/*- * Copyright (c) 1997, 1998 Nicolas Souchu * All rights reserved. * * 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 AUTHOR 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 AUTHOR 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. * * $Id: ppbconf.h,v 1.12 1999/01/27 19:44:05 dillon Exp $ * */ #ifndef __PPBCONF_H #define __PPBCONF_H #include /* * Parallel Port Bus sleep/wakeup queue. */ #define PPBPRI (PZERO+8) /* * Parallel Port Chipset mode masks. * NIBBLE mode is supposed to be available under each other modes. */ #define PPB_COMPATIBLE 0x0 /* Centronics compatible mode */ #define PPB_NIBBLE 0x1 /* reverse 4 bit mode */ #define PPB_PS2 0x2 /* PS/2 byte mode */ #define PPB_EPP 0x4 /* EPP mode, 32 bit */ #define PPB_ECP 0x8 /* ECP mode */ /* mode aliases */ #define PPB_SPP PPB_NIBBLE|PPB_PS2 #define PPB_BYTE PPB_PS2 #define PPB_MASK 0x0f #define PPB_OPTIONS_MASK 0xf0 #define PPB_IS_EPP(mode) (mode & PPB_EPP) #define PPB_IN_EPP_MODE(dev) (PPB_IS_EPP (ppb_get_mode (dev))) #define PPB_IN_NIBBLE_MODE(dev) (ppb_get_mode (dev) & PPB_NIBBLE) #define PPB_IN_PS2_MODE(dev) (ppb_get_mode (dev) & PPB_PS2) #define n(flags) (~(flags) & (flags)) /* * Parallel Port Chipset control bits. */ #define STROBE 0x01 #define AUTOFEED 0x02 #define nINIT 0x04 #define SELECTIN 0x08 #define IRQENABLE 0x10 #define PCD 0x20 #define nSTROBE n(STROBE) #define nAUTOFEED n(AUTOFEED) #define INIT n(nINIT) #define nSELECTIN n(SELECTIN) #define nPCD n(PCD) /* * Parallel Port Chipset status bits. */ #define TIMEOUT 0x01 #define nFAULT 0x08 #define SELECT 0x10 #define PERROR 0x20 #define nACK 0x40 #define nBUSY 0x80 /* * Structure to store status information. */ struct ppb_status { unsigned char status; unsigned int timeout:1; unsigned int error:1; unsigned int select:1; unsigned int paper_end:1; unsigned int ack:1; unsigned int busy:1; }; /* * How tsleep() is called in ppb_request_bus(). */ #define PPB_DONTWAIT 0 #define PPB_NOINTR 0 #define PPB_WAIT 0x1 #define PPB_INTR 0x2 #define PPB_POLL 0x4 #define PPB_FOREVER -1 /* * Microsequence stuff. */ #define PPB_MS_MAXLEN 64 /* XXX according to MS_INS_MASK */ #define PPB_MS_MAXARGS 3 /* according to MS_ARG_MASK */ /* maximum number of mode dependent * submicrosequences for in/out operations */ #define PPB_MAX_XFER 6 union ppb_insarg { int i; void *p; int (* f)(void *, char *); }; struct ppb_microseq { int opcode; /* microins. opcode */ union ppb_insarg arg[PPB_MS_MAXARGS]; /* arguments */ }; /* microseqences used for GET/PUT operations */ struct ppb_xfer { struct ppb_microseq *loop; /* the loop microsequence */ }; /* * Parallel Port Bus Device structure. */ struct ppb_data; /* see below */ struct ppb_context { int valid; /* 1 if the struct is valid */ int mode; /* XXX chipset operating mode */ struct microseq *curpc; /* pc in curmsq */ struct microseq *curmsq; /* currently executed microseqence */ }; struct ppb_device { int id_unit; /* unit of the device */ char *name; /* name of the device */ ushort mode; /* current mode of the device */ ushort avm; /* available IEEE1284 modes of * the device */ struct ppb_context ctx; /* context of the