[Skiboot] [PATCH v5 10/15] hw/phb3: Support PHB slot
Gavin Shan
gwshan at linux.vnet.ibm.com
Mon Apr 27 16:26:28 AEST 2015
The patch implements function phb3_slot_create() to create PHB3
slot, which is expected to be populated by platform when calling
to platform.pci_setup_phb() if applicable.
Signed-off-by: Gavin Shan <gwshan at linux.vnet.ibm.com>
---
hw/phb3.c | 681 +++++++++++++++++++++++----------------------------------
include/phb3.h | 53 +++--
2 files changed, 308 insertions(+), 426 deletions(-)
diff --git a/hw/phb3.c b/hw/phb3.c
index e2fa9ac..633179d 100644
--- a/hw/phb3.c
+++ b/hw/phb3.c
@@ -13,25 +13,13 @@
* See the License for the specific language governing permissions and
* limitations under the License.
*/
-/*
- * PHB3 support
- *
- */
-
-/*
- *
- * FIXME:
- * More stuff for EEH support:
- * - PBCQ error reporting interrupt
- * - I2C-based power management (replacing SHPC)
- * - Directly detect fenced PHB through one dedicated HW reg
- */
#include <skiboot.h>
#include <io.h>
#include <timebase.h>
-#include <pci.h>
#include <pci-cfg.h>
+#include <pci.h>
+#include <pci-slot.h>
#include <vpd.h>
#include <interrupts.h>
#include <opal.h>
@@ -87,19 +75,6 @@ static inline void phb3_ioda_sel(struct phb3 *p, uint32_t table,
SETFIELD(PHB_IODA_AD_TADR, 0ul, addr));
}
-/* Helper to set the state machine timeout */
-static inline uint64_t phb3_set_sm_timeout(struct phb3 *p, uint64_t dur)
-{
- uint64_t target, now = mftb();
-
- target = now + dur;
- if (target == 0)
- target++;
- p->delay_tgt_tb = target;
-
- return dur;
-}
-
/* Check if AIB is fenced via PBCQ NFIR */
static bool phb3_fenced(struct phb3 *p)
{
@@ -467,38 +442,6 @@ static int64_t phb3_pci_reinit(struct phb *phb, uint64_t scope, uint64_t data)
return OPAL_SUCCESS;
}
-static int64_t phb3_presence_detect(struct phb *phb)
-{
- struct phb3 *p = phb_to_phb3(phb);
- uint64_t hp_override;
-
- /* Test for PHB in error state ? */
- if (p->state == PHB3_STATE_BROKEN)
- return OPAL_HARDWARE;
-
- /* XXX Check bifurcation stuff ? */
-
- /* Read hotplug override */
- hp_override = in_be64(p->regs + PHB_HOTPLUG_OVERRIDE);
-
- PHBDBG(p, "hp_override: 0x%016llx\n", hp_override);
-
- /*
- * On P8, the slot status isn't wired up properly, we have to
- * use the hotplug override A/B bits.
- */
- if ((hp_override & PHB_HPOVR_PRESENCE_A) &&
- (hp_override & PHB_HPOVR_PRESENCE_B))
- return OPAL_SHPC_DEV_NOT_PRESENT;
-
- /*
- * Anything else, we assume device present, the link state
- * machine will perform an early bail out if no electrical
- * signaling is established after a second.
- */
- return OPAL_SHPC_DEV_PRESENT;
-}
-
/* Clear IODA cache tables */
static void phb3_init_ioda_cache(struct phb3 *p)
{
@@ -1817,128 +1760,141 @@ static int64_t phb3_set_peltv(struct phb *phb,
return OPAL_SUCCESS;
}
-static int64_t phb3_link_state(struct phb *phb)
+static void phb3_prepare_link_change(struct pci_slot *slot,
+ bool is_up)
{
- struct phb3 *p = phb_to_phb3(phb);
- uint64_t reg = in_be64(p->regs + PHB_PCIE_DLP_TRAIN_CTL);
- uint16_t lstat;
- int64_t rc;
+ struct phb3 *p = phb_to_phb3(slot->phb);
+ uint32_t reg32;
- /* XXX Test for PHB in error state ? */
+ p->has_link = is_up;
+ if (!is_up) {
+ /* Mask PCIE port interrupts */
+ out_be64(p->regs + UTL_PCIE_PORT_IRQ_EN,
+ 0xad42800000000000);
- /* Link is up, let's find the actual speed */
- if (!(reg & PHB_PCIE_DLP_TC_DL_LINKACT))
- return OPAL_SHPC_LINK_DOWN;
+ /* Mask AER receiver error */
+ phb3_pcicfg_read32(&p->phb, 0,
+ p->aercap + PCIECAP_AER_CE_MASK, ®32);
+ reg32 |= PCIECAP_AER_CE_RECVR_ERR;
+ phb3_pcicfg_write32(&p->phb, 0,
+ p->aercap + PCIECAP_AER_CE_MASK, reg32);
- rc = phb3_pcicfg_read16(&p->phb, 0, p->ecap + PCICAP_EXP_LSTAT,
- &lstat);
- if (rc < 0) {
- /* Shouldn't happen */
- PHBERR(p, "Failed to read link status\n");
- return OPAL_HARDWARE;
- }
- if (!(lstat & PCICAP_EXP_LSTAT_DLLL_ACT))
- return OPAL_SHPC_LINK_DOWN;
+ /* Block PCI-CFG access */
+ p->flags |= PHB3_CFG_BLOCKED;
+ } else {
+ /* Clear AER receiver error status */
+ phb3_pcicfg_write32(&p->phb, 0,
+ p->aercap + PCIECAP_AER_CE_STATUS,
+ PCIECAP_AER_CE_RECVR_ERR);
+
+ /* Unmask receiver error status in AER */
+ phb3_pcicfg_read32(&p->phb, 0,
+ p->aercap + PCIECAP_AER_CE_MASK, ®32);
+ reg32 &= ~PCIECAP_AER_CE_RECVR_ERR;
+ phb3_pcicfg_write32(&p->phb, 0,
+ p->aercap + PCIECAP_AER_CE_MASK, reg32);
+
+ /* Clear spurrious errors and enable PCIE port interrupts */
+ out_be64(p->regs + UTL_PCIE_PORT_STATUS,
+ 0xffdfffffffffffff);
+ out_be64(p->regs + UTL_PCIE_PORT_IRQ_EN,
+ 0xad5a800000000000);
+
+ /* Don't block PCI-CFG */
+ p->flags &= ~PHB3_CFG_BLOCKED;
- return GETFIELD(PCICAP_EXP_LSTAT_WIDTH, lstat);
+ /*
+ * We might lose the bus numbers in the reset and we need
+ * restore the bus numbers. Otherwise, some adpaters (e.g.
