/* * 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. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include #include #include #include #include #include #include #include #define IOCACHE_REGISTERS_DEBUG 0x1 #define IOCACHE_SYNC_DEBUG 0x2 #define IOCACHE_DIAG_REG_DEBUG 0x4 #define IOCACHE_SYNC_FAIL_DEBUG 0x8 #define MAX_RETRY 10 /* Flag which enables the streaming buffer */ int stream_buf_on = 1; /* * This is the number of pages that a mapping request needs before we force * the streaming buffer sync code to use diagnostic registers. This value * was determined through a series of test runs measuring dma mapping * setup performance. */ int stream_buf_sync_using_diag = 36; int stream_buf_init(struct sbus_soft_state *softsp, caddr_t address) { uchar_t version; #ifdef DEBUG debug_info = 1; debug_print_level = 0; #endif version = (uchar_t)(*softsp->sysio_ctrl_reg >> SYSIO_VER_SHIFT); version &= 0xf; if (stream_buf_on == 0 || version == 0) { softsp->stream_buf_off = STREAM_BUF_OFF; if (version == 0) cmn_err(CE_CONT, "Disabling streaming buffer due to " "SYSIO Rev %d.\n", version); return (DDI_SUCCESS); } /* * Simply add each registers offset to the base address * to calculate the already mapped virtual address of * the device register... * * define a macro for the pointer arithmetic; all registers * are 64 bits wide and are defined as uint64_t's. */ #define REG_ADDR(b, o) (uint64_t *)((caddr_t)(b) + (o)) softsp->str_buf_ctrl_reg = REG_ADDR(address, OFF_STR_BUF_CTRL_REG); softsp->str_buf_flush_reg = REG_ADDR(address, OFF_STR_BUF_FLUSH_REG); softsp->str_buf_sync_reg = REG_ADDR(address, OFF_STR_BUF_SYNC_REG); softsp->str_buf_pg_tag_diag = REG_ADDR(address, STR_BUF_PAGE_TAG_DIAG); #undef REG_ADDR DPRINTF(IOCACHE_REGISTERS_DEBUG, ("Streaming buffer control reg: 0x%p, " "Streaming buffer flush reg: 0x%p, Streaming buffer sync reg: 0x%p", softsp->str_buf_ctrl_reg, softsp->str_buf_flush_reg, softsp->str_buf_sync_reg)); /* Initialize stream buffer sync reg mutex */ mutex_init(&softsp->sync_reg_lock, NULL, MUTEX_DEFAULT, NULL); /* Turn on per instance streaming buffer flag */ softsp->stream_buf_off = 0; /* Set the hardware registers */ (void) stream_buf_resume_init(softsp); return (DDI_SUCCESS); } int stream_buf_uninit(struct sbus_soft_state *softsp) { /* Turn off per instance streaming buffer flag */ softsp->stream_buf_off = 1; /* Turn off the streaming buffer */ *softsp->str_buf_ctrl_reg = STREAM_BUF_DISABLE; return (DDI_SUCCESS); } /* * Initialize stream buf hardware when the system is being resumed. * (Subset of stream_buf_init()) */ int stream_buf_resume_init(struct sbus_soft_state *softsp) { uchar_t version; version = (uchar_t)(*softsp->sysio_ctrl_reg >> SYSIO_VER_SHIFT); version &= 0xf; if (stream_buf_on == 0 || version == 0) { softsp->stream_buf_off = STREAM_BUF_OFF; return (DDI_SUCCESS); } /* Turn on the streaming buffer */ *softsp->str_buf_ctrl_reg = STREAM_BUF_ENABLE; return (DDI_SUCCESS); } /* * The SYSIO spec says that it will get back to us within 0.5 seconds, * but loaded systems have seen response times over 1.5 seconds. We * err on the side of caution and set the timeout to be 10 seconds. */ #define SCACHE_NSEC_WAIT (10ull * NANOSEC) /* * We want to avoid using gethrtime every time we check sync_flag, * so we take SCACHE_SPIN laps before beginning to use gethrtime. */ #define SCACHE_SPIN 10000000 void sync_stream_buf(struct sbus_soft_state *softsp, ioaddr_t addr, uint_t npages, int *sync_flag, uint64_t phys_sync_flag) { #ifndef lint volatile uint64_t tmp; #endif int cntr = 0; if (softsp->stream_buf_off != 0) return; DPRINTF(IOCACHE_SYNC_DEBUG, ("sync_stream_buf: ioaddr 0x%x, page cnt " "0x%x, sync flag 0x%p, sync flag pf 0x%lx\n", addr, npages, sync_flag, phys_sync_flag)); ASSERT(npages > (uint_t)0); /* Acquire the sync lock */ mutex_enter(&softsp->sync_reg_lock); *sync_flag = 0; if (npages > stream_buf_sync_using_diag) { int i; volatile uint64_t *reg_addr; uint64_t reg; uint_t ioaddr; uint_t hiaddr = addr + (npages * IOMMU_PAGESIZE); int do_sync = 0; for (i = 0, reg_addr = softsp->str_buf_pg_tag_diag; i < STREAM_CACHE_LINES; i++, reg_addr++) { /* Read the page tag diag reg */ reg = *reg_addr; #ifdef DEBUG { uint_t hi, lo; hi = (uint_t)(reg >> 32); lo = (uint_t)(reg & 0xffffffff); DPRINTF(IOCACHE_DIAG_REG_DEBUG, ("IO cache line diag " "reg addr 0x%p, hi0x%x lo0x%x\n", reg_addr, hi, lo)); } #endif /* DEBUG */ /* Check for a valid line */ if (reg & STR_PG_VALID) { ioaddr = (uint_t)reg << STR_PG_SHIFT; DPRINTF(IOCACHE_DIAG_REG_DEBUG, ("ioaddr 0x%x, " "range base 0x%x, range extent 0x%x\n", ioaddr, addr, addr + (npages * IOMMU_PAGESIZE))); if (ioaddr >= addr && ioaddr <= hiaddr) { *softsp->str_buf_flush_reg = (uint64_t) ioaddr; do_sync = 1; } } } if (!do_sync) { mutex_exit(&softsp->sync_reg_lock); return; } } else { do { *softsp->str_buf_flush_reg = (uint64_t)addr; addr += IOMMU_PAGESIZE; npages--; } while (npages > (uint_t)0); } /* Ask the hardware to flag when the flush is complete */ *softsp->str_buf_sync_reg = phys_sync_flag; #ifndef lint /* * Due to the sun4u memory models, this noncached load will sync the * order of all prior loads and stores regardless of cacheability. * No membar_stst() is needed after zeroing the flush sync flag. */ tmp = *softsp->sbus_ctrl_reg; #endif /* * Begin spinning on the hardware sync register. We'll spin for * a while (SCACHE_SPIN) before using gethrtime, but once that time * is up we'll drop into an inner loop where we use gethrtime on * every iteration. Once SCACHE_NSEC_WAIT nanoseconds have * elapsed, we'll assume a Bad Thing has happened and toss. */ while (!*((volatile int *)sync_flag)) { if (cntr++ == SCACHE_SPIN) { /* * If we're here, then we've spun long enough * to justify use of gethrtime each iteration. */ hrtime_t nsec_start, nsectowait, nsec_current; nsectowait = SCACHE_NSEC_WAIT; nsec_current = nsec_start = gethrtime(); while (!*((volatile int *)sync_flag)) { /* * Double check the sync flag again before * we panic in case we get preempted. * See bugid 4126896 */ nsec_current = gethrtime(); if ((nsec_current - nsec_start) > nsectowait && !*((volatile int *)sync_flag)) { /* * Trouble. The SYSIO chip has * seemingly gone AWOL. Vomit. */ panic("streaming buffer timed out"); } } } } /* Finally, drop the sync lock */ mutex_exit(&softsp->sync_reg_lock); }