pi1ppcvar.h revision 1.1
1 1.1 kurahone /* $NetBSD: pi1ppcvar.h,v 1.1 2005/12/28 08:31:09 kurahone Exp $ */ 2 1.1 kurahone 3 1.1 kurahone /*- 4 1.1 kurahone * Copyright (c) 2001 Alcove - Nicolas Souchu 5 1.1 kurahone * Copyright (c) 2005 Joe Britt <britt (at) danger.com> - SGI PI1 version 6 1.1 kurahone * All rights reserved. 7 1.1 kurahone * 8 1.1 kurahone * Redistribution and use in source and binary forms, with or without 9 1.1 kurahone * modification, are permitted provided that the following conditions 10 1.1 kurahone * are met: 11 1.1 kurahone * 1. Redistributions of source code must retain the above copyright 12 1.1 kurahone * notice, this list of conditions and the following disclaimer. 13 1.1 kurahone * 2. Redistributions in binary form must reproduce the above copyright 14 1.1 kurahone * notice, this list of conditions and the following disclaimer in the 15 1.1 kurahone * documentation and/or other materials provided with the distribution. 16 1.1 kurahone * 17 1.1 kurahone * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 18 1.1 kurahone * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 19 1.1 kurahone * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 20 1.1 kurahone * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 21 1.1 kurahone * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 22 1.1 kurahone * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 23 1.1 kurahone * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 24 1.1 kurahone * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 25 1.1 kurahone * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 26 1.1 kurahone * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 27 1.1 kurahone * SUCH DAMAGE. 28 1.1 kurahone * 29 1.1 kurahone * FreeBSD: src/sys/isa/ppcreg.h,v 1.10.2.4 2001/10/02 05:21:45 nsouch Exp 30 1.1 kurahone * 31 1.1 kurahone */ 32 1.1 kurahone 33 1.1 kurahone #ifndef __PI1PPCVAR_H 34 1.1 kurahone #define __PI1PPCVAR_H 35 1.1 kurahone 36 1.1 kurahone #include <machine/bus.h> 37 1.1 kurahone #include <machine/types.h> 38 1.1 kurahone #include <sys/device.h> 39 1.1 kurahone #include <sys/callout.h> 40 1.1 kurahone 41 1.1 kurahone #include <dev/ppbus/ppbus_conf.h> 42 1.1 kurahone 43 1.1 kurahone 44 1.1 kurahone /* Maximum time to wait for device response */ 45 1.1 kurahone #define MAXBUSYWAIT (5 * (hz)) 46 1.1 kurahone 47 1.1 kurahone /* Poll interval when wating for device to become ready */ 48 1.1 kurahone #define PI1PPC_POLL ((hz)/10) 49 1.1 kurahone 50 1.1 kurahone /* Interrupt priority level for pi1ppc device */ 51 1.1 kurahone #define IPL_PI1PPC IPL_TTY 52 1.1 kurahone #define splpi1ppc spltty 53 1.1 kurahone 54 1.1 kurahone 55 1.1 kurahone /* Diagnostic and verbose printing macros */ 56 1.1 kurahone 57 1.1 kurahone #ifdef PI1PPC_DEBUG 58 1.1 kurahone extern int pi1ppc_debug; 59 1.1 kurahone #define PI1PPC_DPRINTF(arg) if(pi1ppc_debug) printf arg 60 1.1 kurahone #else 61 1.1 kurahone #define PI1PPC_DPRINTF(arg) 62 1.1 kurahone #endif 63 1.1 kurahone 64 1.1 kurahone #ifdef PI1PPC_VERBOSE 65 1.1 kurahone extern int pi1ppc_verbose; 66 1.1 kurahone #define PI1PPC_VPRINTF(arg) if(pi1ppc_verbose) printf arg 67 1.1 kurahone #else 68 1.1 kurahone #define PI1PPC_VPRINTF(arg) 69 1.1 kurahone #endif 70 1.1 kurahone 71 1.1 kurahone 72 1.1 kurahone /* Flag used in DMA transfer */ 73 1.1 kurahone #define PI1PPC_DMA_MODE_READ 0x0 74 1.1 kurahone #define PI1PPC_DMA_MODE_WRITE 0x1 75 1.1 kurahone 76 1.1 kurahone 77 1.1 kurahone /* Flags passed via config */ 78 1.1 kurahone #define PI1PPC_FLAG_DISABLE_INTR 0x01 79 1.1 kurahone #define PI1PPC_FLAG_DISABLE_DMA 0x02 80 1.1 kurahone 81 1.1 kurahone 82 1.1 kurahone /* Locking for pi1ppc device */ 83 1.1 kurahone #if defined(MULTIPROCESSOR) || defined (LOCKDEBUG) 84 1.1 kurahone #include <sys/lock.h> 85 1.1 kurahone #define PI1PPC_SC_LOCK(sc) (&((sc)->sc_lock)) 86 1.1 kurahone #define PI1PPC_LOCK_INIT(sc) simple_lock_init(PI1PPC_SC_LOCK((sc))) 87 1.1 kurahone #define PI1PPC_LOCK(sc) simple_lock(PI1PPC_SC_LOCK((sc))) 88 1.1 kurahone #define PI1PPC_UNLOCK(sc) simple_unlock(PI1PPC_SC_LOCK((sc))) 89 1.1 kurahone #else /* !