verification Code set hb [mysim of addchild $root_node "ibm,hostboot" ""] set hb_reserved_memory [mysim of addchild $hb "reserved-memory" ""] mysim of addprop $hb_reserved_memory int "#address-cells" 2 mysim of addprop $hb_reserved_memory int "#size-cells" 2 set hb_cvc_code_node [mysim of addchild $hb_reserved_memory "ibm,secure-crypt-algo-code" [format %x $cvc_code_start]] set reg [list $cvc_code_start $cvc_code_size] mysim of addprop $hb_cvc_code_node array64 "reg" reg mysim of addprop $hb_cvc_code_node empty "name" "ibm,secure-crypt-algo-code" set cvc_code_node [mysim of addchild $reserved_memory "ibm,secure-crypt-algo-code" [format %x $cvc_code_start]] set reg [list $cvc_code_start $cvc_code_size] mysim of addprop $cvc_code_node array64 "reg" reg mysim of addprop $cvc_code_node empty "name" "ibm,secure-crypt-algo-code" } set initramfs_res [mysim of addchild $reserved_memory "initramfs" ""] set reg [list $cpio_start $cpio_size ] mysim of addprop $initramfs_res array64 "reg" reg mysim of addprop $initramfs_res empty "name" "initramfs" set fake_nvram_node [mysim of addchild $reserved_memory "ibm,fake-nvram" ""] set reg [list $fake_nvram_start $fake_nvram_size ] mysim of addprop $fake_nvram_node array64 "reg" reg mysim of addprop $fake_nvram_node empty "name" "ibm,fake-nvram" set opal_node [mysim of addchild $root_node "ibm,opal" ""] # Allow P9/P10 to use all idle states if { $default_config == "P9" || $default_config == "P10" } { set power_mgt_node [mysim of addchild $opal_node "power-mgt" ""] mysim of addprop $power_mgt_node int "ibm,enabled-stop-levels" 0xffffffff } proc add_feature_node { parent name { value 1 } } { if { $value != 1 } { set value "disabled" } else { set value "enabled" } set np [mysim of addchild $parent $name ""] mysim of addprop $np empty $value "" } set np [mysim of addchild $opal_node "fw-features" ""] add_feature_node $np "speculation-policy-favor-security" $mconf(speculation_policy_favor_security) add_feature_node $np "needs-l1d-flush-msr-hv-1-to-0" $mconf(needs_l1d_flush_msr_hv) add_feature_node $np "needs-l1d-flush-msr-pr-0-to-1" $mconf(needs_l1d_flush_msr_pr) add_feature_node $np "fw-l1d-thread-split" $mconf(fw_l1d_thread_split) add_feature_node $np "needs-spec-barrier-for-bound-checks" $mconf(needs_spec_barrier) add_feature_node $np "fw-bcctrl-serialized" $mconf(fw_bcctrl_serialized) add_feature_node $np "fw-count-cache-disabled" $mconf(fw_count_cache_disabled) add_feature_node $np "needs-count-cache-flush-on-context-switch" $mconf(needs_count_cache_flush) add_feature_node $np "fw-count-cache-flush-bcctr2,0,0" $mconf(fw_count_cache_flush_assist) add_feature_node $np "inst-spec-barrier-ori31,31,0" $mconf(inst_spec_barrier_ori31) add_feature_node $np "inst-l1d-flush-trig2" $mconf(inst_l1d_flush_trig2) add_feature_node $np "inst-l1d-flush-ori30,30,0" $mconf(inst_l1d_flush_ori30) # Init CPUs set pir 0 set pirmax [expr $mconf(cpus) * $mconf(threads)] set pirbits [expr int(ceil(log($pirmax) / log (16)))] for { set c 0 } { $c < $mconf(cpus) } { incr c } { set p [format "%0${pirbits}x" $pir] set cpu_node [mysim of find_device "/cpus/PowerPC@$p"] mysim of addprop $cpu_node int "ibm,pir" $pir set reg [list 0x0000001c00000028 0xffffffffffffffff] mysim of addprop $cpu_node array64 "ibm,processor-segment-sizes" reg mysim of addprop $cpu_node int "ibm,chip-id" $c # Create a