/* $NetBSD: alpha_pci_io.c,v 1.8 2017/02/20 15:23:43 rin Exp $ */ /*- * Copyright (c) 2000 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by Jason R. Thorpe. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ /* * Support for x86-style programmed I/O to PCI/EISA/ISA I/O space. This * is currently used to provide such support for XFree86. In a perfect * world, this would go away in favor of a real bus space mapping framework. */ #include #include #include #include #include #include struct alpha_bus_window *alpha_pci_io_windows; int alpha_pci_io_window_count; uint8_t alpha_pci_io_swiz_inb(bus_addr_t); uint16_t alpha_pci_io_swiz_inw(bus_addr_t); uint32_t alpha_pci_io_swiz_inl(bus_addr_t); void alpha_pci_io_swiz_outb(bus_addr_t, uint8_t); void alpha_pci_io_swiz_outw(bus_addr_t, uint16_t); void alpha_pci_io_swiz_outl(bus_addr_t, uint32_t); const struct alpha_pci_io_ops alpha_pci_io_swiz_ops = { alpha_pci_io_swiz_inb, alpha_pci_io_swiz_inw, alpha_pci_io_swiz_inl, alpha_pci_io_swiz_outb, alpha_pci_io_swiz_outw, alpha_pci_io_swiz_outl, }; uint8_t alpha_pci_io_bwx_inb(bus_addr_t); uint16_t alpha_pci_io_bwx_inw(bus_addr_t); uint32_t alpha_pci_io_bwx_inl(bus_addr_t); void alpha_pci_io_bwx_outb(bus_addr_t, uint8_t); void alpha_pci_io_bwx_outw(bus_addr_t, uint16_t); void alpha_pci_io_bwx_outl(bus_addr_t, uint32_t); const struct alpha_pci_io_ops alpha_pci_io_bwx_ops = { alpha_pci_io_bwx_inb, alpha_pci_io_bwx_inw, alpha_pci_io_bwx_inl, alpha_pci_io_bwx_outb, alpha_pci_io_bwx_outw, alpha_pci_io_bwx_outl, }; const struct alpha_pci_io_ops *alpha_pci_io_switch; int alpha_pci_io_enable(int onoff) { struct alpha_bus_window *abw; int i, count; if (onoff == 0 && alpha_pci_io_windows != NULL) { for (i = 0; i < alpha_pci_io_window_count; i++) alpha_bus_unmapwindow(&alpha_pci_io_windows[i]); free(alpha_pci_io_windows); alpha_pci_io_windows = NULL; alpha_pci_io_window_count = 0; alpha_pci_io_switch = NULL; return (0); } else if (onoff == 0) return (0); else if (alpha_pci_io_windows != NULL) return (0); count = alpha_bus_getwindows(ALPHA_BUS_TYPE_PCI_IO, &abw); if (count <= 0) return (-1); for (i = 0; i < count; i++) { if (alpha_bus_mapwindow(&abw[i]) == -1) { free(abw); return (-1); } } alpha_pci_io_windows = abw; alpha_pci_io_window_count = count; if (abw->abw_abst.abst_flags & ABST_BWX) alpha_pci_io_switch = &alpha_pci_io_bwx_ops; else alpha_pci_io_switch = &alpha_pci_io_swiz_ops; return (0); } static inline struct alpha_bus_window * alpha_pci_io_findwindow(bus_addr_t ioaddr) { struct alpha_bus_window *abw; int i; /* XXX Cache the last hit? */ for (i = 0; i < alpha_pci_io_window_count; i++) { abw = &alpha_pci_io_windows[i]; if (ioaddr >= abw->abw_abst.abst_bus_start && ioaddr <= abw->abw_abst.abst_bus_end) return (abw); } warnx("alpha_pci_io_findwindow: no window for 0x%lx, ABORTING!", (u_long) ioaddr); abort(); /* NOTREACHED */ } static inline uint32_t * alpha_pci_io_swiz(bus_addr_t ioaddr, int size) { struct alpha_bus_window *abw = alpha_pci_io_findwindow(ioaddr); uint32_t *port; /* LINTED */ port = (uint32_t *) ((char *)abw->abw_addr + (((ioaddr - abw->abw_abst.abst_bus_start) << abw->abw_abst.abst_addr_shift) | (size << abw->abw_abst.abst_size_shift))); return (port); } uint8_t alpha_pci_io_swiz_inb(bus_addr_t ioaddr) { uint32_t *port = alpha_pci_io_swiz(ioaddr, 0); bus_addr_t offset = ioaddr & 3; alpha_mb(); return ((*port >> (8 * offset)) & 0xff); } uint16_t alpha_pci_io_swiz_inw(bus_addr_t ioaddr) { uint32_t *port = alpha_pci_io_swiz(ioaddr, 1); bus_addr_t offset = ioaddr & 3; alpha_mb(); return ((*port >> (8 * offset)) & 0xffff); } uint32_t alpha_pci_io_swiz_inl(bus_addr_t ioaddr) { uint32_t *port = alpha_pci_io_swiz(ioaddr, 3); alpha_mb(); return (*port); } void alpha_pci_io_swiz_outb(bus_addr_t ioaddr, uint8_t val) { uint32_t *port = alpha_pci_io_swiz(ioaddr, 0); bus_addr_t offset = ioaddr & 3; uint32_t nval = ((uint32_t)val) << (uint32_t)(8 * offset); *port = nval; alpha_mb(); } void alpha_pci_io_swiz_outw(bus_addr_t ioaddr, uint16_t val) { uint32_t *port = alpha_pci_io_swiz(ioaddr, 1); bus_addr_t offset = ioaddr & 3; uint32_t nval = ((uint32_t)val) << (uint32_t)(8 * offset); *port = nval; alpha_mb(); } void alpha_pci_io_swiz_outl(bus_addr_t ioaddr, uint32_t val) { uint32_t *port = alpha_pci_io_swiz(ioaddr, 3); *port = val; alpha_mb(); } /* * The following functions are used only on EV56 and greater CPUs, * and the assembler requires going to EV56 mode in order to emit * these instructions. */ __asm(".arch ev56"); #include uint8_t alpha_pci_io_bwx_inb(bus_addr_t ioaddr) { struct alpha_bus_window *abw = alpha_pci_io_findwindow(ioaddr); uint8_t *port = (uint8_t *) ((char *)abw->abw_addr + (ioaddr - abw->abw_abst.abst_bus_start)); alpha_mb(); return (alpha_ldbu(port)); } uint16_t alpha_pci_io_bwx_inw(bus_addr_t ioaddr) { struct alpha_bus_window *abw = alpha_pci_io_findwindow(ioaddr); /* LINTED */ uint16_t *port = (uint16_t *) ((char *)abw->abw_addr + (ioaddr - abw->abw_abst.abst_bus_start)); alpha_mb(); return (alpha_ldwu(port)); } uint32_t alpha_pci_io_bwx_inl(bus_addr_t ioaddr) { struct alpha_bus_window *abw = alpha_pci_io_findwindow(ioaddr); /* LINTED */ uint32_t *port = (uint32_t *) ((char *)abw->abw_addr + (ioaddr - abw->abw_abst.abst_bus_start)); alpha_mb(); return (*port); } void alpha_pci_io_bwx_outb(bus_addr_t ioaddr, uint8_t val) { struct alpha_bus_window *abw = alpha_pci_io_findwindow(ioaddr); uint8_t *port = (uint8_t *) ((char *)abw->abw_addr + (ioaddr - abw->abw_abst.abst_bus_start)); alpha_stb(port, val); alpha_mb(); } void alpha_pci_io_bwx_outw(bus_addr_t ioaddr, uint16_t val) { struct alpha_bus_window *abw = alpha_pci_io_findwindow(ioaddr); /* LINTED */ uint16_t *port = (uint16_t *) ((char *)abw->abw_addr + (ioaddr - abw->abw_abst.abst_bus_start)); alpha_stw(port, val); alpha_mb(); } void alpha_pci_io_bwx_outl(bus_addr_t ioaddr, uint32_t val) { struct alpha_bus_window *abw = alpha_pci_io_findwindow(ioaddr); /* LINTED */ uint32_t *port = (uint32_t *) ((char *)abw->abw_addr + (ioaddr - abw->abw_abst.abst_bus_start)); *port = val; alpha_mb(); }