(MULTIPROCESSOR) && !(LOCKDEBUG) */ 90 1.1 kurahone #define PI1PPC_LOCK_INIT(sc) 91 1.1 kurahone #define PI1PPC_LOCK(sc) 92 1.1 kurahone #define PI1PPC_UNLOCK(sc) 93 1.1 kurahone #define PI1PPC_SC_LOCK(sc) NULL 94 1.1 kurahone #endif /* MULTIPROCESSOR || LOCKDEBUG */ 95 1.1 kurahone 96 1.1 kurahone /* Single softintr callback entry */ 97 1.1 kurahone struct pi1ppc_handler_node { 98 1.1 kurahone void (*func)(void *); 99 1.1 kurahone void * arg; 100 1.1 kurahone SLIST_ENTRY(pi1ppc_handler_node) entries; 101 1.1 kurahone }; 102 1.1 kurahone 103 1.1 kurahone /* Generic structure to hold parallel port chipset info. */ 104 1.1 kurahone struct pi1ppc_softc { 105 1.1 kurahone /* Generic device attributes */ 106 1.1 kurahone struct device sc_dev; 107 1.1 kurahone 108 1.1 kurahone #if defined(MULTIPROCESSOR) || defined(LOCKDEBUG) 109 1.1 kurahone /* Simple lock */ 110 1.1 kurahone struct simplelock sc_lock; 111 1.1 kurahone #endif 112 1.1 kurahone 113 1.1 kurahone /* Machine independent bus infrastructure */ 114 1.1 kurahone bus_space_tag_t sc_iot; 115 1.1 kurahone bus_space_handle_t sc_ioh; 116 1.1 kurahone bus_dma_tag_t sc_dmat; 117 1.1 kurahone bus_dmamap_t sc_dmapt; 118 1.1 kurahone bus_size_t sc_dma_maxsize; 119 1.1 kurahone 120 1.1 kurahone /* Child device */ 121 1.1 kurahone struct device * child; 122 1.1 kurahone 123 1.1 kurahone /* Opaque handle used for interrupt handler establishment */ 124 1.1 kurahone void * sc_ieh; 125 1.1 kurahone 126 1.1 kurahone /* List of soft interrupts to call */ 127 1.1 kurahone SLIST_HEAD(handler_list, pi1ppc_handler_node) sc_handler_listhead; 128 1.1 kurahone 129 1.1 kurahone /* Input buffer: working pointers, and size in bytes. */ 130 1.1 kurahone char * sc_inb; 131 1.1 kurahone char * sc_inbstart; 132 1.1 kurahone u_int32_t sc_inb_nbytes; 133 1.1 kurahone int sc_inerr; 134 1.1 kurahone 135 1.1 kurahone /* Output buffer pointer, working pointer, and size in bytes. */ 136 1.1 kurahone char * sc_outb; 137 1.1 kurahone char * sc_outbstart; 138 1.1 kurahone u_int32_t sc_outb_nbytes; 139 1.1 kurahone int sc_outerr; 140 1.1 kurahone 141 1.1 kurahone /* DMA functions: setup by bus specific attach code */ 142 1.1 kurahone int (*sc_dma_start)(struct pi1ppc_softc *, void *, u_int, u_int8_t); 143 1.1 kurahone int (*sc_dma_finish)(struct pi1ppc_softc *); 144 1.1 kurahone int (*sc_dma_abort)(struct pi1ppc_softc *); 145 1.1 kurahone int (*sc_dma_malloc)(struct device *, caddr_t *, bus_addr_t *, 146 1.1 kurahone bus_size_t); 147 1.1 kurahone void (*sc_dma_free)(struct device *, caddr_t *, bus_addr_t *, 148 1.1 kurahone bus_size_t); 149 1.1 kurahone 150 1.1 kurahone /* Microsequence related members */ 151 1.1 kurahone char * sc_ptr; /* microseq current pointer */ 152 1.1 kurahone int sc_accum; /* microseq accumulator */ 153 1.1 kurahone 154 1.1 kurahone /* Device attachment state */ 155 1.1 kurahone #define PI1PPC_ATTACHED 1 156 1.1 kurahone #define PI1PPC_NOATTACH 0 157 1.1 kurahone u_int8_t sc_dev_ok; 158 1.1 kurahone 159 1.1 kurahone /* 160 1.1 kurahone * Hardware capabilities flags: standard mode and nibble mode are 161 1.1 kurahone * assumed to always be available since if they aren't you