chip node to tell skiboot to create another chip for this CPU. # This bubbles up to Linux which will then see a new chip (aka nid). # For chip 0 the xscom node above has already definied chip 0, so skip it. if { $c > 0 } { set node [mysim of addchild $root_node "mambo-chip" [format %x $c]] mysim of addprop $node int "ibm,chip-id" $c mysim of addprop $node string "compatible" "ibm,mambo-chip" if { $mconf(numa) } { set shift [myconf query memory_region_id_shift] set addr [format %lx [expr (1 << $shift) * $c]] set node [mysim of find_device "/memory@$addr"] mysim of addprop $node int "ibm,chip-id" $c } } set reg {} lappend reg 0x0000000c 0x00000010 0x00000018 0x00000022 mysim of addprop $cpu_node array "ibm,processor-page-sizes" reg set reg {} lappend reg 0x0c 0x000 3 0x0c 0x0000 ;# 4K seg 4k pages lappend reg 0x10 0x0007 ;# 4K seg 64k pages lappend reg 0x18 0x0038 ;# 4K seg 16M pages lappend reg 0x10 0x110 2 0x10 0x0001 ;# 64K seg 64k pages lappend reg 0x18 0x0008 ;# 64K seg 16M pages lappend reg 0x18 0x100 1 0x18 0x0000 ;# 16M seg 16M pages lappend reg 0x22 0x120 1 0x22 0x0003 ;# 16G seg 16G pages mysim of addprop $cpu_node array "ibm,segment-page-sizes" reg if { $default_config == "P9" || $default_config == "P10" } { # Set actual page size encodings set reg {} # 4K pages lappend reg 0x0000000c # 64K pages lappend reg 0xa0000010 # 2M pages lappend reg 0x20000015 # 1G pages lappend reg 0x4000001e mysim of addprop $cpu_node array "ibm,processor-radix-AP-encodings" reg set reg {} # POWER9 PAPR defines upto bytes 62-63 # POWER10 PAPR defines upto byte 64-65 # header + bytes 0-5 if { $default_config == "P9" } { lappend reg 0x4000f63fc70080c0 } else { lappend reg 0x4200f63fc70080c0 } # bytes 6-13 lappend reg 0x8000000000000000 # bytes 14-21 lappend reg 0x0000800080008000 # bytes 22-29 22/23=TM lappend reg 0x0000800080008000 # bytes 30-37 lappend reg 0x80008000C0008000 # bytes 38-45 40/41=radix lappend reg 0x8000800080008000 # bytes 46-55 lappend reg 0x8000800080008000 # bytes 54-61 58/59=seg tbl lappend reg 0x8000800080008000 # bytes 62-69 64/65=DAWR1(P10 only) if { $default_config == "P9" } { lappend reg 0x8000000000000000 } else { lappend reg 0x8000800000000000 } mysim of addprop $cpu_node array64 "ibm,pa-features" reg } else { set reg {} lappend reg 0x6000f63fc70080c0 mysim of addprop $cpu_node array64 "ibm,pa-features" reg } if { $default_config == "P10" } { mysim of addprop $cpu_node int "ibm,mmu-pid-bits" 20 mysim of addprop $cpu_node int "ibm,mmu-lpid-bits" 12 } set irqreg [list] for { set t 0 } { $t < $mconf(threads) } { incr t } { mysim mcm 0 cpu $c thread $t set spr pc $mconf(boot_pc) mysim mcm 0 cpu $c thread $t set gpr 3 $mconf(epapr_dt_addr) mysim mcm 0 cpu $c thread $t config_on mysim mcm 0 cpu $c thread $t set spr pir $pir lappend irqreg $pir incr pir } mysim of addprop $cpu_node array "ibm,ppc-interrupt-server#s" irqreg } #Add In-Memory Collection Counter nodes if { $default_config == "P9" || $default_config == "P10" } { #Add the base node "imc-counters" set imc_c [mysim of addchild $root_node "imc-counters" ""] mysim of addprop $imc_c string "compatible" "ibm,opal-in-memory-counters" mysim of addprop $imc_c int "#address-cells" 1 mysim of addprop $imc_c int "#size-cells" 1 mysim of addprop $imc_c int "version-id" 1 #Add a common mcs event node set mcs_et [mysim of addchild $imc_c "nest-mcs-events" ""] mysim of addprop $mcs_et int "#address-cells" 1 mysim of addprop $mcs_et int "#size-cells" 1 #Add a event set et [mysim of addchild $mcs_et event [format %x 0]] mysim of addprop $et string "event-name" "64B_RD_OR_WR_DISP_PORT01" mysim of addprop $et string "unit" "MiB/s" mysim of addprop $et string "scale" "4" mysim of addprop $et int "reg" 0 #Add a event set et [mysim of addchild $mcs_et event [format %x 1]] mysim of addprop $et string "event-name" "64B_WR_DISP_PORT01" mysim of addprop $et string "unit" "MiB/s" mysim of addprop $et int "reg" 40 #Add a event set et [mysim of addchild $mcs_et event [format %x 2]] mysim of addprop $et string "event-name" "64B_RD_DISP_PORT01" mysim of addprop $et string "scale" "100" mysim of addprop $et int "reg" 64 #Add a event set et [mysim of addchild $mcs_et event [format %x 3]] mysim of addprop $et string "event-name" "64B_XX_DISP_PORT01" mysim of addprop $et int "reg" 32 #Add a mcs device node set mcs_01 [mysim of addchild $imc_c "mcs01" ""] mysim of addprop $mcs_01 string "compatible" "ibm,imc-counters" mysim of addprop $mcs_01 string "events-prefix" "PM_MCS01_" mysim of addprop $mcs_01 int "reg" 65536 mysim of addprop $mcs_01 int "size" 262144 mysim of addprop $mcs_01 int "offset" 1572864 mysim of addprop $mcs_01 int "events" $mcs_et mysim of addprop $mcs_01 int "type" 16 mysim of addprop $mcs_01 string "unit" "KiB/s" mysim of addprop $mcs_01 string "scale" "8" #Add a common core event node set ct_et [mysim of addchild $imc_c "core-thread-events" ""] mysim of addprop $ct_et int "#address-cells" 1 mysim of addprop $ct_et int "#size-cells" 1 #Add a event set cet [mysim of addchild $ct_et event [format %x 200]] mysim of addprop $cet string "event-name" "0THRD_NON_IDLE_PCYC" mysim of addprop $cet string "desc" "The number of processor cycles when all threads are idle" mysim of addprop $cet int "reg" 200 #Add a core device node set core [mysim of addchild $imc_c "core" ""] mysim of addprop $core string "compatible" "ibm,imc-counters" mysim of addprop $core string "events-prefix" "CPM_" mysim of addprop $core int "reg" 24 mysim of addprop $core int "size" 8192 mysim of addprop $core string "scale" "512" mysim of addprop $core int "events" $ct_et mysim of addprop $core int "type" 4 #Add a thread device node set thread [mysim of addchild $imc_c "thread" ""] mysim of addprop $thread string "compatible" "ibm,imc-counters" mysim of addprop $thread string "events-prefix" "CPM_" mysim of addprop $thread int "reg" 24 mysim of addprop $thread int "size" 8192 mysim of addprop $thread string "scale" "512" mysim of addprop $thread int "events" $ct_et mysim of addprop $thread int "type" 1 #Add a common trace event node set tr_et [mysim of addchild $imc_c "trace-events" ""] mysim of addprop $tr_et int "#address-cells" 1 mysim of addprop $tr_et int "#size-cells" 1 #Add an event set tr [mysim of addchild $tr_et event [format 10200000]] mysim of addprop $tr string "event-name" "cycles" mysim of addprop $tr string "desc" "Reference cycles" mysim of addprop $tr int "reg" 0x10200000 #Add a trace device node set trace [mysim of addchild $imc_c "trace" ""] mysim of addprop $trace string "compatible" "ibm,imc-counters" mysim of addprop $trace string "events-prefix" "trace_" mysim of addprop $trace int "reg" 0 mysim of addprop $trace int "size" 262144 mysim of