/* * 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 (c) 2005, 2010, Oracle and/or its affiliates. All rights reserved. * Copyright 2019 Joyent, Inc. */ /* * This file contains Standard PCI Express HotPlug functionality that is * compatible with the PCI Express ver 1.1 specification. * * NOTE: This file is compiled and delivered through misc/pcie module. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include typedef struct pciehpc_prop { char *prop_name; char *prop_value; } pciehpc_prop_t; static pciehpc_prop_t pciehpc_props[] = { { PCIEHPC_PROP_LED_FAULT, PCIEHPC_PROP_VALUE_LED }, { PCIEHPC_PROP_LED_POWER, PCIEHPC_PROP_VALUE_LED }, { PCIEHPC_PROP_LED_ATTN, PCIEHPC_PROP_VALUE_LED }, { PCIEHPC_PROP_LED_ACTIVE, PCIEHPC_PROP_VALUE_LED }, { PCIEHPC_PROP_CARD_TYPE, PCIEHPC_PROP_VALUE_TYPE }, { PCIEHPC_PROP_BOARD_TYPE, PCIEHPC_PROP_VALUE_TYPE }, { PCIEHPC_PROP_SLOT_CONDITION, PCIEHPC_PROP_VALUE_TYPE } }; /* Local functions prototype */ static int pciehpc_hpc_init(pcie_hp_ctrl_t *ctrl_p); static int pciehpc_hpc_uninit(pcie_hp_ctrl_t *ctrl_p); static int pciehpc_slotinfo_init(pcie_hp_ctrl_t *ctrl_p); static int pciehpc_slotinfo_uninit(pcie_hp_ctrl_t *ctrl_p); static int pciehpc_enable_intr(pcie_hp_ctrl_t *ctrl_p); static int pciehpc_disable_intr(pcie_hp_ctrl_t *ctrl_p); static pcie_hp_ctrl_t *pciehpc_create_controller(dev_info_t *dip); static void pciehpc_destroy_controller(dev_info_t *dip); static int pciehpc_register_slot(pcie_hp_ctrl_t *ctrl_p); static int pciehpc_unregister_slot(pcie_hp_ctrl_t *ctrl_p); static int pciehpc_slot_get_property(pcie_hp_slot_t *slot_p, ddi_hp_property_t *arg, ddi_hp_property_t *rval); static int pciehpc_slot_set_property(pcie_hp_slot_t *slot_p, ddi_hp_property_t *arg, ddi_hp_property_t *rval); static void pciehpc_issue_hpc_command(pcie_hp_ctrl_t *ctrl_p, uint16_t control); static void pciehpc_attn_btn_handler(pcie_hp_ctrl_t *ctrl_p); static pcie_hp_led_state_t pciehpc_led_state_to_hpc(uint16_t state); static pcie_hp_led_state_t pciehpc_get_led_state(pcie_hp_ctrl_t *ctrl_p, pcie_hp_led_t led); static void pciehpc_set_led_state(pcie_hp_ctrl_t *ctrl_p, pcie_hp_led_t led, pcie_hp_led_state_t state); static int pciehpc_upgrade_slot_state(pcie_hp_slot_t *slot_p, ddi_hp_cn_state_t target_state); static int pciehpc_downgrade_slot_state(pcie_hp_slot_t *slot_p, ddi_hp_cn_state_t target_state); static int pciehpc_change_slot_state(pcie_hp_slot_t *slot_p, ddi_hp_cn_state_t target_state); static int pciehpc_slot_poweron(pcie_hp_slot_t *slot_p, ddi_hp_cn_state_t *result); static int pciehpc_slot_poweroff(pcie_hp_slot_t *slot_p, ddi_hp_cn_state_t *result); static int pciehpc_slot_probe(pcie_hp_slot_t *slot_p); static int pciehpc_slot_unprobe(pcie_hp_slot_t *slot_p); static void pciehpc_handle_power_fault(dev_info_t *dip); static void pciehpc_power_fault_handler(void *arg); #ifdef DEBUG static void pciehpc_dump_hpregs(pcie_hp_ctrl_t *ctrl_p); #endif /* DEBUG */ /* * Global functions (called by other drivers/modules) */ /* * Initialize Hot Plug Controller if present. The arguments are: * dip - Devinfo node pointer to the hot plug bus node * regops - register ops to access HPC registers for non-standard * HPC hw implementations (e.g: HPC in host PCI-E brdiges) * This is NULL for standard HPC in PCIe bridges. * Returns: * DDI_SUCCESS for successful HPC initialization * DDI_FAILURE for errors or if HPC hw not found */ int pciehpc_init(dev_info_t *dip, caddr_t arg) { pcie_hp_regops_t *regops = (pcie_hp_regops_t *)(void *)arg; pcie_hp_ctrl_t *ctrl_p; PCIE_DBG("pciehpc_init() called (dip=%p)\n", (void *)dip); /* Make sure that it is not already initialized */ if ((ctrl_p = PCIE_GET_HP_CTRL(dip)) != NULL) { PCIE_DBG("%s%d: pciehpc instance already initialized!\n", ddi_driver_name(dip), ddi_get_instance(dip)); return (DDI_SUCCESS); } /* Allocate a new hotplug controller and slot structures */ ctrl_p = pciehpc_create_controller(dip); /* setup access handle for HPC regs */ if (regops != NULL) { /* HPC access is non-standard; use the supplied reg ops */ ctrl_p->hc_regops = *regops; } /* * Setup resource maps for this bus node. */ (void) pci_resource_setup(dip); PCIE_DISABLE_ERRORS(dip); /* * Set the platform specific hot plug mode. */ ctrl_p->hc_ops.init_hpc_hw = pciehpc_hpc_init; ctrl_p->hc_ops.uninit_hpc_hw = pciehpc_hpc_uninit; ctrl_p->hc_ops.init_hpc_slotinfo = pciehpc_slotinfo_init; ctrl_p->hc_ops.uninit_hpc_slotinfo = pciehpc_slotinfo_uninit; ctrl_p->hc_ops.poweron_hpc_slot = pciehpc_slot_poweron; ctrl_p->hc_ops.poweroff_hpc_slot = pciehpc_slot_poweroff; ctrl_p->hc_ops.enable_hpc_intr = pciehpc_enable_intr; ctrl_p->hc_ops.disable_hpc_intr = pciehpc_disable_intr; #if defined(__i386) || defined(__amd64) pciehpc_update_ops(ctrl_p); #endif /* initialize hot plug controller hw */ if ((ctrl_p->hc_ops.init_hpc_hw)(ctrl_p) != DDI_SUCCESS) goto cleanup1; /* initialize slot information soft state structure */ if ((ctrl_p->hc_ops.init_hpc_slotinfo)(ctrl_p) != DDI_SUCCESS) goto cleanup2; /* register the hot plug slot with DDI HP framework */ if (pciehpc_register_slot(ctrl_p) != DDI_SUCCESS) goto cleanup3; /* create minor node for this slot */ if (pcie_create_minor_node(ctrl_p, 0) != DDI_SUCCESS) goto cleanup4; /* HPC initialization is complete now */ ctrl_p->hc_flags = PCIE_HP_INITIALIZED_FLAG; #ifdef DEBUG /* For debug, dump the HPC registers */ pciehpc_dump_hpregs(ctrl_p); #endif /* DEBUG */ return (DDI_SUCCESS); cleanup4: (void) pciehpc_unregister_slot(ctrl_p); cleanup3: (void) (ctrl_p->hc_ops.uninit_hpc_slotinfo)(ctrl_p); cleanup2: (void) (ctrl_p->hc_ops.uninit_hpc_hw)(ctrl_p); cleanup1: PCIE_ENABLE_ERRORS(dip); (void) pci_resource_destroy(dip); pciehpc_destroy_controller(dip); return (DDI_FAILURE); } /* * Uninitialize HPC soft state structure and free up any resources * used for the HPC instance. */ int pciehpc_uninit(dev_info_t *dip) { pcie_hp_ctrl_t *ctrl_p; PCIE_DBG("pciehpc_uninit() called (dip=%p)\n", (void *)dip); /* get the soft state structure for this dip */ if ((ctrl_p = PCIE_GET_HP_CTRL(dip)) == NULL) { return (DDI_FAILURE); } pcie_remove_minor_node(ctrl_p, 0); /* unregister the slot */ (void) pciehpc_unregister_slot(ctrl_p); /* uninit any slot info data structures */ (void) (ctrl_p->hc_ops.uninit_hpc_slotinfo)(ctrl_p); /* uninitialize hpc, remove interrupt handler, etc. */ (void) (ctrl_p->hc_ops.uninit_hpc_hw)(ctrl_p); PCIE_ENABLE_ERRORS(dip); /* * Destroy resource maps for this bus node. */ (void) pci_resource_destroy(dip); /* destroy the soft state structure */ pciehpc_destroy_controller(dip); return (DDI_SUCCESS); } /* * pciehpc_intr() * * Interrupt handler for PCI-E Hot plug controller interrupts. * * Note: This is only for native mode hot plug. This is called * by the nexus driver at interrupt context. Interrupt Service Routine * registration is done by the nexus driver for both hot plug and * non-hot plug interrupts. This function is called from the ISR * of the nexus driver to handle hot-plug interrupts. */ int pciehpc_intr(dev_info_t *dip) { pcie_hp_ctrl_t *ctrl_p; pcie_hp_slot_t *slot_p; pcie_bus_t *bus_p = PCIE_DIP2BUS(dip); uint16_t status, control; /* get the soft state structure for this dip */ if ((ctrl_p = PCIE_GET_HP_CTRL(dip)) == NULL) return (DDI_INTR_UNCLAIMED); mutex_enter(&ctrl_p->hc_mutex); /* make sure the controller soft state is initialized */ if (!