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/* Copyright 2013-2014 IBM Corp.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
* implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <skiboot.h>
#include <cpu.h>
#include <fsp.h>
#include <psi.h>
#include <opal.h>
#include <xscom.h>
#include <interrupts.h>
#include <cec.h>
#include <timebase.h>
#include <pci.h>
#include <chip.h>
#include <chiptod.h>
#include <ipmi.h>
#define P8_EX_TCTL_DIRECT_CONTROLS(t) (0x10013000 + (t) * 0x10)
#define P8_DIRECT_CTL_STOP PPC_BIT(63)
#define P8_DIRECT_CTL_PRENAP PPC_BIT(47)
#define P8_DIRECT_CTL_SRESET PPC_BIT(60)
/* Flag tested by the OPAL entry code */
uint8_t reboot_in_progress;
static volatile bool fast_boot_release;
static struct cpu_thread *last_man_standing;
static struct lock reset_lock = LOCK_UNLOCKED;
static int set_special_wakeup(struct cpu_thread *cpu)
{
uint64_t val, poll_target, stamp;
uint32_t core_id;
int rc;
/*
* Note: HWP checks for checkstops, but I assume we don't need to
* as we wouldn't be running if one was present
*/
/* Grab core ID once */
core_id = pir_to_core_id(cpu->pir);
prlog(PR_DEBUG, "RESET Waking up core 0x%x\n", core_id);
if (chip_quirk(QUIRK_MAMBO_CALLOUTS))
return OPAL_SUCCESS;
/*
* The original HWp reads the XSCOM first but ignores the result
* and error, let's do the same until I know for sure that is
* not necessary
*/
xscom_read(cpu->chip_id,
XSCOM_ADDR_P8_EX_SLAVE(core_id, EX_PM_SPECIAL_WAKEUP_PHYP),
&val);
/* Then we write special wakeup */
rc = xscom_write(cpu->chip_id,
XSCOM_ADDR_P8_EX_SLAVE(core_id,
EX_PM_SPECIAL_WAKEUP_PHYP),
PPC_BIT(0));
if (rc) {
prerror("RESET: XSCOM error %d asserting special"
" wakeup on 0x%x\n", rc, cpu->pir);
return rc;
}
/*
* HWP uses the history for Perf register here, dunno why it uses
* that one instead of the pHyp one, maybe to avoid clobbering it...
*
* In any case, it does that to check for run/nap vs.sleep/winkle/other
* to decide whether to poll on checkstop or not. Since we don't deal
* with checkstop conditions here, we ignore that part.
*/
/*
* Now poll for completion of special wakeup. The HWP is nasty here,
* it will poll at 5ms intervals for up to 200ms. This is not quite
* acceptable for us at runtime, at least not until we have the
* ability to "context switch" HBRT. In practice, because we don't
* winkle, it will never take that long, so we increase the polling
* frequency to 1us per poll. However we do have to keep the same
* timeout.
*
* We don't use time_wait_ms() either for now as we don't want to
* poll the FSP here.
*/
stamp = mftb();
poll_target = stamp + msecs_to_tb(200);
val = 0;
while (!(val & EX_PM_GP0_SPECIAL_WAKEUP_DONE)) {
/* Wait 1 us */
time_wait_us(1);
/* Read PM state */
rc = xscom_read(cpu->chip_id,
XSCOM_ADDR_P8_EX_SLAVE(core_id, EX_PM_GP0),
&val);
if (rc) {
prerror("RESET: XSCOM error %d reading PM state on"
" 0x%x\n", rc, cpu->pir);
return rc;
}
/* Check timeout */
if (mftb() > poll_target)
break;
}
/* Success ? */
if (val & EX_PM_GP0_SPECIAL_WAKEUP_DONE) {
uint64_t now = mftb();
prlog(PR_TRACE, "RESET: Special wakeup complete after %ld us\n",
tb_to_usecs(now - stamp));
return 0;
}
/*
* We timed out ...