addprop $trace int "events" $tr_et mysim of addprop $trace int "type" 2 } mconfig enable_stb SKIBOOT_ENABLE_MAMBO_STB 0 if { [info exists env(SKIBOOT_ENABLE_MAMBO_STB)] } { set stb_node [ mysim of addchild $root_node "ibm,secureboot" "" ] # For P8 we still use the softrom emulation if { $default_config == "PEGASUS" || ! [info exists env(SKIBOOT_CVC_CODE)] } { mysim of addprop $stb_node string "compatible" "ibm,secureboot-v1-softrom" } else { # on P9 we can use the real CVC mysim of addprop $stb_node string "compatible" "ibm,secureboot-v2" } # mysim of addprop $stb_node string "secure-enabled" "" mysim of addprop $stb_node string "trusted-enabled" "" mysim of addprop $stb_node string "hash-algo" "sha512" mysim of addprop $stb_node int "hw-key-hash-size" 64 set hw_key_hash {} lappend hw_key_hash 0x40d487ff lappend hw_key_hash 0x7380ed6a lappend hw_key_hash 0xd54775d5 lappend hw_key_hash 0x795fea0d lappend hw_key_hash 0xe2f541fe lappend hw_key_hash 0xa9db06b8 lappend hw_key_hash 0x466a42a3 lappend hw_key_hash 0x20e65f75 lappend hw_key_hash 0xb4866546 lappend hw_key_hash 0x0017d907 lappend hw_key_hash 0x515dc2a5 lappend hw_key_hash 0xf9fc5095 lappend hw_key_hash 0x4d6ee0c9 lappend hw_key_hash 0xb67d219d lappend hw_key_hash 0xfb708535 lappend hw_key_hash 0x1d01d6d1 mysim of addprop $stb_node array "hw-key-hash" hw_key_hash if { $default_config != "PEGASUS" && [info exists env(SKIBOOT_CVC_CODE)] } { set cvc_node [ mysim of addchild $stb_node "ibm,cvc" "" ] mysim of addprop $cvc_node string "compatible" "ibm,container-verification-code" mysim of addprop $cvc_node int "memory-region" $hb_cvc_code_node # I'm sure hardcoding these addresses will *never* cause us a problem... set sha_node [ mysim of addchild $cvc_node "ibm,cvc-service" [format %x 0x40]] mysim of addprop $sha_node string "name" "ibm,cvc-service" mysim of addprop $sha_node string "compatible" "ibm,cvc-sha512" mysim of addprop $sha_node int "reg" 0x40 mysim of addprop $sha_node int "version" 1 set verify_node [ mysim of addchild $cvc_node "ibm,cvc-service" [format %x 0x50]] mysim of addprop $verify_node string "name" "ibm,cvc-service" mysim of addprop $verify_node string "compatible" "ibm,cvc-verify" mysim of addprop $verify_node int "reg" 0x50 mysim of addprop $verify_node int "version" 1 } } # Kernel command line args, appended to any from the device tree # e.g.: of::set_bootargs "xmon" # # Can be set from the environment by setting LINUX_CMDLINE. of::set_bootargs $mconf(linux_cmdline) # Load images set boot_size [file size $mconf(boot_image)] mysim memory fread $mconf(boot_load) $boot_size $mconf(boot_image) set payload_size [file size $mconf(payload)] mysim memory fread $mconf(payload_addr) $payload_size $mconf(payload) set available_space [expr $mconf(boot_load) - $mconf(payload_addr)] if { $payload_size > $available_space } { set overflow [expr $payload_size - $available_space] error "vmlinux is too large by $overflow bytes ($payload_size > $available_space), consider adjusting PAYLOAD_ADDR" } # Flatten it epapr::of2dtb mysim $mconf(epapr_dt_addr) # Set run speed mysim mode fastest if { [info exists env(GDB_SERVER)] } { mysim debugger wait $env(GDB_SERVER) } if { [info exists env(SKIBOOT_AUTORUN)] } { if [catch { mysim go }] { readline } } else { readline } if { [info exists env(SKIBOOT_AUTORUN)] && $env(SKIBOOT_AUTORUN) == 2 } { quit }