+ * IPR) can't be probed properly by kernel. We don't need
+ * restore bus numbers for all kinds of resets. However,
+ * it's not harmful to restore the bus numbers, which makes
+ * the logic simplified
+ */
+ pci_restore_bridge_buses(&p->phb, NULL);
+ }
}
-static int64_t phb3_power_state(struct phb __unused *phb)
+static int64_t phb3_get_presence_status(struct pci_slot *slot,
+ uint8_t *val)
{
- /* XXX Test for PHB in error state ? */
-
- /* XXX TODO - External power control ? */
-
- return OPAL_SHPC_POWER_ON;
-}
+ struct phb3 *p = phb_to_phb3(slot->phb);
+ uint64_t hp_override;
-static int64_t phb3_slot_power_off(struct phb *phb)
-{
- struct phb3 *p = phb_to_phb3(phb);
+ /* By default, there's nothing connected */
+ *val = 0;
+ /* Test for PHB in error state ? */
if (p->state == PHB3_STATE_BROKEN)
return OPAL_HARDWARE;
- if (p->state != PHB3_STATE_FUNCTIONAL)
- return OPAL_BUSY;
-
- /* XXX TODO - External power control ? */
-
- return OPAL_SUCCESS;
-}
-
-static int64_t phb3_slot_power_on(struct phb *phb)
-{
- struct phb3 *p = phb_to_phb3(phb);
- if (p->state == PHB3_STATE_BROKEN)
- return OPAL_HARDWARE;
- if (p->state != PHB3_STATE_FUNCTIONAL)
- return OPAL_BUSY;
+ /*
+ * On P8, the slot status isn't wired up properly, we have to
+ * use the hotplug override A/B bits.
+ */
+ hp_override = in_be64(p->regs + PHB_HOTPLUG_OVERRIDE);
+ if ((hp_override & PHB_HPOVR_PRESENCE_A) &&
+ (hp_override & PHB_HPOVR_PRESENCE_B))
+ return OPAL_SUCCESS;
- /* XXX TODO - External power control ? */
+ /*
+ * Anything else, we assume device present, the link state
+ * machine will perform an early bail out if no electrical
+ * signaling is established after a second.
+ */
+ *val = 1;
return OPAL_SUCCESS;
}
-static void phb3_setup_for_link_down(struct phb3 *p)
+static int64_t phb3_get_link_status(struct pci_slot *slot,
+ uint8_t *val)
{
- uint32_t reg32;
-
- /* Mark link down */
- p->has_link = false;
-
- /* Mask PCIE port interrupts */
- out_be64(p->regs + UTL_PCIE_PORT_IRQ_EN, 0xad42800000000000);
-
- /* Mask AER receiver error */
- phb3_pcicfg_read32(&p->phb, 0, p->aercap + PCIECAP_AER_CE_MASK, ®32);
- reg32 |= PCIECAP_AER_CE_RECVR_ERR;
- phb3_pcicfg_write32(&p->phb, 0, p->aercap + PCIECAP_AER_CE_MASK, reg32);
-}
-
-static void phb3_setup_for_link_up(struct phb3 *p)
-{
- uint32_t reg32;
-
- /* Clear AER receiver error status */
- phb3_pcicfg_write32(&p->phb, 0, p->aercap + PCIECAP_AER_CE_STATUS,
- PCIECAP_AER_CE_RECVR_ERR);
- /* Unmask receiver error status in AER */
- phb3_pcicfg_read32(&p->phb, 0, p->aercap + PCIECAP_AER_CE_MASK, ®32);
- reg32 &= ~PCIECAP_AER_CE_RECVR_ERR;
- phb3_pcicfg_write32(&p->phb, 0, p->aercap + PCIECAP_AER_CE_MASK, reg32);
-
- /* Clear spurrious errors and enable PCIE port interrupts */
- out_be64(p->regs + UTL_PCIE_PORT_STATUS, 0xffdfffffffffffff);
- out_be64(p->regs + UTL_PCIE_PORT_IRQ_EN, 0xad5a800000000000);
-
- /* Mark link down */
- p->has_link = true;
+ struct phb3 *p = phb_to_phb3(slot->phb);
+ uint64_t reg;
+ uint16_t lstat;
+ int64_t rc;
- /* Don't block PCI-CFG */
- p->flags &= ~PHB3_CFG_BLOCKED;
+ /* Link is up, let's find the actual speed */
+ reg = in_be64(p->regs + PHB_PCIE_DLP_TRAIN_CTL);
+ if (!(reg & PHB_PCIE_DLP_TC_DL_LINKACT)) {
+ *val = 0;
+ return OPAL_SUCCESS;
+ }
- /*
- * For complete reset, we might be required to restore
- * bus numbers for PCI bridges.