(ctrl_p->hc_flags & PCIE_HP_INITIALIZED_FLAG)) { mutex_exit(&ctrl_p->hc_mutex); return (DDI_INTR_UNCLAIMED); } /* if it is not NATIVE hot plug mode then return */ if (bus_p->bus_hp_curr_mode != PCIE_NATIVE_HP_MODE) { mutex_exit(&ctrl_p->hc_mutex); return (DDI_INTR_UNCLAIMED); } slot_p = ctrl_p->hc_slots[0]; /* read the current slot status register */ status = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTSTS); /* check if there are any hot plug interrupts occurred */ if (!(status & PCIE_SLOTSTS_STATUS_EVENTS)) { /* no hot plug events occurred */ mutex_exit(&ctrl_p->hc_mutex); return (DDI_INTR_UNCLAIMED); } /* clear the interrupt status bits */ pciehpc_reg_put16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTSTS, status); /* check for CMD COMPLETE interrupt */ if (status & PCIE_SLOTSTS_COMMAND_COMPLETED) { PCIE_DBG("pciehpc_intr(): CMD COMPLETED interrupt received\n"); /* wake up any one waiting for Command Completion event */ cv_signal(&ctrl_p->hc_cmd_comp_cv); } /* check for ATTN button interrupt */ if (status & PCIE_SLOTSTS_ATTN_BTN_PRESSED) { PCIE_DBG("pciehpc_intr(): ATTN BUTTON interrupt received\n"); /* if ATTN button event is still pending then cancel it */ if (slot_p->hs_attn_btn_pending == B_TRUE) slot_p->hs_attn_btn_pending = B_FALSE; else slot_p->hs_attn_btn_pending = B_TRUE; /* wake up the ATTN event handler */ cv_signal(&slot_p->hs_attn_btn_cv); } /* check for power fault interrupt */ if (status & PCIE_SLOTSTS_PWR_FAULT_DETECTED) { PCIE_DBG("pciehpc_intr(): POWER FAULT interrupt received" " on slot %d\n", slot_p->hs_phy_slot_num); control = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL); if (control & PCIE_SLOTCTL_PWR_FAULT_EN) { slot_p->hs_condition = AP_COND_FAILED; /* disable power fault detction interrupt */ pciehpc_reg_put16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL, control & ~PCIE_SLOTCTL_PWR_FAULT_EN); pciehpc_handle_power_fault(dip); } } /* check for MRL SENSOR CHANGED interrupt */ if (status & PCIE_SLOTSTS_MRL_SENSOR_CHANGED) { /* For now (phase-I), no action is taken on this event */ PCIE_DBG("pciehpc_intr(): MRL SENSOR CHANGED interrupt received" " on slot %d\n", slot_p->hs_phy_slot_num); } /* check for PRESENCE CHANGED interrupt */ if (status & PCIE_SLOTSTS_PRESENCE_CHANGED) { PCIE_DBG("pciehpc_intr(): PRESENCE CHANGED interrupt received" " on slot %d\n", slot_p->hs_phy_slot_num); if (status & PCIE_SLOTSTS_PRESENCE_DETECTED) { /* * card is inserted into the slot, ask DDI Hotplug * framework to change state to Present. */ cmn_err(CE_NOTE, "pciehpc (%s%d): card is inserted" " in the slot %s", ddi_driver_name(dip), ddi_get_instance(dip), slot_p->hs_info.cn_name); (void) ndi_hp_state_change_req(dip, slot_p->hs_info.cn_name, DDI_HP_CN_STATE_PRESENT, DDI_HP_REQ_ASYNC); } else { /* card is removed from the slot */ cmn_err(CE_NOTE, "pciehpc (%s%d): card is removed" " from the slot %s", ddi_driver_name(dip), ddi_get_instance(dip), slot_p->hs_info.cn_name); if (slot_p->hs_info.cn_state == DDI_HP_CN_STATE_ENABLED) { /* Card is removed when slot is enabled */ slot_p->hs_condition = AP_COND_FAILED; } else { slot_p->hs_condition = AP_COND_UNKNOWN; } /* make sure to disable power fault detction intr */ control = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL); if (control & PCIE_SLOTCTL_PWR_FAULT_EN) pciehpc_reg_put16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL, control & ~PCIE_SLOTCTL_PWR_FAULT_EN); /* * If supported, notify the child device driver that the * device is being removed. */ dev_info_t *cdip = ddi_get_child(dip); if (cdip != NULL) { ddi_eventcookie_t rm_cookie; if (ddi_get_eventcookie(cdip, DDI_DEVI_REMOVE_EVENT, &rm_cookie) == DDI_SUCCESS) { ndi_post_event(dip, cdip, rm_cookie, NULL); } } /* * Ask DDI Hotplug framework to change state to Empty */ (void) ndi_hp_state_change_req(dip, slot_p->hs_info.cn_name, DDI_HP_CN_STATE_EMPTY, DDI_HP_REQ_ASYNC); } } /* check for DLL state changed interrupt */ if (ctrl_p->hc_dll_active_rep && (status & PCIE_SLOTSTS_DLL_STATE_CHANGED)) { PCIE_DBG("pciehpc_intr(): DLL STATE CHANGED interrupt received" " on slot %d\n", slot_p->hs_phy_slot_num); cv_signal(&slot_p->hs_dll_active_cv); } mutex_exit(&ctrl_p->hc_mutex); return (DDI_INTR_CLAIMED); } /* * Handle hotplug commands * * Note: This function is called by DDI HP framework at kernel context only */ /* ARGSUSED */ int pciehpc_hp_ops(dev_info_t *dip, char *cn_name, ddi_hp_op_t op, void *arg, void *result) { pcie_hp_ctrl_t *ctrl_p; pcie_hp_slot_t *slot_p; int ret = DDI_SUCCESS; PCIE_DBG("pciehpc_hp_ops: dip=%p cn_name=%s op=%x arg=%p\n", dip, cn_name, op, arg); if ((ctrl_p = PCIE_GET_HP_CTRL(dip)) == NULL) return (DDI_FAILURE); slot_p = ctrl_p->hc_slots[0]; if (strcmp(cn_name, slot_p->hs_info.cn_name) != 0) return (DDI_EINVAL); switch (op) { case DDI_HPOP_CN_GET_STATE: { mutex_enter(&slot_p->hs_ctrl->hc_mutex); /* get the current slot state */ pciehpc_get_slot_state(slot_p); *((ddi_hp_cn_state_t *)result) = slot_p->hs_info.cn_state; mutex_exit(&slot_p->hs_ctrl->hc_mutex); break; } case DDI_HPOP_CN_CHANGE_STATE: { ddi_hp_cn_state_t target_state = *(ddi_hp_cn_state_t *)arg; mutex_enter(&slot_p->hs_ctrl->hc_mutex); ret = pciehpc_change_slot_state(slot_p, target_state); *(ddi_hp_cn_state_t *)result = slot_p->hs_info.cn_state; mutex_exit(&slot_p->hs_ctrl->hc_mutex); break; } case DDI_HPOP_CN_PROBE: ret = pciehpc_slot_probe(slot_p); break; case DDI_HPOP_CN_UNPROBE: ret = pciehpc_slot_unprobe(slot_p); break; case DDI_HPOP_CN_GET_PROPERTY: ret = pciehpc_slot_get_property(slot_p, (ddi_hp_property_t *)arg, (ddi_hp_property_t *)result); break; case DDI_HPOP_CN_SET_PROPERTY: ret = pciehpc_slot_set_property(slot_p, (ddi_hp_property_t *)arg, (ddi_hp_property_t *)result); break; default: ret = DDI_ENOTSUP; break; } return (ret); } /* * Get the current state of the slot from the hw. * * The slot state should have been initialized before this function gets called. */ void pciehpc_get_slot_state(pcie_hp_slot_t *slot_p) { pcie_hp_ctrl_t *ctrl_p = slot_p->hs_ctrl; pcie_bus_t *bus_p = PCIE_DIP2BUS(ctrl_p->hc_dip); uint16_t control, status; ddi_hp_cn_state_t curr_state = slot_p->hs_info.cn_state; /* read the Slot Control Register */ control = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL); slot_p->hs_fault_led_state = PCIE_HP_LED_OFF; /* no fault led */ slot_p->hs_active_led_state = PCIE_HP_LED_OFF; /* no active led */ /* read the current Slot Status Register */ status = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTSTS); /* get POWER led state */ slot_p->hs_power_led_state = pciehpc_led_state_to_hpc(pcie_slotctl_pwr_indicator_get(control)); /* get ATTN led state */ slot_p->hs_attn_led_state = pciehpc_led_state_to_hpc(pcie_slotctl_attn_indicator_get(control)); if (!(status & PCIE_SLOTSTS_PRESENCE_DETECTED)) { /* no device present; slot is empty */ slot_p->hs_info.cn_state = DDI_HP_CN_STATE_EMPTY; return; } /* device is present */ slot_p->hs_info.cn_state = DDI_HP_CN_STATE_PRESENT; if (!(control & PCIE_SLOTCTL_PWR_CONTROL)) { /* * Device is powered on. Set to "ENABLED" state (skip * POWERED state) because there is not a explicit "enable" * action exists for PCIe. * If it is already in "POWERED" state, then keep it until * user explicitly change it to other states. */ if (curr_state == DDI_HP_CN_STATE_POWERED) { slot_p->hs_info.cn_state = curr_state; } else { slot_p->hs_info.cn_state = DDI_HP_CN_STATE_ENABLED; } } } /* * setup slot name/slot-number info. */ void pciehpc_set_slot_name(pcie_hp_ctrl_t *ctrl_p) { pcie_hp_slot_t *slot_p = ctrl_p->hc_slots[0]; pcie_bus_t *bus_p = PCIE_DIP2BUS(ctrl_p->hc_dip); uchar_t *slotname_data; int *slotnum; uint_t count; int len; int invalid_slotnum = 0; uint32_t slot_capabilities; if (ddi_prop_lookup_int_array(DDI_DEV_T_ANY, ctrl_p->hc_dip, DDI_PROP_DONTPASS, "physical-slot#", &slotnum, &count) == DDI_PROP_SUCCESS) { slot_p->hs_phy_slot_num = slotnum[0]; ddi_prop_free(slotnum); } else { slot_capabilities = pciehpc_reg_get32(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCAP); slot_p->hs_phy_slot_num = PCIE_SLOTCAP_PHY_SLOT_NUM(slot_capabilities); } /* platform may not have initialized it */ if (!slot_p->hs_phy_slot_num) { PCIE_DBG("%s#%d: Invalid slot number!