*
* HWP has a complex workaround for HW255321 which affects
* Murano DD1 and Venice DD1. Ignore that for now
*
* Instead we just dump some XSCOMs for error logging
*/
prerror("RESET: Timeout on special wakeup of 0x%0x\n", cpu->pir);
prerror("RESET: PM0 = 0x%016llx\n", val);
val = -1;
xscom_read(cpu->chip_id,
XSCOM_ADDR_P8_EX_SLAVE(core_id, EX_PM_SPECIAL_WAKEUP_PHYP),
&val);
prerror("RESET: SPC_WKUP = 0x%016llx\n", val);
val = -1;
xscom_read(cpu->chip_id,
XSCOM_ADDR_P8_EX_SLAVE(core_id,
EX_PM_IDLE_STATE_HISTORY_PHYP),
&val);
prerror("RESET: HISTORY = 0x%016llx\n", val);
return OPAL_HARDWARE;
}
static int clr_special_wakeup(struct cpu_thread *cpu)
{
uint64_t val;
uint32_t core_id;
int rc;
/*
* Note: HWP checks for checkstops, but I assume we don't need to
* as we wouldn't be running if one was present
*/
/* Grab core ID once */
core_id = pir_to_core_id(cpu->pir);
prlog(PR_DEBUG, "RESET: Releasing core 0x%x wakeup\n", core_id);
if (chip_quirk(QUIRK_MAMBO_CALLOUTS))
return OPAL_SUCCESS;
/*
* The original HWp reads the XSCOM first but ignores the result
* and error, let's do the same until I know for sure that is
* not necessary
*/
xscom_read(cpu->chip_id,
XSCOM_ADDR_P8_EX_SLAVE(core_id, EX_PM_SPECIAL_WAKEUP_PHYP),
&val);
/* Then we write special wakeup */
rc = xscom_write(cpu->chip_id,
XSCOM_ADDR_P8_EX_SLAVE(core_id,
EX_PM_SPECIAL_WAKEUP_PHYP), 0);
if (rc) {
prerror("RESET: XSCOM error %d deasserting"
" special wakeup on 0x%x\n", rc, cpu->pir);
return rc;
}
/*
* The original HWp reads the XSCOM again with the comment
* "This puts an inherent delay in the propagation of the reset
* transition"
*/
xscom_read(cpu->chip_id,
XSCOM_ADDR_P8_EX_SLAVE(core_id, EX_PM_SPECIAL_WAKEUP_PHYP),
&val);
return 0;
}
extern unsigned long callthru_tcl(const char *str, int len);
static void set_direct_ctl(struct cpu_thread *cpu, uint64_t bits)
{
uint32_t core_id = pir_to_core_id(cpu->pir);
uint32_t chip_id = pir_to_chip_id(cpu->pir);
uint32_t thread_id = pir_to_thread_id(cpu->pir);
uint32_t xscom_addr;
char tcl_cmd[50];
if (chip_quirk(QUIRK_MAMBO_CALLOUTS)) {
if (bits != P8_DIRECT_CTL_SRESET)
return;
snprintf(tcl_cmd, sizeof(tcl_cmd), "mysim cpu %i:%i set spr pc 0x100", core_id, thread_id);
callthru_tcl(tcl_cmd, strlen(tcl_cmd));
return;
}
xscom_addr = XSCOM_ADDR_P8_EX(core_id,
P8_EX_TCTL_DIRECT_CONTROLS(thread_id));
xscom_write(chip_id, xscom_addr, bits);
}
static bool fast_reset_p8(void)
{
struct cpu_thread *cpu;
/* Mark ourselves as last man standing in need of a reset */
last_man_standing = this_cpu();
prlog(PR_DEBUG, "RESET: Resetting from cpu: 0x%x (core 0x%x)\n",
this_cpu()->pir, pir_to_core_id(this_cpu()->pir));
/* Assert special wakup on all cores. Only on operational cores. */
for_each_cpu(cpu) {
/* GARDed CPUs are marked unavailable. Skip them. */
if (cpu->state == cpu_state_unavailable)
continue;
if (cpu->primary == cpu)
if (set_special_wakeup(cpu) != OPAL_SUCCESS)
return false;
}
prlog(PR_DEBUG, "RESET: Stopping the world...\n");
/* Put everybody in stop except myself */
for_each_cpu(cpu) {
/* GARDed CPUs are marked unavailable. Skip them. */
if (cpu->state == cpu_state_unavailable)
continue;
if (cpu != this_cpu())
set_direct_ctl(cpu, P8_DIRECT_CTL_STOP);
/* Also make sure that saved_r1 is 0 ! That's what will
* make our reset vector jump to fast_reboot_entry
*/
cpu->save_r1 = 0;
}
/* Restore skiboot vectors */
copy_exception_vectors();
setup_reset_vector();
prlog(PR_DEBUG, "RESET: Pre-napping all threads but one...\n");
/* Put everybody in pre-nap except myself */
for_each_cpu(cpu) {
/* GARDed CPUs are marked unavailable. Skip them. */
if (cpu->state == cpu_state_unavailable)
continue;