- */
- if (p->flags & PHB3_RESTORE_BUS_NUM) {
- p->flags &= ~PHB3_RESTORE_BUS_NUM;
- pci_restore_bridge_buses(&p->phb, NULL);
+ rc = phb3_pcicfg_read16(&p->phb, 0, p->ecap + PCICAP_EXP_LSTAT,
+ &lstat);
+ if (rc != OPAL_SUCCESS) {
+ *val = 0;
+ PHBERR(p, "%s: Error %lld getting link state\n",
+ __func__, rc);
+ return OPAL_HARDWARE;
}
+ if (!(lstat & PCICAP_EXP_LSTAT_DLLL_ACT)) {
+ *val = 0;
+ return OPAL_SUCCESS;
+ }
+
+ /* Grab the link width */
+ *val = GETFIELD(PCICAP_EXP_LSTAT_WIDTH, lstat);
+ return OPAL_SUCCESS;
}
-static int64_t phb3_sm_link_poll(struct phb3 *p)
+static int64_t phb3_poll_link(struct pci_slot *slot)
{
+ struct phb3 *p = phb_to_phb3(slot->phb);
uint64_t reg;
- /* This is the state machine to wait for the link to come
- * up. Currently we just wait until we timeout, eventually
- * we want to add retries and fallback to Gen1.
- */
- switch(p->state) {
- case PHB3_STATE_WAIT_LINK_ELECTRICAL:
- /* Wait for the link electrical connection to be
+ switch (slot->state) {
+ case PHB3_SLOT_NORMAL:
+ case PHB3_SLOT_LINK_START:
+ PHBDBG(p, "LINK: Start polling\n");
+ slot->retries = PHB3_LINK_ELECTRICAL_RETRIES;
+ pci_slot_set_state(slot, PHB3_SLOT_LINK_WAIT_ELECTRICAL);
+ return pci_slot_set_sm_timeout(slot, msecs_to_tb(100));
+ case PHB3_SLOT_LINK_WAIT_ELECTRICAL:
+ /*
+ * Wait for the link electrical connection to be
* established (shorter timeout). This allows us to
* workaround spurrious presence detect on some machines
* without waiting 10s each time
@@ -1950,86 +1906,79 @@ static int64_t phb3_sm_link_poll(struct phb3 *p)
reg = in_be64(p->regs + PHB_PCIE_DLP_TRAIN_CTL);
if (reg & (PHB_PCIE_DLP_INBAND_PRESENCE |
PHB_PCIE_DLP_TC_DL_LINKACT)) {
- PHBDBG(p, "Electrical link detected...\n");
- p->state = PHB3_STATE_WAIT_LINK;
- p->retries = PHB3_LINK_WAIT_RETRIES;
- } else if (p->retries-- == 0) {
- PHBDBG(p, "Timeout waiting for electrical link\n");
- PHBDBG(p, "DLP train control: 0x%016llx\n", reg);
+ PHBDBG(p, "LINK: Electrical link detected\n");
+ pci_slot_set_state(slot, PHB3_SLOT_LINK_WAIT);
+ slot->retries = PHB3_LINK_WAIT_RETRIES;
+ return pci_slot_set_sm_timeout(slot, msecs_to_tb(100));
+ }
+
+ if (slot->retries-- == 0) {
/* No link, we still mark the PHB as functional */
- p->state = PHB3_STATE_FUNCTIONAL;
+ PHBDBG(p, "LINK: Timeout waiting for electrical link\n");
+ PHBDBG(p, "LINK: DLP train control: 0x%016llx\n", reg);
+ pci_slot_set_state(slot, PHB3_SLOT_NORMAL);
return OPAL_SUCCESS;
}
- return phb3_set_sm_timeout(p, msecs_to_tb(100));
- case PHB3_STATE_WAIT_LINK:
- /* XXX I used the PHB_PCIE_LINK_MANAGEMENT register here but
- * simics doesn't seem to give me anything, so I've switched
- * to PCIE_DLP_TRAIN_CTL which appears more reliable
- */
+
+ return pci_slot_set_sm_timeout(slot, msecs_to_tb(100));
+ case PHB3_SLOT_LINK_WAIT:
reg = in_be64(p->regs + PHB_PCIE_DLP_TRAIN_CTL);
if (reg & PHB_PCIE_DLP_TC_DL_LINKACT) {
- /* Setup PHB for link up */
- phb3_setup_for_link_up(p);
- PHBDBG(p, "Link is up!\n");
- p->state = PHB3_STATE_FUNCTIONAL;
+ PHBDBG(p, "LINK: Link is up\n");
+ if (slot->ops.prepare_link_change)
+ slot->ops.prepare_link_change(slot, true);