device */ /* mode dependent get msq. If NULL, * IEEE1284 code is used */ struct ppb_xfer get_xfer[PPB_MAX_XFER]; /* mode dependent put msq. If NULL, * IEEE1284 code is used */ struct ppb_xfer put_xfer[PPB_MAX_XFER]; void (*intr)(int); /* interrupt handler */ struct ppb_data *ppb; /* link to the ppbus */ LIST_ENTRY(ppb_device) chain; /* list of devices on the bus */ }; /* * Parallel Port Bus Adapter structure. */ struct ppb_adapter { void (*intr_handler)(int); void (*reset_epp_timeout)(int); void (*ecp_sync)(int); int (*exec_microseq)(int, struct ppb_microseq **); int (*setmode)(int, int); int (*read)(int, char *, int, int); int (*write)(int, char *, int, int); void (*outsb_epp)(int, char *, int); void (*outsw_epp)(int, char *, int); void (*outsl_epp)(int, char *, int); void (*insb_epp)(int, char *, int); void (*insw_epp)(int, char *, int); void (*insl_epp)(int, char *, int); u_char (*r_dtr)(int); u_char (*r_str)(int); u_char (*r_ctr)(int); u_char (*r_epp_A)(int); u_char (*r_epp_D)(int); u_char (*r_ecr)(int); u_char (*r_fifo)(int); void (*w_dtr)(int, char); void (*w_str)(int, char); void (*w_ctr)(int, char); void (*w_epp_A)(int, char); void (*w_epp_D)(int, char); void (*w_ecr)(int, char); void (*w_fifo)(int, char); }; /* * ppb_link structure. */ struct ppb_link { int adapter_unit; /* unit of the adapter */ int base; /* base address of the port */ int id_irq; /* != 0 if irq enabled */ int accum; /* microseq accum */ char *ptr; /* current buffer pointer */ #define EPP_1_9 0x0 /* default */ #define EPP_1_7 0x1 int epp_protocol; /* EPP protocol: 0=1.9, 1=1.7 */ struct ppb_adapter *adapter; /* link to the ppc adapter */ struct ppb_data *ppbus; /* link to the ppbus */ }; /* * Maximum size of the PnP info string */ #define PPB_PnP_STRING_SIZE 256 /* XXX */ /* * Parallel Port Bus structure. */ struct ppb_data { #define PPB_PnP_PRINTER 0 #define PPB_PnP_MODEM 1 #define PPB_PnP_NET 2 #define PPB_PnP_HDC 3 #define PPB_PnP_PCMCIA 4 #define PPB_PnP_MEDIA 5 #define PPB_PnP_FDC 6 #define PPB_PnP_PORTS 7 #define PPB_PnP_SCANNER 8 #define PPB_PnP_DIGICAM 9 #define PPB_PnP_UNKNOWN 10 int class_id; /* not a PnP device if class_id < 0 */ int state; /* current IEEE1284 state */ int error; /* last IEEE1284 error */ ushort mode; /* IEEE 1284-1994 mode * NIBBLE, PS2, EPP or ECP */ struct ppb_link *ppb_link; /* link to the adapter */ struct ppb_device *ppb_owner; /* device which owns the bus */ LIST_HEAD(, ppb_device) ppb_devs; /* list of devices on the bus */ LIST_ENTRY(ppb_data) ppb_chain; /* list of busses */ }; /* * Parallel Port Bus driver structure. */ struct ppb_driver { struct ppb_device *(*probe)(struct ppb_data *ppb); int (*attach)(struct ppb_device *pdp); char *name; }; extern struct linker_set ppbdriver_set; extern struct ppb_data *ppb_alloc_bus(void); extern struct ppb_data *ppb_next_bus(struct ppb_data *); extern struct ppb_data *ppb_lookup_bus(int); extern struct ppb_data *ppb_lookup_link(int); extern int ppb_attach_device(struct ppb_device *); extern void ppb_remove_device(struct ppb_device *); extern int ppb_attachdevs(struct ppb_data *); extern int ppb_request_bus(struct