if (cpu != this_cpu())
set_direct_ctl(cpu, P8_DIRECT_CTL_PRENAP);
}
prlog(PR_DEBUG, "RESET: Resetting all threads but one...\n");
/* Reset everybody except my own core threads */
for_each_cpu(cpu) {
/* GARDed CPUs are marked unavailable. Skip them. */
if (cpu->state == cpu_state_unavailable)
continue;
if (cpu != this_cpu())
set_direct_ctl(cpu, P8_DIRECT_CTL_SRESET);
}
return true;
}
extern void *fdt;
extern struct lock capi_lock;
static const char *fast_reboot_disabled = NULL;
static struct lock fast_reboot_disabled_lock = LOCK_UNLOCKED;
void disable_fast_reboot(const char *reason)
{
lock(&fast_reboot_disabled_lock);
fast_reboot_disabled = reason;
unlock(&fast_reboot_disabled_lock);
}
void fast_reboot(void)
{
bool success;
static int fast_reboot_count = 0;
if (proc_gen != proc_gen_p8) {
prlog(PR_DEBUG,
"RESET: Fast reboot not available on this CPU\n");
return;
}
if (chip_quirk(QUIRK_NO_DIRECT_CTL)) {
prlog(PR_DEBUG,
"RESET: Fast reboot disabled by quirk\n");
return;
}
lock(&fast_reboot_disabled_lock);
if (fast_reboot_disabled) {
prlog(PR_DEBUG, "RESET: Fast reboot disabled because %s\n",
fast_reboot_disabled);
unlock(&fast_reboot_disabled_lock);
return;
}
unlock(&fast_reboot_disabled_lock);
prlog(PR_NOTICE, "RESET: Initiating fast reboot %d...\n", ++fast_reboot_count);
free(fdt);
/* XXX We need a way to ensure that no other CPU is in skiboot
* holding locks (via the OPAL APIs) and if they are, we need
* for them to get out. Hopefully that isn't happening, but...
*
* To fix this properly, we want to keep track of OPAL entry/exit
* on all CPUs.
*/
reboot_in_progress = 1;
time_wait_ms(200);
/* Lock so the new guys coming don't reset us */
lock(&reset_lock);
fast_boot_release = false;
success = fast_reset_p8();
/* Unlock, at this point we go away */
unlock(&reset_lock);
if (success) {
if (!next_cpu(first_cpu()))
/* Only 1 CPU, so fake reset ourselves */
asm volatile("ba 0x100 " : : : );
/* Don't return */
for (;;)
;
}
}
static void cleanup_cpu_state(void)
{
struct cpu_thread *cpu = this_cpu();
cpu->current_hile = false;
/* Per core cleanup */
if (cpu_is_thread0(cpu)) {
/* Shared SPRs whacked back to normal */
/* XXX Update the SLW copies ! Also dbl check HIDs etc... */
init_shared_sprs();
/* If somebody was in fast_sleep, we may have a workaround
* to undo
*/
if (cpu->in_fast_sleep) {
prlog(PR_DEBUG, "RESET: CPU 0x%04x in fast sleep"
" undoing workarounds...\n", cpu->pir);
fast_sleep_exit();
}
/* And we might have lost TB sync */
chiptod_wakeup_resync();
/* The TLB surely contains garbage */
cleanup_tlb();
}
/* Per-thread additional cleanup */
init_replicated_sprs();
// XXX Cleanup SLW, check HIDs ...
}
void __noreturn enter_nap(void);
static void check_split_core(void)
{
struct cpu_thread *cpu;
u64 mask, hid0;
hid0 = mfspr(SPR_HID0);
mask = SPR_HID0_POWER8_4LPARMODE | SPR_HID0_POWER8_2LPARMODE;
if ((hid0 & mask) == 0)
return;
prlog(PR_INFO, "RESET: CPU 0x%04x is split !\n", this_cpu()->pir);
/* If it's a secondary thread, just send it to nap */
if (this_cpu()->pir & 7) {
/* Prepare to be woken up */
icp_prep_for_pm();
/* Setup LPCR to wakeup on external interrupts only */
mtspr(SPR_LPCR, ((mfspr(SPR_LPCR) & ~SPR_LPCR_P8_PECE) |
SPR_LPCR_P8_PECE2));
/* Go to nap (doesn't return) */
enter_nap();
}
prlog(PR_INFO, "RESET: Primary, unsplitting... \n");
/* Trigger unsplit operation and update SLW image */
hid0 &= ~SPR_HID0_POWER8_DYNLPARDIS;
set_hid0(hid0);
opal_slw_set_reg(this_cpu()->pir, SPR_HID0, hid0);
/* Wait for unsplit */
while (mfspr(SPR_HID0) & mask)
cpu_relax();
/* Now the guys are sleeping, wake'em up. They will come back
* via reset and continue the fast reboot process normally.