+ pci_slot_set_state(slot, PHB3_SLOT_NORMAL);
return OPAL_SUCCESS;
}
- if (p->retries-- == 0) {
- PHBDBG(p, "Timeout waiting for link up\n");
- PHBDBG(p, "DLP train control: 0x%016llx\n", reg);
- /* No link, we still mark the PHB as functional */
- p->state = PHB3_STATE_FUNCTIONAL;
+
+ if (slot->retries-- == 0) {
+ PHBDBG(p, "LINK: Timeout waiting for link up\n");
+ PHBDBG(p, "LINK: DLP train control: 0x%016llx\n", reg);
+ pci_slot_set_state(slot, PHB3_SLOT_NORMAL);
return OPAL_SUCCESS;
}
- return phb3_set_sm_timeout(p, msecs_to_tb(100));
+ return pci_slot_set_sm_timeout(slot, msecs_to_tb(100));
default:
- /* How did we get here ? */
- assert(false);
+ PHBERR(p, "LINK: Unexpected slot state %08x\n",
+ slot->state);
}
- return OPAL_HARDWARE;
-}
-static int64_t phb3_start_link_poll(struct phb3 *p)
-{
- /*
- * Wait for link up to 10s. However, we give up after
- * only a second if the electrical connection isn't
- * stablished according to the DLP link control register
- */
- p->retries = PHB3_LINK_ELECTRICAL_RETRIES;
- p->state = PHB3_STATE_WAIT_LINK_ELECTRICAL;
- return phb3_set_sm_timeout(p, msecs_to_tb(100));
+ pci_slot_set_state(slot, PHB3_SLOT_NORMAL);
+ return OPAL_HARDWARE;
}
-static int64_t phb3_sm_hot_reset(struct phb3 *p)
+static int64_t phb3_hreset(struct pci_slot *slot)
{
+ struct phb3 *p = phb_to_phb3(slot->phb);
uint16_t brctl;
-
- switch (p->state) {
- case PHB3_STATE_FUNCTIONAL:
- /* We need do nothing with available slot */
- if (phb3_presence_detect(&p->phb) != OPAL_SHPC_DEV_PRESENT) {
- PHBDBG(p, "Slot hreset: no device\n");
- return OPAL_CLOSED;
+ uint8_t presence = 1;
+
+ switch (slot->state) {
+ case PHB3_SLOT_NORMAL:
+ PHBDBG(p, "HRESET: Starts\n");
+ if (slot->ops.get_presence_status)
+ slot->ops.get_presence_status(slot, &presence);
+ if (!presence) {
+ PHBDBG(p, "HRESET: No device\n");
+ return OPAL_SUCCESS;
}
- /* Prepare for link going down */
- phb3_setup_for_link_down(p);
-
- /* Turn on hot reset */
+ PHBDBG(p, "HRESET: Prepare for link down\n");
+ if (slot->ops.prepare_link_change)
+ slot->ops.prepare_link_change(slot, false);
+ /* fall through */
+ case PHB3_SLOT_HRESET_START:
+ PHBDBG(p, "HRESET: Assert\n");
phb3_pcicfg_read16(&p->phb, 0, PCI_CFG_BRCTL, &brctl);
brctl |= PCI_CFG_BRCTL_SECONDARY_RESET;
phb3_pcicfg_write16(&p->phb, 0, PCI_CFG_BRCTL, brctl);
- PHBDBG(p, "Slot hreset: assert reset\n");
-
- p->state = PHB3_STATE_HRESET_DELAY;
- return phb3_set_sm_timeout(p, secs_to_tb(1));
- case PHB3_STATE_HRESET_DELAY:
- /* Turn off hot reset */
+ pci_slot_set_state(slot, PHB3_SLOT_HRESET_DELAY);
+ return pci_slot_set_sm_timeout(slot, secs_to_tb(1));
+ case PHB3_SLOT_HRESET_DELAY:
+ PHBDBG(p, "HRESET: Deassert\n");
phb3_pcicfg_read16(&p->phb, 0, PCI_CFG_BRCTL, &brctl);
brctl &= ~PCI_CFG_BRCTL_SECONDARY_RESET;
phb3_pcicfg_write16(&p->phb, 0, PCI_CFG_BRCTL, brctl);
- PHBDBG(p, "Slot hreset: deassert reset\n");
/*
* Due to some oddball adapters bouncing the link
@@ -2038,112 +1987,79 @@ static int64_t phb3_sm_hot_reset(struct phb3 *p)
* we can get a spurrious link down interrupt which
* causes us to EEH immediately.
