/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (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 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _SYS_PCI_IB_H #define _SYS_PCI_IB_H #pragma ident "%Z%%M% %I% %E% SMI" #ifdef __cplusplus extern "C" { #endif #include #include typedef uint8_t ib_ino_t; typedef uint16_t ib_mondo_t; typedef struct ib_ino_info ib_ino_info_t; typedef uint8_t device_num_t; typedef uint8_t interrupt_t; /* * interrupt block soft state structure: * * Each pci node may share an interrupt block structure with its peer * node or have its own private interrupt block structure. */ typedef struct ib ib_t; struct ib { pci_t *ib_pci_p; /* link back to pci soft state */ pci_ign_t ib_ign; /* interrupt group # */ /* * PCI slot and onboard I/O interrupt mapping register blocks addresses: */ uintptr_t ib_slot_intr_map_regs; #define ib_intr_map_regs ib_slot_intr_map_regs uintptr_t ib_obio_intr_map_regs; /* * PCI slot and onboard I/O clear interrupt register block addresses: */ uintptr_t ib_slot_clear_intr_regs; uintptr_t ib_obio_clear_intr_regs; /* * UPA expansion slot interrupt mapping register addresses: */ volatile uint64_t *ib_upa_imr[2]; uint64_t ib_upa_imr_state[2]; /* * Interrupt retry register address: */ volatile uint64_t *ib_intr_retry_timer_reg; /* * PCI slot and onboard I/O interrupt state diag register addresses: */ volatile uint64_t *ib_slot_intr_state_diag_reg; volatile uint64_t *ib_obio_intr_state_diag_reg; uint_t ib_max_ino; /* largest supported INO */ ib_ino_info_t *ib_ino_lst; /* ino link list */ kmutex_t ib_ino_lst_mutex; /* mutex for ino link list */ kmutex_t ib_intr_lock; /* lock for internal intr */ uint16_t ib_map_reg_counters[8]; /* counters for shared map */ /* registers */ }; #define PCI_PULSE_INO 0x80000000 #define PSYCHO_MAX_INO 0x3f #define SCHIZO_MAX_INO 0x37 #define PCI_INO_BITS 6 /* INO#s are 6 bits long */ #define PCI_IGN_BITS 5 /* IGN#s are 5 bits long */ /* * The following structure represents an interrupt entry for an INO. */ typedef struct ih { dev_info_t *ih_dip; /* devinfo structure */ uint32_t ih_inum; /* interrupt number for this device */ uint_t ih_intr_state; /* Only used for fixed interrupts */ uint_t (*ih_handler)(); /* interrupt handler */ caddr_t ih_handler_arg1; /* interrupt handler argument #1 */ caddr_t ih_handler_arg2; /* interrupt handler argument #2 */ ddi_acc_handle_t ih_config_handle; /* config space reg map handle */ struct ih *ih_next; /* next entry in list */ uint64_t ih_ticks; /* ticks spent in this handler */ uint64_t ih_nsec; /* nsec spent in this handler */ kstat_t *ih_ksp; struct ib_ino_info *ih_ino_p; /* only for use by kstat */ } ih_t; /* Only used for fixed or legacy interrupts */ #define PCI_INTR_STATE_DISABLE 0 /* disabled */ #define PCI_INTR_STATE_ENABLE 1 /* enabled */ /* * ino structure : one per each psycho slot ino with interrupt registered */ struct ib_ino_info { ib_ino_t ino_ino; /* INO number - 8 bit */ uint8_t ino_slot_no; /* PCI slot number 0-8 */ uint16_t ino_ih_size; /* size of the pci intrspec list */ struct ib_ino_info *ino_next; ih_t *ino_ih_head; /* intr spec (part of ppd) list head */ ih_t *ino_ih_tail; /* intr spec (part of ppd) list tail */ ih_t *ino_ih_start; /* starting point in intr spec list */ ib_t *ino_ib_p; /* link back to interrupt block state */ volatile uint64_t *ino_clr_reg; /* ino interrupt clear register */ volatile uint64_t *ino_map_reg; /* ino interrupt mapping register */ uint64_t ino_map_reg_save; /* = *ino_map_reg if saved */ uint32_t ino_pil; /* PIL for this ino */ volatile uint_t ino_unclaimed; /* number of unclaimed interrupts */ clock_t ino_spurintr_begin; /* begin time of spurious intr series */ int ino_established; /* ino has been associated with a cpu */ uint32_t ino_cpuid; /* cpu that ino