* No need to wait.
*/
prlog(PR_INFO, "RESET: Waking unsplit secondaries... \n");
for_each_cpu(cpu) {
if (!cpu_is_sibling(cpu, this_cpu()) || (cpu == this_cpu()))
continue;
icp_kick_cpu(cpu);
}
}
/* Entry from asm after a fast reset */
void __noreturn fast_reboot_entry(void);
void __noreturn fast_reboot_entry(void)
{
struct cpu_thread *cpu;
prlog(PR_DEBUG, "RESET: CPU 0x%04x reset in\n", this_cpu()->pir);
time_wait_ms(100);
lock(&reset_lock);
if (last_man_standing && next_cpu(first_cpu())) {
prlog(PR_DEBUG, "RESET: last man standing fixup...\n");
set_direct_ctl(last_man_standing, P8_DIRECT_CTL_PRENAP);
set_direct_ctl(last_man_standing, P8_DIRECT_CTL_SRESET);
}
last_man_standing = NULL;
unlock(&reset_lock);
/* We reset our ICP first ! Otherwise we might get stray interrupts
* when unsplitting
*/
reset_cpu_icp();
/* If we are split, we need to unsplit. Since that can send us
* to NAP, which will come back via reset, we do it now
*/
check_split_core();
/* Are we the original boot CPU ? If not, we spin waiting
* for a relase signal from CPU 1, then we clean ourselves
* up and go processing jobs.
*/
if (this_cpu() != boot_cpu) {
this_cpu()->state = cpu_state_present;
while (!fast_boot_release) {
smt_very_low();
sync();
}
smt_medium();
cleanup_cpu_state();
__secondary_cpu_entry();
}
prlog(PR_INFO, "RESET: Boot CPU waiting for everybody...\n");
/* We are the original boot CPU, wait for secondaries to
* be captured.
*/
for_each_cpu(cpu) {
if (cpu == this_cpu())
continue;
/* GARDed CPUs are marked unavailable. Skip them. */
if (cpu->state == cpu_state_unavailable)
continue;
/* XXX Add a callin timeout ? */
while (cpu->state != cpu_state_present) {
smt_very_low();
sync();
}
smt_medium();
}
prlog(PR_INFO, "RESET: Releasing secondaries...\n");
/* Release everybody */
fast_boot_release = true;
sync();
/* Wait for them to respond */
for_each_cpu(cpu) {
if (cpu == this_cpu())
continue;
/* GARDed CPUs are marked unavailable. Skip them. */
if (cpu->state == cpu_state_unavailable)
continue;
/* XXX Add a callin timeout ? */
while (cpu->state == cpu_state_present) {
smt_very_low();
sync();
}
}
prlog(PR_DEBUG, "RESET: Releasing special wakeups...\n");
for_each_cpu(cpu) {
/* GARDed CPUs are marked unavailable. Skip them. */
if (cpu->state == cpu_state_unavailable)
continue;
if (cpu->primary == cpu)
clr_special_wakeup(cpu);
}
prlog(PR_INFO, "RESET: All done, cleaning up...\n");
/* Clear release flag for next time */
fast_boot_release = false;
reboot_in_progress = 0;
/* Cleanup ourselves */
cleanup_cpu_state();
/* Set our state to active */
this_cpu()->state = cpu_state_active;
/* We can now do NAP mode */
cpu_set_pm_enable(true);
/* Start preloading kernel and ramdisk */
start_preload_kernel();
/* Poke the consoles (see comments in the code there) */
fsp_console_reset();
/* Reset/EOI the PSI interrupt */
psi_irq_reset();
/* Remove all PCI devices */
pci_reset();
ipmi_set_fw_progress_sensor(IPMI_FW_PCI_INIT);
/* Load and boot payload */
load_and_boot_kernel(true);
}
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