*/
- p->state = PHB3_STATE_HRESET_DELAY2;
- return phb3_set_sm_timeout(p, secs_to_tb(1));
- case PHB3_STATE_HRESET_DELAY2:
- return phb3_start_link_poll(p);
+ pci_slot_set_state(slot, PHB3_SLOT_HRESET_DELAY2);
+ return pci_slot_set_sm_timeout(slot, secs_to_tb(1));
+ case PHB3_SLOT_HRESET_DELAY2:
+ pci_slot_set_state(slot, PHB3_SLOT_LINK_START);
+ return slot->ops.poll_link(slot);
default:
- PHBDBG(p, "Slot hreset: wrong state %d\n", p->state);
- break;
+ PHBERR(p, "Unexpected slot state %08x\n", slot->state);
}
- p->state = PHB3_STATE_FUNCTIONAL;
+ pci_slot_set_state(slot, PHB3_SLOT_NORMAL);
return OPAL_HARDWARE;
}
-static int64_t phb3_hot_reset(struct phb *phb)
-{
- struct phb3 *p = phb_to_phb3(phb);
-
- if (p->state != PHB3_STATE_FUNCTIONAL) {
- PHBDBG(p, "phb3_hot_reset: wrong state %d\n",
- p->state);
- return OPAL_HARDWARE;
- }
-
- p->flags |= PHB3_CFG_BLOCKED;
- return phb3_sm_hot_reset(p);
-}
-
-static int64_t phb3_sm_fundamental_reset(struct phb3 *p)
+static int64_t phb3_pfreset(struct pci_slot *slot)
{
+ struct phb3 *p = phb_to_phb3(slot->phb);
+ uint8_t presence = 1;
uint64_t reg;
+ switch(slot->state) {
+ case PHB3_SLOT_NORMAL:
+ PHBDBG(p, "PFRESET: Starts\n");
- /*
- * Check if there's something connected. We do that here
- * instead of the switch case below because we want to do
- * that before we test the skip_perst
- */
- if (p->state == PHB3_STATE_FUNCTIONAL &&
- phb3_presence_detect(&p->phb) != OPAL_SHPC_DEV_PRESENT) {
- PHBDBG(p, "Slot freset: no device\n");
- return OPAL_CLOSED;
- }
-
- /* Handle boot time skipping of reset */
- if (p->skip_perst && p->state == PHB3_STATE_FUNCTIONAL) {
- PHBINF(p, "Cold boot, skipping PERST assertion\n");
- p->state = PHB3_STATE_FRESET_ASSERT_DELAY;
- /* PERST skipping happens only once */
- p->skip_perst = false;
- }
-
- switch(p->state) {
- case PHB3_STATE_FUNCTIONAL:
- PHBINF(p, "Performing PERST...\n");
-
- /* Prepare for link going down */
- phb3_setup_for_link_down(p);
+ /* Nothing to do without adapter connected */
+ if (slot->ops.get_presence_status)
+ slot->ops.get_presence_status(slot, &presence);
+ if (!presence) {
+ PHBDBG(p, "PFRESET: No device\n");
+ return OPAL_SUCCESS;
+ }
- /* Assert PERST */
- reg = in_be64(p->regs + PHB_RESET);
- reg &= ~0x2000000000000000ul;
- out_be64(p->regs + PHB_RESET, reg);
- PHBDBG(p, "Slot freset: Asserting PERST\n");
+ PHBDBG(p, "PFRESET: Prepare for link down\n");
+ if (slot->ops.prepare_link_change)
+ slot->ops.prepare_link_change(slot, false);
+ /* fall through */
+ case PHB3_SLOT_PFRESET_START:
+ if (!p->skip_perst) {
+ PHBDBG(p, "PFRESET: Assert\n");
+ reg = in_be64(p->regs + PHB_RESET);
+ reg &= ~0x2000000000000000ul;
+ out_be64(p->regs + PHB_RESET, reg);
+ pci_slot_set_state(slot,
+ PHB3_SLOT_PFRESET_ASSERT_DELAY);
+ return pci_slot_set_sm_timeout(slot, secs_to_tb(1));
+ }
- /* XXX Check delay for PERST... doing 1s for now */
- p->state = PHB3_STATE_FRESET_ASSERT_DELAY;
- return phb3_set_sm_timeout(p, secs_to_tb(1));
+ /* To skip the assert during boot time */
+ PHBDBG(p, "PFRESET: Assert skipped\n");
+ pci_slot_set_state(slot, PHB3_SLOT_PFRESET_ASSERT_DELAY);
+ p->skip_perst = false;
+ /* fall through */
+ case PHB3_SLOT_PFRESET_ASSERT_DELAY:
+ PHBDBG(p, "PFRESET: Deassert\n");
- case PHB3_STATE_FRESET_ASSERT_DELAY:
- /* Deassert PERST */
reg = in_be64(p->regs + PHB_RESET);
reg |= 0x2000000000000000ul;
out_be64(p->regs + PHB_RESET, reg);
- PHBDBG(p, "Slot freset: Deasserting PERST\n");
-
- p->state = PHB3_STATE_FRESET_DEASSERT_DELAY;
- /* CAPP fpga requires 1s to flash before polling link */
- return phb3_set_sm_timeout(p, secs_to_tb(1));
-
- case PHB3_STATE_FRESET_DEASSERT_DELAY:
- /* Switch to generic link poll state machine */
- return phb3_start_link_poll(p);
+ pci_slot_set_state(slot,
+ PHB3_SLOT_PFRESET_DEASSERT_DELAY);
+ return pci_slot_set_sm_timeout(slot, secs_to_tb(1));
+ case PHB3_SLOT_PFRESET_DEASSERT_DELAY:
+ pci_slot_set_state(slot, PHB3_SLOT_HRESET_START);
+ return slot->ops.hreset(slot);
default:
- PHBDBG(p, "Slot freset: wrong state %d\n",
- p->state);
- break;
+ PHBERR(p, "Unexpected slot state %08x\n",
+ slot->state);
}
- p->state = PHB3_STATE_FUNCTIONAL;
+ pci_slot_set_state(slot, PHB3_SLOT_NORMAL);
return OPAL_HARDWARE;
}
-static int64_t phb3_fundamental_reset(struct phb *phb)
-{
- struct phb3 *p = phb_to_phb3(phb);
-
- if (p->state != PHB3_STATE_FUNCTIONAL) {
- PHBDBG(p, "phb3_fundamental_reset: wrong state %d\n", p->state);
- return OPAL_HARDWARE;
- }
-
- p->flags |= PHB3_CFG_BLOCKED;
- return phb3_sm_fundamental_reset(p);
-}
-
struct lock capi_lock = LOCK_UNLOCKED;
static struct {
uint32_t ec_level;
@@ -2328,26 +2244,15 @@ static void do_capp_recovery_scoms(struct phb3 *p)
xscom_write(p->chip_id, CAPP_ERR_STATUS_CTRL, reg);
}
-/*
- * The OS is expected to do fundamental reset after complete
- * reset to make sure the PHB could be recovered from the
- * fenced state. However, the OS needn't do that explicitly
- * since fundamental reset will be done automatically while
- * powering on the PHB.