ppb_device *, int); extern int ppb_release_bus(struct ppb_device *); extern void ppb_intr(struct ppb_link *); extern int ppb_poll_device(struct ppb_device *, int, char, char, int); extern int ppb_reset_epp_timeout(struct ppb_device *); extern int ppb_ecp_sync(struct ppb_device *); extern int ppb_get_status(struct ppb_device *, struct ppb_status *); extern int ppb_set_mode(struct ppb_device *, int); extern int ppb_write(struct ppb_device *, char *, int, int); /* * These are defined as macros for speedup. */ #define ppb_get_base_addr(dev) ((dev)->ppb->ppb_link->base) #define ppb_get_epp_protocol(dev) ((dev)->ppb->ppb_link->epp_protocol) #define ppb_get_irq(dev) ((dev)->ppb->ppb_link->id_irq) #define ppb_get_mode(dev) ((dev)->mode) /* This set of function access only to the EPP _data_ registers * in 8, 16 and 32 bit modes */ #define ppb_outsb_epp(dev,buf,cnt) \ (*(dev)->ppb->ppb_link->adapter->outsb_epp) \ ((dev)->ppb->ppb_link->adapter_unit, buf, cnt) #define ppb_outsw_epp(dev,buf,cnt) \ (*(dev)->ppb->ppb_link->adapter->outsw_epp) \ ((dev)->ppb->ppb_link->adapter_unit, buf, cnt) #define ppb_outsl_epp(dev,buf,cnt) \ (*(dev)->ppb->ppb_link->adapter->outsl_epp) \ ((dev)->ppb->ppb_link->adapter_unit, buf, cnt) #define ppb_insb_epp(dev,buf,cnt) \ (*(dev)->ppb->ppb_link->adapter->insb_epp) \ ((dev)->ppb->ppb_link->adapter_unit, buf, cnt) #define ppb_insw_epp(dev,buf,cnt) \ (*(dev)->ppb->ppb_link->adapter->insw_epp) \ ((dev)->ppb->ppb_link->adapter_unit, buf, cnt) #define ppb_insl_epp(dev,buf,cnt) \ (*(dev)->ppb->ppb_link->adapter->insl_epp) \ ((dev)->ppb->ppb_link->adapter_unit, buf, cnt) #define ppb_repp_A(dev) (*(dev)->ppb->ppb_link->adapter->r_epp_A) \ ((dev)->ppb->ppb_link->adapter_unit) #define ppb_repp_D(dev) (*(dev)->ppb->ppb_link->adapter->r_epp_D) \ ((dev)->ppb->ppb_link->adapter_unit) #define ppb_recr(dev) (*(dev)->ppb->ppb_link->adapter->r_ecr) \ ((dev)->ppb->ppb_link->adapter_unit) #define ppb_rfifo(dev) (*(dev)->ppb->ppb_link->adapter->r_fifo) \ ((dev)->ppb->ppb_link->adapter_unit) #define ppb_wepp_A(dev,byte) (*(dev)->ppb->ppb_link->adapter->w_epp_A) \ ((dev)->ppb->ppb_link->adapter_unit, byte) #define ppb_wepp_D(dev,byte) (*(dev)->ppb->ppb_link->adapter->w_epp_D) \ ((dev)->ppb->ppb_link->adapter_unit, byte) #define ppb_wecr(dev,byte) (*(dev)->ppb->ppb_link->adapter->w_ecr) \ ((dev)->ppb->ppb_link->adapter_unit, byte) #define ppb_wfifo(dev,byte) (*(dev)->ppb->ppb_link->adapter->w_fifo) \ ((dev)->ppb->ppb_link->adapter_unit, byte) #define ppb_rdtr(dev) (*(dev)->ppb->ppb_link->adapter->r_dtr) \ ((dev)->ppb->ppb_link->adapter_unit) #define ppb_rstr(dev) (*(dev)->ppb->ppb_link->adapter->r_str) \ ((dev)->ppb->ppb_link->adapter_unit) #define ppb_rctr(dev) (*(dev)->ppb->ppb_link->adapter->r_ctr) \ ((dev)->ppb->ppb_link->adapter_unit) #define ppb_wdtr(dev,byte) (*(dev)->ppb->ppb_link->adapter->w_dtr) \ ((dev)->ppb->ppb_link->adapter_unit, byte) #define ppb_wstr(dev,byte) (*(dev)->ppb->ppb_link->adapter->w_str) \ ((dev)->ppb->ppb_link->adapter_unit, byte) #define ppb_wctr(dev,byte) (*(dev)->ppb->ppb_link->adapter->w_ctr) \ ((dev)->ppb->ppb_link->adapter_unit, byte) #endif