is targeting */ int32_t ino_intr_weight; /* intr weight of devices sharing ino */ uint64_t ino_mondo; /* store mondo number */ }; #define IB_INTR_WAIT 1 /* wait for interrupt completion */ #define IB_INTR_NOWAIT 0 /* already handling intr, no wait */ #define IB2CB(ib_p) ((ib_p)->ib_pci_p->pci_cb_p) #define IB_MONDO_TO_INO(mondo) ((ib_ino_t)((mondo) & 0x3f)) #define IB_INO_INTR_ON(reg_p) *(reg_p) |= COMMON_INTR_MAP_REG_VALID #define IB_INO_INTR_OFF(reg_p) *(reg_p) &= ~COMMON_INTR_MAP_REG_VALID #define IB_INO_INTR_RESET(reg_p) *(reg_p) = 0ull #define IB_INO_INTR_STATE_REG(ib_p, ino) ((ino) & 0x20 ? \ ib_p->ib_obio_intr_state_diag_reg : ib_p->ib_slot_intr_state_diag_reg) #define IB_INO_INTR_PENDING(reg_p, ino) \ (((*(reg_p) >> (((ino) & 0x1f) << 1)) & COMMON_CLEAR_INTR_REG_MASK) == \ COMMON_CLEAR_INTR_REG_PENDING) #define IB_INO_INTR_CLEAR(reg_p) *(reg_p) = COMMON_CLEAR_INTR_REG_IDLE #define IB_INO_INTR_TRIG(reg_p) *(reg_p) = COMMON_CLEAR_INTR_REG_RECEIVED #define IB_INO_INTR_PEND(reg_p) *(reg_p) = COMMON_CLEAR_INTR_REG_PENDING #define IB_INO_INTR_ISON(imr) ((imr) >> 31) #define IB_IMR2MONDO(imr) \ ((imr) & (COMMON_INTR_MAP_REG_IGN | COMMON_INTR_MAP_REG_INO)) #define IB_IS_OBIO_INO(ino) (ino & 0x20) #ifdef _STARFIRE /* * returns a uniq ino per interrupt mapping register * For on board devices, inos are not shared. But for plugin devices, * return the 1st ino of the 4 that are sharing the same mapping register. */ #define IB_GET_MAPREG_INO(ino) \ ((volatile uint64_t *)((ino & 0x20) ? ino : ((ino >> 2) << 2))) #endif /* _STARFIRE */ #define IB_IGN_TO_MONDO(ign, ino) (((ign) << PCI_INO_BITS) | (ino)) #define IB_INO_TO_MONDO(ib_p, ino) IB_IGN_TO_MONDO((ib_p)->ib_ign, ino) extern void ib_create(pci_t *pci_p); extern void ib_destroy(pci_t *pci_p); extern void ib_configure(ib_t *ib_p); extern uint64_t ib_get_map_reg(ib_mondo_t mondo, uint32_t cpu_id); extern void ib_intr_enable(pci_t *pci_p, ib_ino_t ino); extern void ib_intr_disable(ib_t *ib_p, ib_ino_t ino, int wait); extern void ib_nintr_clear(ib_t *ib_p, ib_ino_t ino); extern void ib_suspend(ib_t *ib_p); extern void ib_resume(ib_t *ib_p); extern ib_ino_info_t *ib_locate_ino(ib_t *ib_p, ib_ino_t ino_num); extern ib_ino_info_t *ib_new_ino(ib_t *ib_p, ib_ino_t ino_num, ih_t *ih_p); extern void ib_delete_ino(ib_t *ib_p, ib_ino_info_t *ino_p); extern void ib_free_ino_all(ib_t *ib_p); extern int ib_update_intr_state(pci_t *pci_p, dev_info_t *rdip, ddi_intr_handle_impl_t *hdlp, uint_t new_intr_state); extern void ib_ino_add_intr(pci_t *pci_p, ib_ino_info_t *ino_p, ih_t *ih_p); extern void ib_ino_rem_intr(pci_t *pci_p, ib_ino_info_t *ino_p, ih_t *ih_p); extern ih_t *ib_ino_locate_intr(ib_ino_info_t *ino_p, dev_info_t *dip, uint32_t inum); extern ih_t *ib_alloc_ih(dev_info_t *dip, uint32_t inum, uint_t (*int_handler)(caddr_t int_handler_arg1, caddr_t int_handler_arg2), caddr_t int_handler_arg1, caddr_t int_handler_arg2); extern void ib_free_ih(ih_t *ih_p); extern void ib_ino_map_reg_share(ib_t *ib_p, ib_ino_t ino, ib_ino_info_t *ino_p); extern int ib_ino_map_reg_unshare(ib_t *ib_p, ib_ino_t ino, ib_ino_info_t *ino_p); extern uint32_t ib_register_intr(ib_t *ib_p, ib_mondo_t mondo, uint_t pil, uint_t (*handler)(caddr_t arg), caddr_t arg); extern void ib_unregister_intr(ib_mondo_t mondo); extern void ib_intr_dist_nintr(ib_t *ib_p, ib_ino_t ino, volatile uint64_t *imr_p); extern void ib_intr_dist_all(void *arg, int32_t max_weight, int32_t weight); extern void ib_cpu_ticks_to_ih_nsec(ib_t *ib_p, ih_t *ih_p, uint32_t cpu_id); extern uint8_t ib_get_ino_devs(ib_t *ib_p, uint32_t ino, uint8_t *devs_ret, pcitool_intr_dev_t *devs); extern void ib_log_new_cpu(ib_t *ib_p, uint32_t old_cpu_id, uint32_t new_cpu_id, uint32_t ino); extern int pci_pil[]; #ifdef __cplusplus } #endif #endif /* _SYS_PCI_IB_H */