- *
- *
- * Usually, we need power off/on the PHB. That includes the
- * fundamental reset. However, we don't know how to control
- * the power stuff yet. So skip that and do fundamental reset
- * directly after reinitialization the hardware.
- */
-static int64_t phb3_sm_complete_reset(struct phb3 *p)
+static int64_t phb3_creset(struct pci_slot *slot)
{
+ struct phb3 *p = phb_to_phb3(slot->phb);
uint64_t cqsts, val;
- switch (p->state) {
- case PHB3_STATE_FENCED:
- case PHB3_STATE_FUNCTIONAL:
+ switch (slot->state) {
+ case PHB3_SLOT_NORMAL:
+ case PHB3_SLOT_CRESET_START:
+ PHBDBG(p, "CRESET: Starts\n");
/* do steps 3-5 of capp recovery procedure */
if (p->flags & PHB3_CAPP_RECOVERY)
@@ -2368,121 +2273,102 @@ static int64_t phb3_sm_complete_reset(struct phb3 *p)
* have to force fenced PHB prior to ETU reset.
*/
if (!phb3_fenced(p))
- xscom_write(p->chip_id, p->pe_xscom + 0x2, 0x000000f000000000ull);
+ xscom_write(p->chip_id,
+ p->pe_xscom + 0x2, 0x000000f000000000ull);
/* Clear errors in NFIR and raise ETU reset */
xscom_read(p->chip_id, p->pe_xscom + 0x0, &p->nfir_cache);
- xscom_read(p->chip_id, p->spci_xscom + 1, &val);/* HW275117 */
+ xscom_read(p->chip_id, p->spci_xscom + 1, &val); /* HW275117 */
xscom_write(p->chip_id, p->pci_xscom + 0xa,
0x8000000000000000);
- p->state = PHB3_STATE_CRESET_WAIT_CQ;
- p->retries = 500;
- return phb3_set_sm_timeout(p, msecs_to_tb(10));
- case PHB3_STATE_CRESET_WAIT_CQ:
+ pci_slot_set_state(slot, PHB3_SLOT_CRESET_WAIT_CQ);
+ slot->retries = 500;
+ return pci_slot_set_sm_timeout(slot, msecs_to_tb(10));
+ case PHB3_SLOT_CRESET_WAIT_CQ:
xscom_read(p->chip_id, p->pe_xscom + 0x1c, &val);
xscom_read(p->chip_id, p->pe_xscom + 0x1d, &val);
xscom_read(p->chip_id, p->pe_xscom + 0x1e, &val);
xscom_read(p->chip_id, p->pe_xscom + 0xf, &cqsts);
if (!(cqsts & 0xC000000000000000)) {
- xscom_write(p->chip_id, p->pe_xscom + 0x1, ~p->nfir_cache);
+ PHBDBG(p, "CRESET: No pending transactions\n");
+ xscom_write(p->chip_id,
+ p->pe_xscom + 0x1, ~p->nfir_cache);
- p->state = PHB3_STATE_CRESET_REINIT;
- return phb3_set_sm_timeout(p, msecs_to_tb(100));
+ pci_slot_set_state(slot, PHB3_SLOT_CRESET_REINIT);
+ return pci_slot_set_sm_timeout(slot, msecs_to_tb(100));
}
- if (p->retries-- == 0) {
- PHBERR(p, "Timeout waiting for pending transaction\n");
+ if (slot->retries-- == 0) {
+ PHBERR(p, "Timeout waiting for pending transactions\n");
goto error;
}
- return phb3_set_sm_timeout(p, msecs_to_tb(10));
- case PHB3_STATE_CRESET_REINIT:
+ return pci_slot_set_sm_timeout(slot, msecs_to_tb(10));
+ case PHB3_SLOT_CRESET_REINIT:
+ PHBDBG(p, "CRESET: Reinitialization\n");
+
+ /*
+ * Clear AIB fenced state. Otherwise, we can't access the
+ * PCI config space of root complex when reinitializing
+ * the PHB.