\n", ddi_driver_name(ctrl_p->hc_dip), ddi_get_instance(ctrl_p->hc_dip)); slot_p->hs_phy_slot_num = pciehpc_reg_get8(ctrl_p, PCI_BCNF_SECBUS); invalid_slotnum = 1; } slot_p->hs_info.cn_num = slot_p->hs_phy_slot_num; slot_p->hs_info.cn_num_dpd_on = DDI_HP_CN_NUM_NONE; /* * construct the slot_name: * if "slot-names" property exists then use that name * else if valid slot number exists then it is "pcie". * else it will be "pciedev0" */ if (ddi_getlongprop(DDI_DEV_T_ANY, ctrl_p->hc_dip, DDI_PROP_DONTPASS, "slot-names", (caddr_t)&slotname_data, &len) == DDI_PROP_SUCCESS) { char tmp_name[256]; /* * Note: for PCI-E slots, the device number is always 0 so the * first (and only) string is the slot name for this slot. */ (void) snprintf(tmp_name, sizeof (tmp_name), (char *)slotname_data + 4); slot_p->hs_info.cn_name = ddi_strdup(tmp_name, KM_SLEEP); kmem_free(slotname_data, len); } else { if (invalid_slotnum) { /* use device number ie. 0 */ slot_p->hs_info.cn_name = ddi_strdup("pcie0", KM_SLEEP); } else { char tmp_name[256]; (void) snprintf(tmp_name, sizeof (tmp_name), "pcie%d", slot_p->hs_phy_slot_num); slot_p->hs_info.cn_name = ddi_strdup(tmp_name, KM_SLEEP); } } } /* * Read/Write access to HPC registers. If platform nexus has non-standard * HPC access mechanism then regops functions are used to do reads/writes. */ uint8_t pciehpc_reg_get8(pcie_hp_ctrl_t *ctrl_p, uint_t off) { if (ctrl_p->hc_regops.get != NULL) { return ((uint8_t)ctrl_p->hc_regops.get( ctrl_p->hc_regops.cookie, (off_t)off)); } else { pcie_bus_t *bus_p = PCIE_DIP2BUS(ctrl_p->hc_dip); return (pci_config_get8(bus_p->bus_cfg_hdl, off)); } } uint16_t pciehpc_reg_get16(pcie_hp_ctrl_t *ctrl_p, uint_t off) { if (ctrl_p->hc_regops.get != NULL) { return ((uint16_t)ctrl_p->hc_regops.get( ctrl_p->hc_regops.cookie, (off_t)off)); } else { pcie_bus_t *bus_p = PCIE_DIP2BUS(ctrl_p->hc_dip); return (pci_config_get16(bus_p->bus_cfg_hdl, off)); } } uint32_t pciehpc_reg_get32(pcie_hp_ctrl_t *ctrl_p, uint_t off) { if (ctrl_p->hc_regops.get != NULL) { return ((uint32_t)ctrl_p->hc_regops.get( ctrl_p->hc_regops.cookie, (off_t)off)); } else { pcie_bus_t *bus_p = PCIE_DIP2BUS(ctrl_p->hc_dip); return (pci_config_get32(bus_p->bus_cfg_hdl, off)); } } void pciehpc_reg_put8(pcie_hp_ctrl_t *ctrl_p, uint_t off, uint8_t val) { if (ctrl_p->hc_regops.put != NULL) { ctrl_p->hc_regops.put(ctrl_p->hc_regops.cookie, (off_t)off, (uint_t)val); } else { pcie_bus_t *bus_p = PCIE_DIP2BUS(ctrl_p->hc_dip); pci_config_put8(bus_p->bus_cfg_hdl, off, val); } } void pciehpc_reg_put16(pcie_hp_ctrl_t *ctrl_p, uint_t off, uint16_t val) { if (ctrl_p->hc_regops.put != NULL) { ctrl_p->hc_regops.put(ctrl_p->hc_regops.cookie, (off_t)off, (uint_t)val); } else { pcie_bus_t *bus_p = PCIE_DIP2BUS(ctrl_p->hc_dip); pci_config_put16(bus_p->bus_cfg_hdl, off, val); } } void pciehpc_reg_put32(pcie_hp_ctrl_t *ctrl_p, uint_t off, uint32_t val) { if (ctrl_p->hc_regops.put != NULL) { ctrl_p->hc_regops.put(ctrl_p->hc_regops.cookie, (off_t)off, (uint_t)val); } else { pcie_bus_t *bus_p = PCIE_DIP2BUS(ctrl_p->hc_dip); pci_config_put32(bus_p->bus_cfg_hdl, off, val); } } /* * ************************************************************************ * *** Local functions (called within this file) * *** PCIe Native Hotplug mode specific functions * ************************************************************************ */ /* * Initialize HPC hardware, install interrupt handler, etc. It doesn't * enable hot plug interrupts. * * (Note: It is called only from pciehpc_init().) */ static int pciehpc_hpc_init(pcie_hp_ctrl_t *ctrl_p) { pcie_bus_t *bus_p = PCIE_DIP2BUS(ctrl_p->hc_dip); uint16_t reg; /* read the Slot Control Register */ reg = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL); /* disable all interrupts */ reg &= ~(PCIE_SLOTCTL_INTR_MASK); pciehpc_reg_put16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL, reg); /* clear any interrupt status bits */ reg = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTSTS); pciehpc_reg_put16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTSTS, reg); return (DDI_SUCCESS); } /* * Uninitialize HPC hardware, uninstall interrupt handler, etc. * * (Note: It is called only from pciehpc_uninit().) */ static int pciehpc_hpc_uninit(pcie_hp_ctrl_t *ctrl_p) { /* disable interrupts */ (void) pciehpc_disable_intr(ctrl_p); return (DDI_SUCCESS); } /* * Setup slot information for use with DDI HP framework. */ static int pciehpc_slotinfo_init(pcie_hp_ctrl_t *ctrl_p) { uint32_t slot_capabilities, link_capabilities; pcie_hp_slot_t *slot_p = ctrl_p->hc_slots[0]; pcie_bus_t *bus_p = PCIE_DIP2BUS(ctrl_p->hc_dip); mutex_enter(&ctrl_p->hc_mutex); /* * setup DDI HP framework slot information structure */ slot_p->hs_device_num = 0; slot_p->hs_info.cn_type = DDI_HP_CN_TYPE_PCIE; slot_p->hs_info.cn_type_str = (ctrl_p->hc_regops.get == NULL) ? PCIE_NATIVE_HP_TYPE : PCIE_PROP_HP_TYPE; slot_p->hs_info.cn_child = NULL; slot_p->hs_minor = PCI_MINOR_NUM(ddi_get_instance(ctrl_p->hc_dip), slot_p->hs_device_num); slot_p->hs_condition = AP_COND_UNKNOWN; /* read Slot Capabilities Register */ slot_capabilities = pciehpc_reg_get32(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCAP); /* set slot-name/slot-number info */ pciehpc_set_slot_name(ctrl_p); /* check if Attn Button present */ ctrl_p->hc_has_attn = (slot_capabilities & PCIE_SLOTCAP_ATTN_BUTTON) ? B_TRUE : B_FALSE; /* check if Manual Retention Latch sensor present */ ctrl_p->hc_has_mrl = (slot_capabilities & PCIE_SLOTCAP_MRL_SENSOR) ? B_TRUE : B_FALSE; /* * PCI-E version 1.1 defines EMI Lock Present bit * in Slot Capabilities register. Check for it. */ ctrl_p->hc_has_emi_lock = (slot_capabilities & PCIE_SLOTCAP_EMI_LOCK_PRESENT) ? B_TRUE : B_FALSE; link_capabilities = pciehpc_reg_get32(ctrl_p, bus_p->bus_pcie_off + PCIE_LINKCAP); ctrl_p->hc_dll_active_rep = (link_capabilities & PCIE_LINKCAP_DLL_ACTIVE_REP_CAPABLE) ? B_TRUE : B_FALSE; if (ctrl_p->hc_dll_active_rep) cv_init(&slot_p->hs_dll_active_cv, NULL, CV_DRIVER, NULL); /* setup thread for handling ATTN button events */ if (ctrl_p->hc_has_attn) { PCIE_DBG("pciehpc_slotinfo_init: setting up ATTN button event " "handler thread for slot %d\n", slot_p->hs_phy_slot_num); cv_init(&slot_p->hs_attn_btn_cv, NULL, CV_DRIVER, NULL); slot_p->hs_attn_btn_pending = B_FALSE; slot_p->hs_attn_btn_threadp = thread_create(NULL, 0, pciehpc_attn_btn_handler, (void *)ctrl_p, 0, &p0, TS_RUN, minclsyspri); slot_p->hs_attn_btn_thread_exit = B_FALSE; } /* get current slot state from the hw */ slot_p->hs_info.cn_state = DDI_HP_CN_STATE_EMPTY; pciehpc_get_slot_state(slot_p); if (slot_p->hs_info.cn_state >= DDI_HP_CN_STATE_ENABLED) slot_p->hs_condition = AP_COND_OK; mutex_exit(&ctrl_p->hc_mutex); return (DDI_SUCCESS); } /*ARGSUSED*/ static int pciehpc_slotinfo_uninit(pcie_hp_ctrl_t *ctrl_p) { pcie_hp_slot_t *slot_p = ctrl_p->hc_slots[0]; if (slot_p->hs_attn_btn_threadp != NULL) { mutex_enter(&ctrl_p->hc_mutex); slot_p->hs_attn_btn_thread_exit = B_TRUE; cv_signal(&slot_p->hs_attn_btn_cv); PCIE_DBG("pciehpc_slotinfo_uninit: " "waiting for ATTN thread exit\n"); cv_wait(&slot_p->hs_attn_btn_cv, &ctrl_p->hc_mutex); PCIE_DBG("pciehpc_slotinfo_uninit: ATTN thread exit\n"); cv_destroy(&slot_p->hs_attn_btn_cv); slot_p->hs_attn_btn_threadp = NULL; mutex_exit(&ctrl_p->hc_mutex); } if (ctrl_p->hc_dll_active_rep) cv_destroy(&slot_p->hs_dll_active_cv); if (slot_p->hs_info.cn_name) kmem_free(slot_p->hs_info.cn_name, strlen(slot_p->hs_info.cn_name) + 1); return (DDI_SUCCESS); } /* * Enable hot plug interrupts. * Note: this is only for Native hot plug mode. */ static int pciehpc_enable_intr(pcie_hp_ctrl_t *ctrl_p) { pcie_hp_slot_t *slot_p = ctrl_p->hc_slots[0]; pcie_bus_t *bus_p = PCIE_DIP2BUS(ctrl_p->hc_dip); uint16_t reg; /* clear any interrupt status bits */ reg = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTSTS); pciehpc_reg_put16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTSTS, reg); /* read the Slot Control Register */ reg = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL); /* * enable interrupts: power fault detection interrupt is enabled * only when the slot is powered ON */ if (slot_p->hs_info.cn_state >= DDI_HP_CN_STATE_POWERED) pciehpc_reg_put16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL, reg | PCIE_SLOTCTL_INTR_MASK); else pciehpc_reg_put16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL, reg | (PCIE_SLOTCTL_INTR_MASK & ~PCIE_SLOTCTL_PWR_FAULT_EN)); return (DDI_SUCCESS); } /* * Disable hot plug interrupts. * Note: this is only for Native hot plug mode. */ static int pciehpc_disable_intr(pcie_hp_ctrl_t *ctrl_p) { pcie_bus_t *bus_p = PCIE_DIP2BUS(ctrl_p->hc_dip); uint16_t reg; /* read the Slot Control Register */ reg = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL); /* disable all interrupts */ reg &= ~(PCIE_SLOTCTL_INTR_MASK); pciehpc_reg_put16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL, reg); /* clear any interrupt status bits */ reg = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTSTS); pciehpc_reg_put16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTSTS, reg); return (DDI_SUCCESS); } /* * Allocate a new hotplug controller and slot structures for HPC * associated with this dip. */ static pcie_hp_ctrl_t * pciehpc_create_controller(dev_info_t *dip) { pcie_hp_ctrl_t *ctrl_p; pcie_bus_t *bus_p = PCIE_DIP2BUS(dip); ctrl_p = kmem_zalloc(sizeof (pcie_hp_ctrl_t), KM_SLEEP); ctrl_p->hc_dip = dip; /* Allocate a new slot structure. */ ctrl_p->hc_slots[0] = kmem_zalloc(sizeof (pcie_hp_slot_t), KM_SLEEP); ctrl_p->hc_slots[0]->hs_num = 0; ctrl_p->hc_slots[0]->hs_ctrl = ctrl_p; /* Initialize the interrupt mutex */ mutex_init(&ctrl_p->hc_mutex, NULL, MUTEX_DRIVER, (void *)PCIE_INTR_PRI); /* Initialize synchronization conditional variable */ cv_init(&ctrl_p->hc_cmd_comp_cv, NULL, CV_DRIVER, NULL); ctrl_p->hc_cmd_pending = B_FALSE; bus_p->bus_hp_curr_mode = PCIE_NATIVE_HP_MODE; PCIE_SET_HP_CTRL(dip, ctrl_p); return (ctrl_p); } /* * Remove the HPC controller and slot structures */ static void pciehpc_destroy_controller(dev_info_t *dip) { pcie_hp_ctrl_t *ctrl_p; pcie_bus_t *bus_p = PCIE_DIP2BUS(dip); /* get the soft state structure for this dip */ if ((ctrl_p = PCIE_GET_HP_CTRL(dip)) == NULL) return; PCIE_SET_HP_CTRL(dip, NULL); bus_p->bus_hp_curr_mode = PCIE_NONE_HP_MODE; mutex_destroy(&ctrl_p->hc_mutex); cv_destroy(&ctrl_p->hc_cmd_comp_cv); kmem_free(ctrl_p->hc_slots[0], sizeof (pcie_hp_slot_t)); kmem_free(ctrl_p, sizeof (pcie_hp_ctrl_t)); } /* * Register the PCI-E hot plug slot with DDI HP framework. */ static int pciehpc_register_slot(pcie_hp_ctrl_t *ctrl_p) { pcie_hp_slot_t *slot_p = ctrl_p->hc_slots[0]; dev_info_t *dip = ctrl_p->hc_dip; /* register the slot with DDI HP framework */ if (ndi_hp_register(dip, &slot_p->hs_info) != NDI_SUCCESS) { PCIE_DBG("pciehpc_register_slot() failed to register slot %d\n", slot_p->hs_phy_slot_num); return (DDI_FAILURE); } pcie_hp_create_occupant_props(dip, makedevice(ddi_driver_major(dip), slot_p->hs_minor), slot_p->hs_device_num); PCIE_DBG("pciehpc_register_slot(): registered slot %d\n", slot_p->hs_phy_slot_num); return (DDI_SUCCESS); } /* * Unregister the PCI-E hot plug slot from DDI HP framework. */ static int pciehpc_unregister_slot(pcie_hp_ctrl_t *ctrl_p) { pcie_hp_slot_t *slot_p = ctrl_p->hc_slots[0]; dev_info_t *dip = ctrl_p->hc_dip; pcie_hp_delete_occupant_props(dip, makedevice(ddi_driver_major(dip), slot_p->hs_minor)); /* unregister the slot with DDI HP framework */ if (ndi_hp_unregister(dip, slot_p->hs_info.cn_name) != NDI_SUCCESS) { PCIE_DBG("pciehpc_unregister_slot() " "failed to unregister slot %d\n", slot_p->hs_phy_slot_num); return (DDI_FAILURE); } PCIE_DBG("pciehpc_unregister_slot(): unregistered slot %d\n", slot_p->hs_phy_slot_num); return (DDI_SUCCESS); } /* * pciehpc_slot_poweron() * * Poweron/Enable the slot. * * Note: This function is called by DDI HP framework at kernel context only */ /*ARGSUSED*/ static int pciehpc_slot_poweron(pcie_hp_slot_t *slot_p, ddi_hp_cn_state_t *result) { pcie_hp_ctrl_t *ctrl_p = slot_p->hs_ctrl; pcie_bus_t *bus_p = PCIE_DIP2BUS(ctrl_p->hc_dip); uint16_t status, control; ASSERT(MUTEX_HELD(&ctrl_p->hc_mutex)); /* get the current state of the slot */ pciehpc_get_slot_state(slot_p); /* check if the slot is already in the 'enabled' state */ if (slot_p->hs_info.cn_state >= DDI_HP_CN_STATE_POWERED) { /* slot is already in the 'enabled' state */ PCIE_DBG("pciehpc_slot_poweron() slot %d already enabled\n", slot_p->hs_phy_slot_num); *result = slot_p->hs_info.cn_state; return (DDI_SUCCESS); } /* read the Slot Status Register */ status = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTSTS); /* make sure the MRL switch is closed if present */ if ((ctrl_p->hc_has_mrl) && (status & PCIE_SLOTSTS_MRL_SENSOR_OPEN)) { /* MRL switch is open */ cmn_err(CE_WARN, "MRL switch is open on slot %d\n", slot_p->hs_phy_slot_num); goto cleanup; } /* make sure the slot has a device present */ if (!(status & PCIE_SLOTSTS_PRESENCE_DETECTED)) { /* slot is empty */ PCIE_DBG("slot %d is empty\n", slot_p->hs_phy_slot_num); goto cleanup; } /* get the current state of Slot Control Register */ control = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL); /* * Enable power to the slot involves: * 1. Set power LED to blink and ATTN led to OFF. * 2. Set power control ON in Slot Control Reigster and * wait for Command Completed Interrupt or 1 sec timeout. * 3. If Data Link Layer State Changed events are supported * then wait for the event to indicate Data Layer Link * is active. The time out value for this event is 1 second. * This is specified in PCI-E version 1.1. * 4. Set power LED to be ON. */ /* 1. set power LED to blink & ATTN led to OFF */ pciehpc_set_led_state(ctrl_p, PCIE_HP_POWER_LED, PCIE_HP_LED_BLINK); pciehpc_set_led_state(ctrl_p, PCIE_HP_ATTN_LED, PCIE_HP_LED_OFF); /* 2. set power control to ON */ control = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL); control &= ~PCIE_SLOTCTL_PWR_CONTROL; pciehpc_issue_hpc_command(ctrl_p, control); /* 3. wait for DLL State Change event, if it's supported */ if (ctrl_p->hc_dll_active_rep) { status = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_LINKSTS); if (!(status & PCIE_LINKSTS_DLL_LINK_ACTIVE)) { /* wait 1 sec for the DLL State Changed event */ (void) cv_timedwait(&slot_p->hs_dll_active_cv, &ctrl_p->hc_mutex, ddi_get_lbolt() + SEC_TO_TICK(PCIE_HP_DLL_STATE_CHANGE_TIMEOUT)); /* check Link status */ status = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_LINKSTS); if (!