don't 162 1.1 kurahone * HAVE a parallel port. 163 1.1 kurahone */ 164 1.1 kurahone #define PI1PPC_HAS_INTR 0x01 /* Interrupt available */ 165 1.1 kurahone #define PI1PPC_HAS_DMA 0x02 /* DMA available */ 166 1.1 kurahone #define PI1PPC_HAS_FIFO 0x04 /* FIFO available */ 167 1.1 kurahone #define PI1PPC_HAS_PS2 0x08 /* PS2 mode capable */ 168 1.1 kurahone u_int8_t sc_has; /* Chipset detected capabilities */ 169 1.1 kurahone 170 1.1 kurahone /* Flags specifying mode of chipset operation . */ 171 1.1 kurahone #define PI1PPC_MODE_STD 0x01 /* Use centronics-compatible mode */ 172 1.1 kurahone #define PI1PPC_MODE_PS2 0x02 /* Use PS2 mode */ 173 1.1 kurahone #define PI1PPC_MODE_NIBBLE 0x10 /* Use nibble mode */ 174 1.1 kurahone u_int8_t sc_mode; /* Current operational mode */ 175 1.1 kurahone 176 1.1 kurahone /* Flags which further define chipset operation */ 177 1.1 kurahone #define PI1PPC_USE_INTR 0x01 /* Use interrupts */ 178 1.1 kurahone #define PI1PPC_USE_DMA 0x02 /* Use DMA */ 179 1.1 kurahone u_int8_t sc_use; /* Capabilities to use */ 180 1.1 kurahone 181 1.1 kurahone /* Parallel Port Chipset model. */ 182 1.1 kurahone #define GENERIC 6 183 1.1 kurahone u_int8_t sc_model; /* chipset model */ 184 1.1 kurahone 185 1.1 kurahone /* EPP mode - UNUSED */ 186 1.1 kurahone u_int8_t sc_epp; 187 1.1 kurahone 188 1.1 kurahone /* Parallel Port Chipset Type. Only Indy-style needed? */ 189 1.1 kurahone #define PI1PPC_TYPE_INDY 0 190 1.1 kurahone u_int8_t sc_type; 191 1.1 kurahone 192 1.1 kurahone /* Stored register values after an interrupt occurs */ 193 1.1 kurahone u_int8_t sc_ecr_intr; 194 1.1 kurahone u_int8_t sc_ctr_intr; 195 1.1 kurahone u_int8_t sc_str_intr; 196 1.1 kurahone 197 1.1 kurahone #define PI1PPC_IRQ_NONE 0x0 198 1.1 kurahone #define PI1PPC_IRQ_nACK 0x1 199 1.1 kurahone #define PI1PPC_IRQ_DMA 0x2 200 1.1 kurahone #define PI1PPC_IRQ_FIFO 0x4 201 1.1 kurahone #define PI1PPC_IRQ_nFAULT 0x8 202 1.1 kurahone u_int8_t sc_irqstat; /* Record irq settings */ 203 1.1 kurahone 204 1.1 kurahone #define PI1PPC_DMA_INIT 0x01 205 1.1 kurahone #define PI1PPC_DMA_STARTED 0x02 206 1.1 kurahone #define PI1PPC_DMA_COMPLETE 0x03 207 1.1 kurahone #define PI1PPC_DMA_INTERRUPTED 0x04 208 1.1 kurahone #define PI1PPC_DMA_ERROR 0x05 209 1.1 kurahone u_int8_t sc_dmastat; /* Record dma state */ 210 1.1 kurahone 211 1.1 kurahone #define PI1PPC_PWORD_MASK 0x30 212 1.1 kurahone #define PI1PPC_PWORD_16 0x00 213 1.1 kurahone #define PI1PPC_PWORD_8 0x10 214 1.1 kurahone #define PI1PPC_PWORD_32 0x20 215 1.1 kurahone u_int8_t sc_pword; /* PWord size: used for FIFO DMA transfers */ 216 1.1 kurahone u_int8_t sc_fifo; /* FIFO size */ 217 1.1 kurahone 218 1.1 kurahone /* Indicates number of PWords in FIFO queues that generate interrupt */ 219 1.1 kurahone u_int8_t sc_wthr; /* writeIntrThresold */ 220 1.1 kurahone u_int8_t sc_rthr; /* readIntrThresold */ 221 1.1 kurahone }; 222 1.1 kurahone 223 1.1 kurahone 224 1.1 kurahone 225 1.1 kurahone #ifdef _KERNEL 226 1.1 kurahone 227 1.1 kurahone /* Function prototypes */ 228 1.1 kurahone 229 1.1 kurahone /* Soft config attach/detach routines */ 230 1.1 kurahone void pi1ppc_sc_attach(struct pi1ppc_softc *); 231 1.1 kurahone int pi1ppc_sc_detach(struct pi1ppc_softc *, int); 232 1.1 kurahone 233 1.1 kurahone /* Detection routines */ 234 1.1 kurahone int pi1ppc_detect_port(bus_space_tag_t, bus_space_handle_t); 235 1.1 kurahone 236 1.1 kurahone /* Interrupt handler for pi1ppc device */ 237 1.1 kurahone int pi1ppcintr(void *); 238 1.1 kurahone 239 1.1 kurahone #endif /* _KERNEL */ 240 1.1 kurahone 241 1.1 kurahone #endif /* __PI1PPCVAR_H */ 242
Indexes created Thu Oct 02 01:09:59 GMT 2025