+ */
p->flags &= ~PHB3_AIB_FENCED;
p->flags &= ~PHB3_CAPP_RECOVERY;
phb3_init_hw(p);
- p->state = PHB3_STATE_CRESET_FRESET;
- return phb3_set_sm_timeout(p, msecs_to_tb(100));
- case PHB3_STATE_CRESET_FRESET:
- p->state = PHB3_STATE_FUNCTIONAL;
- p->flags |= PHB3_CFG_BLOCKED;
- return phb3_sm_fundamental_reset(p);
+ pci_slot_set_state(slot, PHB3_SLOT_CRESET_FRESET);
+ return pci_slot_set_sm_timeout(slot, msecs_to_tb(100));
+ case PHB3_SLOT_CRESET_FRESET:
+ pci_slot_set_state(slot, PHB3_SLOT_NORMAL);
+ return slot->ops.freset(slot);
default:
- assert(false);
+ PHBERR(p, "CRESET: Unexpected slot state %08x\n",
+ slot->state);
}
/* Mark the PHB as dead and expect it to be removed */
error:
p->state = PHB3_STATE_BROKEN;
- return OPAL_PARAMETER;
-}
-
-static int64_t phb3_complete_reset(struct phb *phb, uint8_t assert)
-{
- struct phb3 *p = phb_to_phb3(phb);
-
- if ((assert == OPAL_ASSERT_RESET &&
- p->state != PHB3_STATE_FUNCTIONAL &&
- p->state != PHB3_STATE_FENCED) ||
- (assert == OPAL_DEASSERT_RESET &&
- p->state != PHB3_STATE_FUNCTIONAL)) {
- PHBERR(p, "phb3_creset: wrong state %d\n",
- p->state);
- return OPAL_HARDWARE;
- }
-
- /* Block PCI-CFG access */
- p->flags |= PHB3_CFG_BLOCKED;
-
- if (assert == OPAL_ASSERT_RESET) {
- PHBINF(p, "Starting PHB reset sequence\n");
- return phb3_sm_complete_reset(p);
- } else {
- /* Restore bus numbers for bridges */
- p->flags |= PHB3_RESTORE_BUS_NUM;
-
- return phb3_sm_hot_reset(p);
- }
+ return OPAL_HARDWARE;
}
-static int64_t phb3_poll(struct phb *phb)
+/*
+ * Initialize root complex slot, which is mainly used to
+ * do fundamental reset before PCI enumeration in PCI core.
+ * When probing root complex and building its real slot,
+ * the operations will be copied over.
+ */
+struct pci_slot *phb3_slot_create(struct phb *phb)
{
- struct phb3 *p = phb_to_phb3(phb);
- uint64_t now = mftb();
+ struct pci_slot *slot;
- if (p->state == PHB3_STATE_FUNCTIONAL)
- return OPAL_SUCCESS;
+ slot = pci_slot_alloc(phb, NULL);
+ if (!slot)
+ return slot;
- /* Check timer */
- if (p->delay_tgt_tb &&
- tb_compare(now, p->delay_tgt_tb) == TB_ABEFOREB)
- return p->delay_tgt_tb - now;
-
- /* Expired (or not armed), clear it */
- p->delay_tgt_tb = 0;
-
- /* Dispatch to the right state machine */
- switch(p->state) {
- case PHB3_STATE_HRESET_DELAY:
- case PHB3_STATE_HRESET_DELAY2:
- return phb3_sm_hot_reset(p);
- case PHB3_STATE_FRESET_ASSERT_DELAY:
- case PHB3_STATE_FRESET_DEASSERT_DELAY:
- return phb3_sm_fundamental_reset(p);
- case PHB3_STATE_CRESET_WAIT_CQ:
- case PHB3_STATE_CRESET_REINIT:
- case PHB3_STATE_CRESET_FRESET:
- return phb3_sm_complete_reset(p);
- case PHB3_STATE_WAIT_LINK_ELECTRICAL:
- case PHB3_STATE_WAIT_LINK:
- return phb3_sm_link_poll(p);
- default:
- PHBDBG(p, "phb3_poll: wrong state %d\n", p->state);
- break;
- }
+ /* Elementary functions */
+ slot->ops.get_presence_status = phb3_get_presence_status;
+ slot->ops.get_link_status = phb3_get_link_status;
+ slot->ops.get_power_status = NULL;
+ slot->ops.get_attention_status = NULL;
+ slot->ops.get_latch_status = NULL;
+ slot->ops.set_power_status = NULL;
+ slot->ops.set_attention_status = NULL;
- /* Unknown state, could be a HW error */
- return OPAL_HARDWARE;
+ /*
+ * For PHB slots, we have to split the fundamental reset
+ * into 2 steps. We might not have the first step which
+ * is to power off/on the slot, or it's controlled by
+ * individual platforms.