(status & PCIE_LINKSTS_DLL_LINK_ACTIVE)) goto cleanup2; } } /* wait 1 sec for link to come up */ delay(drv_usectohz(1000000)); /* check power is really turned ON */ control = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL); if (control & PCIE_SLOTCTL_PWR_CONTROL) { PCIE_DBG("slot %d fails to turn on power on connect\n", slot_p->hs_phy_slot_num); goto cleanup1; } /* clear power fault status */ status = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTSTS); status |= PCIE_SLOTSTS_PWR_FAULT_DETECTED; pciehpc_reg_put16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTSTS, status); /* enable power fault detection interrupt */ control |= PCIE_SLOTCTL_PWR_FAULT_EN; pciehpc_issue_hpc_command(ctrl_p, control); /* 4. Set power LED to be ON */ pciehpc_set_led_state(ctrl_p, PCIE_HP_POWER_LED, PCIE_HP_LED_ON); /* if EMI is present, turn it ON */ if (ctrl_p->hc_has_emi_lock) { status = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTSTS); if (!(status & PCIE_SLOTSTS_EMI_LOCK_SET)) { control = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL); control |= PCIE_SLOTCTL_EMI_LOCK_CONTROL; pciehpc_issue_hpc_command(ctrl_p, control); /* wait 1 sec after toggling the state of EMI lock */ delay(drv_usectohz(1000000)); } } *result = slot_p->hs_info.cn_state = DDI_HP_CN_STATE_POWERED; return (DDI_SUCCESS); cleanup2: control = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL); /* if power is ON, set power control to OFF */ if (!(control & PCIE_SLOTCTL_PWR_CONTROL)) { control |= PCIE_SLOTCTL_PWR_CONTROL; pciehpc_issue_hpc_command(ctrl_p, control); } cleanup1: /* set power led to OFF */ pciehpc_set_led_state(ctrl_p, PCIE_HP_POWER_LED, PCIE_HP_LED_OFF); cleanup: return (DDI_FAILURE); } /*ARGSUSED*/ static int pciehpc_slot_poweroff(pcie_hp_slot_t *slot_p, ddi_hp_cn_state_t *result) { pcie_hp_ctrl_t *ctrl_p = slot_p->hs_ctrl; pcie_bus_t *bus_p = PCIE_DIP2BUS(ctrl_p->hc_dip); uint16_t status, control; ASSERT(MUTEX_HELD(&ctrl_p->hc_mutex)); /* get the current state of the slot */ pciehpc_get_slot_state(slot_p); /* check if the slot is not in the "enabled' state */ if (slot_p->hs_info.cn_state < DDI_HP_CN_STATE_POWERED) { /* slot is in the 'disabled' state */ PCIE_DBG("pciehpc_slot_poweroff(): " "slot %d already disabled\n", slot_p->hs_phy_slot_num); ASSERT(slot_p->hs_power_led_state == PCIE_HP_LED_OFF); *result = slot_p->hs_info.cn_state; return (DDI_SUCCESS); } /* read the Slot Status Register */ status = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTSTS); /* make sure the slot has a device present */ if (!(status & PCIE_SLOTSTS_PRESENCE_DETECTED)) { /* slot is empty */ PCIE_DBG("pciehpc_slot_poweroff(): slot %d is empty\n", slot_p->hs_phy_slot_num); goto cleanup; } /* * Disable power to the slot involves: * 1. Set power LED to blink. * 2. Set power control OFF in Slot Control Reigster and * wait for Command Completed Interrupt or 1 sec timeout. * 3. Set POWER led and ATTN led to be OFF. */ /* 1. set power LED to blink */ pciehpc_set_led_state(ctrl_p, PCIE_HP_POWER_LED, PCIE_HP_LED_BLINK); /* disable power fault detection interrupt */ control = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL); control &= ~PCIE_SLOTCTL_PWR_FAULT_EN; pciehpc_issue_hpc_command(ctrl_p, control); /* 2. set power control to OFF */ control = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL); control |= PCIE_SLOTCTL_PWR_CONTROL; pciehpc_issue_hpc_command(ctrl_p, control); #ifdef DEBUG /* check for power control bit to be OFF */ control = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL); ASSERT(control & PCIE_SLOTCTL_PWR_CONTROL); #endif /* 3. Set power LED to be OFF */ pciehpc_set_led_state(ctrl_p, PCIE_HP_POWER_LED, PCIE_HP_LED_OFF); pciehpc_set_led_state(ctrl_p, PCIE_HP_ATTN_LED, PCIE_HP_LED_OFF); /* if EMI is present, turn it OFF */ if (ctrl_p->hc_has_emi_lock) { status = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTSTS); if (status & PCIE_SLOTSTS_EMI_LOCK_SET) { control = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL); control |= PCIE_SLOTCTL_EMI_LOCK_CONTROL; pciehpc_issue_hpc_command(ctrl_p, control); /* wait 1 sec after toggling the state of EMI lock */ delay(drv_usectohz(1000000)); } } /* get the current state of the slot */ pciehpc_get_slot_state(slot_p); *result = slot_p->hs_info.cn_state; return (DDI_SUCCESS); cleanup: return (DDI_FAILURE); } /* * pciehpc_slot_probe() * * Probe the slot. * * Note: This function is called by DDI HP framework at kernel context only */ /*ARGSUSED*/ static int pciehpc_slot_probe(pcie_hp_slot_t *slot_p) { pcie_hp_ctrl_t *ctrl_p = slot_p->hs_ctrl; int ret = DDI_SUCCESS; mutex_enter(&ctrl_p->hc_mutex); /* get the current state of the slot */ pciehpc_get_slot_state(slot_p); /* * Probe a given PCIe Hotplug Connection (CN). */ PCIE_DISABLE_ERRORS(ctrl_p->hc_dip); ret = pcie_hp_probe(slot_p); if (ret != DDI_SUCCESS) { PCIE_DBG("pciehpc_slot_probe() failed\n"); /* turn the ATTN led ON for configure failure */ pciehpc_set_led_state(ctrl_p, PCIE_HP_ATTN_LED, PCIE_HP_LED_ON); /* if power to the slot is still on then set Power led to ON */ if (slot_p->hs_info.cn_state >= DDI_HP_CN_STATE_POWERED) pciehpc_set_led_state(ctrl_p, PCIE_HP_POWER_LED, PCIE_HP_LED_ON); mutex_exit(&ctrl_p->hc_mutex); return (DDI_FAILURE); } PCIE_ENABLE_ERRORS(ctrl_p->hc_dip); /* get the current state of the slot */ pciehpc_get_slot_state(slot_p); mutex_exit(&ctrl_p->hc_mutex); return (DDI_SUCCESS); } /* * pciehpc_slot_unprobe() * * Unprobe the slot. * * Note: This function is called by DDI HP framework at kernel context only */ /*ARGSUSED*/ static int pciehpc_slot_unprobe(pcie_hp_slot_t *slot_p) { pcie_hp_ctrl_t *ctrl_p = slot_p->hs_ctrl; int ret; mutex_enter(&ctrl_p->hc_mutex); /* get the current state of the slot */ pciehpc_get_slot_state(slot_p); /* * Unprobe a given PCIe Hotplug Connection (CN). */ PCIE_DISABLE_ERRORS(ctrl_p->hc_dip); ret = pcie_hp_unprobe(slot_p); if (ret != DDI_SUCCESS) { PCIE_DBG("pciehpc_slot_unprobe() failed\n"); /* if power to the slot is still on then set Power led to ON */ if (slot_p->hs_info.cn_state >= DDI_HP_CN_STATE_POWERED) pciehpc_set_led_state(ctrl_p, PCIE_HP_POWER_LED, PCIE_HP_LED_ON); PCIE_ENABLE_ERRORS(ctrl_p->hc_dip); mutex_exit(&ctrl_p->hc_mutex); return (DDI_FAILURE); } /* get the current state of the slot */ pciehpc_get_slot_state(slot_p); mutex_exit(&ctrl_p->hc_mutex); return (DDI_SUCCESS); } static int pciehpc_upgrade_slot_state(pcie_hp_slot_t *slot_p, ddi_hp_cn_state_t target_state) { ddi_hp_cn_state_t curr_state; int rv = DDI_SUCCESS; if (target_state > DDI_HP_CN_STATE_ENABLED) { return (DDI_EINVAL); } curr_state = slot_p->hs_info.cn_state; while ((curr_state < target_state) && (rv == DDI_SUCCESS)) { switch (curr_state) { case DDI_HP_CN_STATE_EMPTY: /* * From EMPTY to PRESENT, just check the hardware * slot state. */ pciehpc_get_slot_state(slot_p); curr_state = slot_p->hs_info.cn_state; if (curr_state < DDI_HP_CN_STATE_PRESENT) rv = DDI_FAILURE; break; case DDI_HP_CN_STATE_PRESENT: rv = (slot_p->hs_ctrl->hc_ops.poweron_hpc_slot)(slot_p, &curr_state); break; case DDI_HP_CN_STATE_POWERED: curr_state = slot_p->hs_info.cn_state = DDI_HP_CN_STATE_ENABLED; break; default: /* should never reach here */ ASSERT("unknown devinfo state"); } } return (rv); } static int pciehpc_downgrade_slot_state(pcie_hp_slot_t *slot_p, ddi_hp_cn_state_t target_state) { ddi_hp_cn_state_t curr_state; int rv = DDI_SUCCESS; curr_state = slot_p->hs_info.cn_state; while ((curr_state > target_state) && (rv == DDI_SUCCESS)) { switch (curr_state) { case DDI_HP_CN_STATE_PRESENT: /* * From PRESENT to EMPTY, just check hardware slot * state. */ pciehpc_get_slot_state(slot_p); curr_state = slot_p->hs_info.cn_state; if (curr_state >= DDI_HP_CN_STATE_PRESENT) rv = DDI_FAILURE; break; case DDI_HP_CN_STATE_POWERED: rv = (slot_p->hs_ctrl->hc_ops.poweroff_hpc_slot)( slot_p, &curr_state); break; case DDI_HP_CN_STATE_ENABLED: curr_state = slot_p->hs_info.cn_state = DDI_HP_CN_STATE_POWERED; break; default: /* should never reach here */ ASSERT("unknown devinfo state"); } } return (rv); } /* Change slot state to a target state */ static int pciehpc_change_slot_state(pcie_hp_slot_t *slot_p, ddi_hp_cn_state_t target_state) { ddi_hp_cn_state_t curr_state; int rv; pciehpc_get_slot_state(slot_p); curr_state = slot_p->hs_info.cn_state; if (curr_state == target_state) { return (DDI_SUCCESS); } if (curr_state < target_state) { rv = pciehpc_upgrade_slot_state(slot_p, target_state); } else { rv = pciehpc_downgrade_slot_state(slot_p, target_state); } return (rv); } int pciehpc_slot_get_property(pcie_hp_slot_t *slot_p, ddi_hp_property_t *arg, ddi_hp_property_t *rval) { ddi_hp_property_t request, result; #ifdef _SYSCALL32_IMPL ddi_hp_property32_t request32, result32; #endif pcie_hp_ctrl_t *ctrl_p = slot_p->hs_ctrl; nvlist_t *prop_list; nvlist_t *prop_rlist; /* nvlist for return values */ nvpair_t *prop_pair; char *name, *value; int ret = DDI_SUCCESS; int i, n; boolean_t get_all_prop = B_FALSE; if (get_udatamodel() == DATAMODEL_NATIVE) { if (copyin(arg, &request, sizeof (ddi_hp_property_t)) || copyin(rval, &result, sizeof (ddi_hp_property_t))) return (DDI_FAILURE); } #ifdef _SYSCALL32_IMPL else { bzero(&request, sizeof (request)); bzero(&result, sizeof (result)); if (copyin(arg, &request32, sizeof (ddi_hp_property32_t)) || copyin(rval, &result32, sizeof (ddi_hp_property32_t))) return (DDI_FAILURE); request.nvlist_buf = (char *)(uintptr_t)request32.nvlist_buf; request.buf_size = request32.buf_size; result.nvlist_buf = (char *)(uintptr_t)result32.nvlist_buf; result.buf_size = result32.buf_size; } #endif if ((ret = pcie_copyin_nvlist(request.nvlist_buf, request.buf_size, &prop_list)) != DDI_SUCCESS) return (ret); if (nvlist_alloc(&prop_rlist, NV_UNIQUE_NAME, 0)) { ret = DDI_ENOMEM; goto get_prop_cleanup; } /* check whether the requested property is "all" or "help" */ prop_pair = nvlist_next_nvpair(prop_list, NULL); if (prop_pair && !nvlist_next_nvpair(prop_list, prop_pair)) { name = nvpair_name(prop_pair); n = sizeof (pciehpc_props) / sizeof (pciehpc_prop_t); if (strcmp(name, PCIEHPC_PROP_ALL) == 0) { (void) nvlist_remove_all(prop_list, PCIEHPC_PROP_ALL); /* * Add all properties into the request list, so that we * will get the values in the following for loop. */ for (i = 0; i < n; i++) { if (nvlist_add_string(prop_list, pciehpc_props[i].prop_name, "") != 0) { ret = DDI_FAILURE; goto get_prop_cleanup1; } } get_all_prop = B_TRUE; } else if (strcmp(name, PCIEHPC_PROP_HELP) == 0) { /* * Empty the request list, and add help strings into the * return list. We will pass the following for loop. */ (void) nvlist_remove_all(prop_list, PCIEHPC_PROP_HELP); for (i = 0; i < n; i++) { if (nvlist_add_string(prop_rlist, pciehpc_props[i].prop_name, pciehpc_props[i].prop_value) != 0) { ret = DDI_FAILURE; goto get_prop_cleanup1; } } } } mutex_enter(&ctrl_p->hc_mutex); /* get the current slot state */ pciehpc_get_slot_state(slot_p); /* for each requested property, get the value and add it to nvlist */ prop_pair = NULL; while ((prop_pair = nvlist_next_nvpair(prop_list, prop_pair)) != NULL) { name = nvpair_name(prop_pair); value = NULL; if (strcmp(name, PCIEHPC_PROP_LED_FAULT) == 0) { value = pcie_led_state_text( slot_p->hs_fault_led_state); } else if (strcmp(name, PCIEHPC_PROP_LED_POWER) == 0) { value = pcie_led_state_text( slot_p->hs_power_led_state); } else if (strcmp(name, PCIEHPC_PROP_LED_ATTN) == 0) { value = pcie_led_state_text( slot_p->hs_attn_led_state); } else if (strcmp(name, PCIEHPC_PROP_LED_ACTIVE) == 0) { value = pcie_led_state_text( slot_p->hs_active_led_state); } else if (strcmp(name, PCIEHPC_PROP_CARD_TYPE) == 0) { ddi_acc_handle_t handle; dev_info_t *cdip; uint8_t prog_class, base_class, sub_class; int i; mutex_exit(&ctrl_p->hc_mutex); cdip = pcie_hp_devi_find( ctrl_p->hc_dip, slot_p->hs_device_num, 0); mutex_enter(&ctrl_p->hc_mutex); if ((slot_p->hs_info.cn_state != DDI_HP_CN_STATE_ENABLED) || (cdip == NULL)) { /* * When getting all properties, just ignore the * one that's not available under certain state. */ if (get_all_prop) continue; ret = DDI_ENOTSUP; goto get_prop_cleanup2; } if (pci_config_setup(cdip, &handle) != DDI_SUCCESS) { ret = DDI_FAILURE; goto get_prop_cleanup2; } prog_class = pci_config_get8(handle, PCI_CONF_PROGCLASS); base_class = pci_config_get8(handle, PCI_CONF_BASCLASS); sub_class = pci_config_get8(handle, PCI_CONF_SUBCLASS); pci_config_teardown(&handle); for (i = 0; i < class_pci_items; i++) { if ((base_class == class_pci[i].base_class) && (sub_class == class_pci[i].sub_class) && (prog_class == class_pci[i].prog_class)) { value = class_pci[i].short_desc; break; } } if (i == class_pci_items) value = PCIEHPC_PROP_VALUE_UNKNOWN; } else if (strcmp(name, PCIEHPC_PROP_BOARD_TYPE) == 0) { if (slot_p->hs_info.cn_state <= DDI_HP_CN_STATE_EMPTY) value = PCIEHPC_PROP_VALUE_UNKNOWN; else value = PCIEHPC_PROP_VALUE_PCIHOTPLUG; } else if (strcmp(name, PCIEHPC_PROP_SLOT_CONDITION) == 0) { value = pcie_slot_condition_text(slot_p->hs_condition); } else { /* unsupported property */ PCIE_DBG("Unsupported property: %s\n", name); ret = DDI_ENOTSUP; goto get_prop_cleanup2; } if (nvlist_add_string(prop_rlist, name, value) != 0) { ret = DDI_FAILURE; goto get_prop_cleanup2; } } /* pack nvlist and copyout */ if ((ret = pcie_copyout_nvlist(prop_rlist, result.nvlist_buf, &result.buf_size)) != DDI_SUCCESS) { goto get_prop_cleanup2; } if (get_udatamodel() == DATAMODEL_NATIVE) { if (copyout(&result, rval, sizeof (ddi_hp_property_t))) ret = DDI_FAILURE; } #ifdef _SYSCALL32_IMPL else { if (result.buf_size > UINT32_MAX) { ret = DDI_FAILURE; } else { result32.buf_size = (uint32_t)result.buf_size; if (copyout(&result32, rval, sizeof (ddi_hp_property32_t))) ret = DDI_FAILURE; } } #endif get_prop_cleanup2: mutex_exit(&ctrl_p->hc_mutex); get_prop_cleanup1: nvlist_free(prop_rlist); get_prop_cleanup: nvlist_free(prop_list); return (ret); } int pciehpc_slot_set_property(pcie_hp_slot_t *slot_p, ddi_hp_property_t *arg, ddi_hp_property_t *rval) { ddi_hp_property_t request, result; #ifdef _SYSCALL32_IMPL ddi_hp_property32_t request32, result32; #endif pcie_hp_ctrl_t *ctrl_p = slot_p->hs_ctrl; nvlist_t *prop_list; nvlist_t *prop_rlist; nvpair_t *prop_pair; char *name, *value; pcie_hp_led_state_t led_state; int ret = DDI_SUCCESS; if (get_udatamodel() == DATAMODEL_NATIVE) { if (copyin(arg, &request, sizeof (ddi_hp_property_t))) return (DDI_FAILURE); if (rval && copyin(rval, &result, sizeof (ddi_hp_property_t))) return (DDI_FAILURE); } #ifdef _SYSCALL32_IMPL else { bzero(&request, sizeof (request)); bzero(&result, sizeof (result)); if (copyin(arg, &request32, sizeof (ddi_hp_property32_t))) return (DDI_FAILURE); if (rval && copyin(rval, &result32, sizeof (ddi_hp_property32_t))) return (DDI_FAILURE); request.nvlist_buf = (char *)(uintptr_t)request32.nvlist_buf; request.buf_size = request32.buf_size; if (rval) { result.nvlist_buf = (char *)(uintptr_t)result32.nvlist_buf; result.buf_size = result32.buf_size; } } #endif if ((ret = pcie_copyin_nvlist(request.nvlist_buf, request.buf_size, &prop_list)) != DDI_SUCCESS) return (ret); /* check whether the requested property is "help" */ prop_pair = nvlist_next_nvpair(prop_list, NULL); if (prop_pair && !nvlist_next_nvpair(prop_list, prop_pair) && (strcmp(nvpair_name(prop_pair), PCIEHPC_PROP_HELP) == 0)) { if (!rval) { ret = DDI_ENOTSUP; goto set_prop_cleanup; } if (nvlist_alloc(&prop_rlist, NV_UNIQUE_NAME, 0)) { ret = DDI_ENOMEM; goto set_prop_cleanup; } if (nvlist_add_string(prop_rlist, PCIEHPC_PROP_LED_ATTN, PCIEHPC_PROP_VALUE_LED) != 0) { ret = DDI_FAILURE; goto set_prop_cleanup1; } if ((ret = pcie_copyout_nvlist(prop_rlist, result.nvlist_buf, &result.buf_size)) != DDI_SUCCESS) { goto set_prop_cleanup1; } if (get_udatamodel() == DATAMODEL_NATIVE) { if (copyout(&result, rval, sizeof (ddi_hp_property_t))) { ret = DDI_FAILURE; goto set_prop_cleanup1; } } #ifdef _SYSCALL32_IMPL else { if (result.buf_size > UINT32_MAX) { ret = DDI_FAILURE; goto set_prop_cleanup1; } else { result32.buf_size = (uint32_t)result.buf_size; if (copyout(&result32, rval, sizeof (ddi_hp_property32_t))) { ret = DDI_FAILURE; goto set_prop_cleanup1; } } } #endif set_prop_cleanup1: nvlist_free(prop_rlist); nvlist_free(prop_list); return (ret); } /* Validate the request */ prop_pair = NULL; while ((prop_pair = nvlist_next_nvpair(prop_list, prop_pair)) != NULL) { name = nvpair_name(prop_pair); if (nvpair_type(prop_pair) != DATA_TYPE_STRING) { PCIE_DBG("Unexpected data type of setting " "property %s.\n", name); ret = DDI_EINVAL; goto set_prop_cleanup; } if (nvpair_value_string(prop_pair, &value)) { PCIE_DBG("Get string value failed for property %s.\n", name); ret = DDI_FAILURE; goto set_prop_cleanup; } if (strcmp(name, PCIEHPC_PROP_LED_ATTN) == 0) { if ((strcmp(value, PCIEHPC_PROP_VALUE_ON) != 0) && (strcmp(value, PCIEHPC_PROP_VALUE_OFF) != 0) && (strcmp(value, PCIEHPC_PROP_VALUE_BLINK) != 0)) { PCIE_DBG("Unsupported value of setting " "property %s\n", name); ret = DDI_ENOTSUP; goto set_prop_cleanup; } } else { PCIE_DBG("Unsupported property: %s\n", name); ret = DDI_ENOTSUP; goto set_prop_cleanup; } } mutex_enter(&ctrl_p->hc_mutex); /* get the current slot state */ pciehpc_get_slot_state(slot_p); /* set each property */ prop_pair = NULL; while ((prop_pair = nvlist_next_nvpair(prop_list, prop_pair)) != NULL) { name = nvpair_name(prop_pair); /* * The validity of the property was checked above. */ if (strcmp(name, PCIEHPC_PROP_LED_ATTN) == 0) { if (strcmp(value, PCIEHPC_PROP_VALUE_ON) == 0) led_state = PCIE_HP_LED_ON; else if (strcmp(value, PCIEHPC_PROP_VALUE_OFF) == 0) led_state = PCIE_HP_LED_OFF; else if (strcmp(value, PCIEHPC_PROP_VALUE_BLINK) == 0) led_state = PCIE_HP_LED_BLINK; else continue; pciehpc_set_led_state(ctrl_p, PCIE_HP_ATTN_LED, led_state); } } if (rval) { if (get_udatamodel() == DATAMODEL_NATIVE) { result.buf_size = 0; if (copyout(&result, rval, sizeof (ddi_hp_property_t))) ret = DDI_FAILURE; } #ifdef _SYSCALL32_IMPL else { result32.buf_size = 0; if (copyout(&result32, rval, sizeof (ddi_hp_property32_t))) ret = DDI_FAILURE; } #endif } mutex_exit(&ctrl_p->hc_mutex); set_prop_cleanup: nvlist_free(prop_list); return (ret); } /* * Send a command to the PCI-E Hot Plug Controller. * * NOTES: The PCI-E spec defines the following semantics for issuing hot plug * commands. * 1) If Command Complete events/interrupts are supported then software * waits for Command Complete event after issuing a command (i.e writing * to the Slot Control register). The command completion could take as * long as 1 second so software should be prepared to wait for 1 second * before issuing another command. * * 2) If Command Complete events/interrupts are not supported then * software could issue multiple Slot Control writes without any delay * between writes. */ static void pciehpc_issue_hpc_command(pcie_hp_ctrl_t *ctrl_p, uint16_t control) { pcie_hp_slot_t *slot_p = ctrl_p->hc_slots[0]; pcie_bus_t *bus_p = PCIE_DIP2BUS(ctrl_p->hc_dip); uint16_t status; uint32_t slot_cap; /* * PCI-E version 1.1 spec defines No Command Completed * Support bit (bit#18) in Slot Capabilities register. If this * bit is set then slot doesn't support notification of command * completion events. */ slot_cap = pciehpc_reg_get32(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCAP); /* * If no Command Completion event is supported or it is ACPI * hot plug mode then just issue the command and return. */ if ((slot_cap & PCIE_SLOTCAP_NO_CMD_COMP_SUPP) || (bus_p->bus_hp_curr_mode == PCIE_ACPI_HP_MODE)) { pciehpc_reg_put16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL, control); return; } /* * ************************************** * Command Complete events are supported. * ************************************** */ /* * If HPC is not yet initialized then just poll for the Command * Completion interrupt. */ if (!(ctrl_p->hc_flags & PCIE_HP_INITIALIZED_FLAG)) { int retry = PCIE_HP_CMD_WAIT_RETRY; /* write the command to the HPC */ pciehpc_reg_put16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL, control); /* poll for status completion */ while (retry--) { /* wait for 10 msec before checking the status */ delay(drv_usectohz(PCIE_HP_CMD_WAIT_TIME)); status = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTSTS); if (status & PCIE_SLOTSTS_COMMAND_COMPLETED) { /* clear the status bits */ pciehpc_reg_put16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTSTS, status); break; } } return; } /* HPC is already initialized */ ASSERT(MUTEX_HELD(&ctrl_p->hc_mutex)); /* * If previous command is still pending then wait for its * completion. i.e cv_wait() */ while (ctrl_p->hc_cmd_pending == B_TRUE) cv_wait(&ctrl_p->hc_cmd_comp_cv, &ctrl_p->hc_mutex); /* * Issue the command and wait for Command Completion or * the 1 sec timeout. */ pciehpc_reg_put16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL, control); ctrl_p->hc_cmd_pending = B_TRUE; if (cv_timedwait(&ctrl_p->hc_cmd_comp_cv, &ctrl_p->hc_mutex, ddi_get_lbolt() + SEC_TO_TICK(1)) == -1) { /* it is a timeout */ PCIE_DBG("pciehpc_issue_hpc_command: Command Complete" " interrupt is not received for slot %d\n", slot_p->hs_phy_slot_num); /* clear the status info in case interrupts are disabled? */ status = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTSTS); if (status & PCIE_SLOTSTS_COMMAND_COMPLETED) { /* clear the status bits */ pciehpc_reg_put16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTSTS, status); } } ctrl_p->hc_cmd_pending = B_FALSE; /* wake up any one waiting for issuing another command to HPC */ cv_signal(&ctrl_p->hc_cmd_comp_cv); } /* * pciehcp_attn_btn_handler() * * This handles ATTN button pressed event as per the PCI-E 1.1 spec. */ static void pciehpc_attn_btn_handler(pcie_hp_ctrl_t *ctrl_p) { pcie_hp_slot_t *slot_p = ctrl_p->hc_slots[0]; pcie_hp_led_state_t power_led_state; callb_cpr_t cprinfo; PCIE_DBG("pciehpc_attn_btn_handler: thread started\n"); CALLB_CPR_INIT(&cprinfo, &ctrl_p->hc_mutex, callb_generic_cpr, "pciehpc_attn_btn_handler"); mutex_enter(&ctrl_p->hc_mutex); /* wait for ATTN button event */ cv_wait(&slot_p->hs_attn_btn_cv, &ctrl_p->hc_mutex); while (slot_p->hs_attn_btn_thread_exit == B_FALSE) { if (slot_p->hs_attn_btn_pending == B_TRUE) { /* get the current state of power LED */ power_led_state = pciehpc_get_led_state(ctrl_p, PCIE_HP_POWER_LED); /* Blink the Power LED while we wait for 5 seconds */ pciehpc_set_led_state(ctrl_p, PCIE_HP_POWER_LED, PCIE_HP_LED_BLINK); /* wait for 5 seconds before taking any action */ if (cv_timedwait(&slot_p->hs_attn_btn_cv, &ctrl_p->hc_mutex, ddi_get_lbolt() + SEC_TO_TICK(5)) == -1) { /* * It is a time out; make sure the ATTN pending * flag is still ON before sending the event to * DDI HP framework. */ if (slot_p->hs_attn_btn_pending == B_TRUE) { int hint; slot_p->hs_attn_btn_pending = B_FALSE; pciehpc_get_slot_state(slot_p); if (slot_p->hs_info.cn_state <= DDI_HP_CN_STATE_PRESENT) { /* * Insertion. */ hint = SE_INCOMING_RES; } else { /* * Want to remove; */ hint = SE_OUTGOING_RES; } /* * We can't call ddihp_cn_gen_sysevent * here since it's not a DDI interface. */ pcie_hp_gen_sysevent_req( slot_p->hs_info.cn_name, hint, ctrl_p->hc_dip, KM_SLEEP); } } /* restore the power LED state */ pciehpc_set_led_state(ctrl_p, PCIE_HP_POWER_LED, power_led_state); continue; } /* wait for another ATTN button event */ cv_wait(&slot_p->hs_attn_btn_cv, &ctrl_p->hc_mutex); } PCIE_DBG("pciehpc_attn_btn_handler: thread exit\n"); cv_signal(&slot_p->hs_attn_btn_cv); CALLB_CPR_EXIT(&cprinfo); thread_exit(); } /* * convert LED state from PCIE HPC definition to pcie_hp_led_state_t * definition. */ static pcie_hp_led_state_t pciehpc_led_state_to_hpc(uint16_t state) { switch (state) { case PCIE_SLOTCTL_INDICATOR_STATE_ON: return (PCIE_HP_LED_ON); case PCIE_SLOTCTL_INDICATOR_STATE_BLINK: return (PCIE_HP_LED_BLINK); case PCIE_SLOTCTL_INDICATOR_STATE_OFF: default: return (PCIE_HP_LED_OFF); } } /* * Get the state of an LED. */ static pcie_hp_led_state_t pciehpc_get_led_state(pcie_hp_ctrl_t *ctrl_p, pcie_hp_led_t led) { pcie_bus_t *bus_p = PCIE_DIP2BUS(ctrl_p->hc_dip); uint16_t control, state; /* get the current state of Slot Control register */ control = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL); switch (led) { case PCIE_HP_POWER_LED: state = pcie_slotctl_pwr_indicator_get(control); break; case PCIE_HP_ATTN_LED: state = pcie_slotctl_attn_indicator_get(control); break; default: PCIE_DBG("pciehpc_get_led_state() invalid LED %d\n", led); return (PCIE_HP_LED_OFF); } switch (state) { case PCIE_SLOTCTL_INDICATOR_STATE_ON: return (PCIE_HP_LED_ON); case PCIE_SLOTCTL_INDICATOR_STATE_BLINK: return (PCIE_HP_LED_BLINK); case PCIE_SLOTCTL_INDICATOR_STATE_OFF: default: return (PCIE_HP_LED_OFF); } } /* * Set the state of an LED. It updates both hw and sw state. */ static void pciehpc_set_led_state(pcie_hp_ctrl_t *ctrl_p, pcie_hp_led_t led, pcie_hp_led_state_t state) { pcie_hp_slot_t *slot_p = ctrl_p->hc_slots[0]; pcie_bus_t *bus_p = PCIE_DIP2BUS(ctrl_p->hc_dip); uint16_t control; /* get the current state of Slot Control register */ control = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL); switch (led) { case PCIE_HP_POWER_LED: /* clear led mask */ control &= ~PCIE_SLOTCTL_PWR_INDICATOR_MASK; slot_p->hs_power_led_state = state; break; case PCIE_HP_ATTN_LED: /* clear led mask */ control &= ~PCIE_SLOTCTL_ATTN_INDICATOR_MASK; slot_p->hs_attn_led_state = state; break; default: PCIE_DBG("pciehpc_set_led_state() invalid LED %d\n", led); return; } switch (state) { case PCIE_HP_LED_ON: if (led == PCIE_HP_POWER_LED) control = pcie_slotctl_pwr_indicator_set(control, PCIE_SLOTCTL_INDICATOR_STATE_ON); else if (led == PCIE_HP_ATTN_LED) control = pcie_slotctl_attn_indicator_set(control, PCIE_SLOTCTL_INDICATOR_STATE_ON); break; case PCIE_HP_LED_OFF: if (led == PCIE_HP_POWER_LED) control = pcie_slotctl_pwr_indicator_set(control, PCIE_SLOTCTL_INDICATOR_STATE_OFF); else if (led == PCIE_HP_ATTN_LED) control = pcie_slotctl_attn_indicator_set(control, PCIE_SLOTCTL_INDICATOR_STATE_OFF); break; case PCIE_HP_LED_BLINK: if (led == PCIE_HP_POWER_LED) control = pcie_slotctl_pwr_indicator_set(control, PCIE_SLOTCTL_INDICATOR_STATE_BLINK); else if (led == PCIE_HP_ATTN_LED) control = pcie_slotctl_attn_indicator_set(control, PCIE_SLOTCTL_INDICATOR_STATE_BLINK); break; default: PCIE_DBG("pciehpc_set_led_state() invalid LED state %d\n", state); return; } /* update the Slot Control Register */ pciehpc_issue_hpc_command(ctrl_p, control); #ifdef DEBUG /* get the current state of Slot Control register */ control = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL); PCIE_DBG("pciehpc_set_led_state: slot %d power-led %s attn-led %s\n", slot_p->hs_phy_slot_num, pcie_led_state_text( pciehpc_led_state_to_hpc(pcie_slotctl_pwr_indicator_get(control))), pcie_led_state_text(pciehpc_led_state_to_hpc( pcie_slotctl_attn_indicator_get(control)))); #endif } static void pciehpc_handle_power_fault(dev_info_t *dip) { /* * Hold the parent's ref so that it won't disappear when the taskq is * scheduled to run. */ ndi_hold_devi(dip); if (taskq_dispatch(system_taskq, pciehpc_power_fault_handler, dip, TQ_NOSLEEP) == TASKQID_INVALID) { ndi_rele_devi(dip); PCIE_DBG("pciehpc_intr(): " "Failed to dispatch power fault handler, dip %p\n", dip); } } static void pciehpc_power_fault_handler(void *arg) { dev_info_t *dip = (dev_info_t *)arg; pcie_hp_ctrl_t *ctrl_p; pcie_hp_slot_t *slot_p; /* get the soft state structure for this dip */ if ((ctrl_p = PCIE_GET_HP_CTRL(dip)) == NULL) { ndi_rele_devi(dip); return; } slot_p = ctrl_p->hc_slots[0]; /* * Send the event to DDI Hotplug framework, power off * the slot */ (void) ndi_hp_state_change_req(dip, slot_p->hs_info.cn_name, DDI_HP_CN_STATE_EMPTY, DDI_HP_REQ_SYNC); mutex_enter(&ctrl_p->hc_mutex); pciehpc_set_led_state(ctrl_p, PCIE_HP_ATTN_LED, PCIE_HP_LED_ON); mutex_exit(&ctrl_p->hc_mutex); ndi_rele_devi(dip); } #ifdef DEBUG /* * Dump PCI-E Hot Plug registers. */ static void pciehpc_dump_hpregs(pcie_hp_ctrl_t *ctrl_p) { pcie_hp_slot_t *slot_p = ctrl_p->hc_slots[0]; pcie_bus_t *bus_p = PCIE_DIP2BUS(ctrl_p->hc_dip); uint16_t control; uint32_t capabilities; if (!pcie_debug_flags) return; capabilities = pciehpc_reg_get32(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCAP); control = pciehpc_reg_get16(ctrl_p, bus_p->bus_pcie_off + PCIE_SLOTCTL); PCIE_DBG("pciehpc_dump_hpregs: Found PCI-E hot plug slot %d\n", slot_p->hs_phy_slot_num); PCIE_DBG("Attention Button Present = %s\n", capabilities & PCIE_SLOTCAP_ATTN_BUTTON ? "Yes":"No"); PCIE_DBG("Power controller Present = %s\n", capabilities & PCIE_SLOTCAP_POWER_CONTROLLER ? "Yes":"No"); PCIE_DBG("MRL Sensor Present = %s\n", capabilities & PCIE_SLOTCAP_MRL_SENSOR ? "Yes":"No"); PCIE_DBG("Attn Indicator Present = %s\n", capabilities & PCIE_SLOTCAP_ATTN_INDICATOR ? "Yes":"No"); PCIE_DBG("Power Indicator Present = %s\n", capabilities & PCIE_SLOTCAP_PWR_INDICATOR ? "Yes":"No"); PCIE_DBG("HotPlug Surprise = %s\n", capabilities & PCIE_SLOTCAP_HP_SURPRISE ? "Yes":"No"); PCIE_DBG("HotPlug Capable = %s\n", capabilities & PCIE_SLOTCAP_HP_CAPABLE ? "Yes":"No"); PCIE_DBG("Physical Slot Number = %d\n", PCIE_SLOTCAP_PHY_SLOT_NUM(capabilities)); PCIE_DBG("Attn Button interrupt Enabled = %s\n", control & PCIE_SLOTCTL_ATTN_BTN_EN ? "Yes":"No"); PCIE_DBG("Power Fault interrupt Enabled = %s\n", control & PCIE_SLOTCTL_PWR_FAULT_EN ? "Yes":"No"); PCIE_DBG("MRL Sensor INTR Enabled = %s\n", control & PCIE_SLOTCTL_MRL_SENSOR_EN ? "Yes":"No"); PCIE_DBG("Presence interrupt Enabled = %s\n", control & PCIE_SLOTCTL_PRESENCE_CHANGE_EN ? "Yes":"No"); PCIE_DBG("Cmd Complete interrupt Enabled = %s\n", control & PCIE_SLOTCTL_CMD_INTR_EN ? "Yes":"No"); PCIE_DBG("HotPlug interrupt Enabled = %s\n", control & PCIE_SLOTCTL_HP_INTR_EN ? "Yes":"No"); PCIE_DBG("Power Indicator LED = %s", pcie_led_state_text( pciehpc_led_state_to_hpc(pcie_slotctl_pwr_indicator_get(control)))); PCIE_DBG("Attn Indicator LED = %s\n", pcie_led_state_text(pciehpc_led_state_to_hpc( pcie_slotctl_attn_indicator_get(control)))); } #endif /* DEBUG */