+ */
+ slot->ops.prepare_link_change = phb3_prepare_link_change;
+ slot->ops.poll_link = phb3_poll_link;
+ slot->ops.hreset = phb3_hreset;
+ slot->ops.freset = phb3_pfreset;
+ slot->ops.pfreset = phb3_pfreset;
+ slot->ops.creset = phb3_creset;
+
+ return slot;
}
static int64_t phb3_eeh_freeze_status(struct phb *phb, uint64_t pe_number,
@@ -3374,7 +3260,6 @@ static const struct phb_ops phb3_ops = {
.cfg_write32 = phb3_pcicfg_write32,
.choose_bus = phb3_choose_bus,
.device_init = phb3_device_init,
- .presence_detect = phb3_presence_detect,
.ioda_reset = phb3_ioda_reset,
.papr_errinjct_reset = phb3_papr_errinjct_reset,
.pci_reinit = phb3_pci_reinit,
@@ -3389,14 +3274,6 @@ static const struct phb_ops phb3_ops = {
.get_msi_64 = phb3_get_msi_64,
.set_pe = phb3_set_pe,
.set_peltv = phb3_set_peltv,
- .link_state = phb3_link_state,
- .power_state = phb3_power_state,
- .slot_power_off = phb3_slot_power_off,
- .slot_power_on = phb3_slot_power_on,
- .hot_reset = phb3_hot_reset,
- .fundamental_reset = phb3_fundamental_reset,
- .complete_reset = phb3_complete_reset,
- .poll = phb3_poll,
.eeh_freeze_status = phb3_eeh_freeze_status,
.eeh_freeze_clear = phb3_eeh_freeze_clear,
.eeh_freeze_set = phb3_eeh_freeze_set,
diff --git a/include/phb3.h b/include/phb3.h
index f785916..430662d 100644
--- a/include/phb3.h
+++ b/include/phb3.h
@@ -14,8 +14,6 @@
* limitations under the License.
*/
-/*
-*/
#ifndef __PHB3_H
#define __PHB3_H
@@ -208,26 +206,35 @@ enum phb3_state {
/* Normal PHB functional state */
PHB3_STATE_FUNCTIONAL,
-
- /* Hot reset */
- PHB3_STATE_HRESET_DELAY,
- PHB3_STATE_HRESET_DELAY2,
-
- /* Fundamental reset */
- PHB3_STATE_FRESET_ASSERT_DELAY,
- PHB3_STATE_FRESET_DEASSERT_DELAY,
-
- /* Complete reset */
- PHB3_STATE_CRESET_WAIT_CQ,
- PHB3_STATE_CRESET_REINIT,
- PHB3_STATE_CRESET_FRESET,
-
- /* Link state machine */
- PHB3_STATE_WAIT_LINK_ELECTRICAL,
- PHB3_STATE_WAIT_LINK,
};
/*
+ * PHB3 PCI slot state. When you're going to apply any
+ * changes here, please make sure the base state isn't
+ * conflicting with those defined in pci-slot.h
+ */
+#define PHB3_SLOT_NORMAL 0x00000000
+#define PHB3_SLOT_LINK 0x00000100
+#define PHB3_SLOT_LINK_START 0x00000101
+#define PHB3_SLOT_LINK_WAIT_ELECTRICAL 0x00000102
+#define PHB3_SLOT_LINK_WAIT 0x00000103
+#define PHB3_SLOT_HRESET 0x00000200
+#define PHB3_SLOT_HRESET_START 0x00000201
+#define PHB3_SLOT_HRESET_DELAY 0x00000202
+#define PHB3_SLOT_HRESET_DELAY2 0x00000203
+#define PHB3_SLOT_FRESET 0x00000300
+#define PHB3_SLOT_FRESET_START 0x00000301
+#define PHB3_SLOT_PFRESET 0x00000400
+#define PHB3_SLOT_PFRESET_START 0x00000401
+#define PHB3_SLOT_PFRESET_ASSERT_DELAY 0x00000402
+#define PHB3_SLOT_PFRESET_DEASSERT_DELAY 0x00000403
+#define PHB3_SLOT_CRESET 0x00000500
+#define PHB3_SLOT_CRESET_START 0x00000501
+#define PHB3_SLOT_CRESET_WAIT_CQ 0x00000502
+#define PHB3_SLOT_CRESET_REINIT 0x00000503
+#define PHB3_SLOT_CRESET_FRESET 0x00000504
+
+/*
* PHB3 error descriptor. Errors from all components (PBCQ, PHB)
* will be cached to PHB3 instance. However, PBCQ errors would
* have higher priority than those from PHB
@@ -257,13 +264,13 @@ struct phb3_err {
#define PHB3_AIB_FENCED 0x00000001
#define PHB3_CFG_USE_ASB 0x00000002
#define PHB3_CFG_BLOCKED 0x00000004
-#define PHB3_RESTORE_BUS_NUM 0x00000008
-#define PHB3_CAPP_RECOVERY 0x00000010
+#define PHB3_CAPP_RECOVERY 0x00000008
struct phb3 {
unsigned int index; /* 0..2 index inside P8 */
unsigned int flags;
unsigned int chip_id; /* Chip ID (== GCID on P8) */
+ enum phb3_state state;
unsigned int rev; /* 00MMmmmm */
#define PHB3_REV_MURANO_DD10 0xa30001
#define PHB3_REV_VENICE_DD10 0xa30002
@@ -292,9 +299,6 @@ struct phb3 {
bool skip_perst; /* Skip first perst */
bool has_link;
- enum phb3_state state;
- uint64_t delay_tgt_tb;
- uint64_t retries;
int64_t ecap; /* cached PCI-E cap offset */
int64_t aercap; /* cached AER ecap offset */
const __be64 *lane_eq;
@@ -352,4 +356,5 @@ static inline void phb3_set_err_pending(struct phb3 *p, bool pending)
p->err_pending = pending;
}
+extern struct pci_slot *phb3_slot_create(struct phb *phb);
#endif /* __PHB3_H */
--
2.1.0
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