/* $OpenBSD: sfasvar.h,v 1.2 1996/05/02 06:44:33 niklas Exp $ */ /* $NetBSD: sfasvar.h,v 1.4 1996/04/21 21:12:33 veego Exp $ */ /* * Copyright (c) 1995 Daniel Widenfalk * * 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. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Daniel Widenfalk * for the NetBSD Project. * 4. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 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. */ #ifndef _SFASVAR_H_ #define _SFASVAR_H_ #ifndef _SFASREG_H_ #include #endif /* * Do not define if we don't need the vm FIX */ #define SFAS_NEED_VM_PATCH 1 /* * MAXCHAIN is the anticipated maximum number of chain blocks needed. This * assumes that we are NEVER requested to transfer more than MAXPHYS bytes. */ #define MAXCHAIN (MAXPHYS/NBPG+2) /* * Maximum number of requests standing by. Could be anything, but I think 9 * looks nice :-) NOTE: This does NOT include requests already started! */ #define MAXPENDING 9 /* 7 IDs + 2 extra */ /* * DMA chain block. If flg == SFAS_CHAIN_PRG or flg == SFAS_CHAIN_BUMP then * ptr is a VIRTUAL adress. If flg == SFAS_CHAIN_DMA then ptr is a PHYSICAL * adress. */ struct sfas_dma_chain { vm_offset_t ptr; u_short len; short flg; }; #define SFAS_CHAIN_DMA 0x00 #define SFAS_CHAIN_BUMP 0x01 #define SFAS_CHAIN_PRG 0x02 /* * This is the data that we need for the vm FIX. offset is the offset into * the first page. pa is the physical adress of each page. pages is the number * of slots used in pa. If pages == 0 the we don't need the FIX right now. */ #ifdef SFAS_NEED_VM_PATCH struct vm_link_data { vm_offset_t pa[MAXCHAIN]; short offset; short pages; }; #endif /* * This struct contains the necessary info for a pending request. Pointer to * a scsi_xfer struct and an optional vm_link_data. */ struct sfas_pending { TAILQ_ENTRY(sfas_pending) link; struct scsi_xfer *xs; #ifdef SFAS_NEED_VM_PATCH struct vm_link_data vm_link_data; #endif }; /* * nexus contains all active data for one SCSI unit. Parts of the info in this * struct survives between scsi commands. */ struct nexus { struct scsi_xfer *xs; /* Pointer to request */ u_char ID; /* ID message to be sent */ u_char clen; /* scsi command length + */ u_char cbuf[14]; /* the actual command bytes */ struct sfas_dma_chain dma[MAXCHAIN]; /* DMA chain blocks */ short max_link; /* Maximum used of above */ short cur_link; /* Currently handled block */ u_char *buf; /* Virtual adress of data */ int len; /* Bytes left to transfer */ vm_offset_t dma_buf; /* Current DMA adress */ int dma_len; /* Current DMA length */ vm_offset_t dma_blk_ptr; /* Current chain adress */ int dma_blk_len; /* Current chain length */ u_char dma_blk_flg; /* Current chain flags */ u_char state; /* Nexus state, see below */ u_short flags; /* Nexus flags, see below */ short period; /* Sync period to request */ u_char offset; /* Sync offset to request */ u_char syncper; /* FAS216 variable storage */ u_char syncoff; /* FAS216 variable storage */ u_char config3; /* FAS216 variable storage */ u_char lun_unit; /* (Lun<<4) | Unit of nexus */ u_char status; /* Status byte from unit*/ #ifdef SFAS_NEED_VM_PATCH struct vm_link_data vm_link_data; /* Optional vm FIX data */ #endif }; /* SCSI nexus_states */ #define SFAS_NS_IDLE 0 /* Nexus idle */ #define SFAS_NS_SELECTED 1 /* Last command was a SELECT command */ #define SFAS_NS_DATA_IN 2 /* Last command was a TRANSFER_INFO */ /* command during a data in phase */ #define SFAS_NS_DATA_OUT 3 /* Last command was a TRANSFER_INFO */ /* command during a data out phase */ #define SFAS_NS_STATUS 4 /* We have send a COMMAND_COMPLETE */ /* command and are awaiting status */ #define SFAS_NS_MSG_IN 5 /* Last phase was MESSAGE IN */ #define SFAS_NS_MSG_OUT 6 /* Last phase was MESSAGE OUT */ #define SFAS_NS_SVC 7 /* We have sent the command */ #define SFAS_NS_DISCONNECTING 8 /* We have recieved a disconnect msg */ #define SFAS_NS_DISCONNECTED 9 /* We are disconnected */ #define SFAS_NS_RESELECTED 10 /* We was reselected */ #define SFAS_NS_DONE 11 /* Done. Prephsase to FINISHED */ #define SFAS_NS_FINISHED 12 /* Realy done. Call scsi_done */ #define SFAS_NS_SENSE 13 /* We are requesting sense */ #define SFAS_NS_RESET 14 /* We are reseting this unit */ /* SCSI nexus flags */ #define SFAS_NF_UNIT_BUSY 0x0001 /* Unit is not available */ #define SFAS_NF_SELECT_ME 0x0002 /* Nexus is set up, waiting for bus */ #define SFAS_NF_REQUEST_SENSE 0x0004 /* We should request sense */ #define SFAS_NF_SENSING 0x0008 /* We are sensing */ #define SFAS_NF_HAS_MSG 0x0010 /* We have recieved a complete msg */ #define SFAS_NF_DO_SDTR 0x0020 /* We should send a SDTR */ #define SFAS_NF_SDTR_SENT 0x0040 /* We have sent a SDTR */ #define SFAS_NF_SYNC_TESTED 0x0080 /* We have negotiated sync */ #define SFAS_NF_RESET 0x0100 /* Reset this nexus */ #define SFAS_NF_IMMEDIATE 0x0200 /* We are operating from sfasicmd */ #define SFAS_NF_DEBUG 0x8000 /* As it says: DEBUG */ struct sfas_softc { struct device sc_dev; /* System required struct */ struct scsi_link sc_link; /* For sub devices */ struct isr sc_isr; /* Interrupt chain struct */ TAILQ_HEAD(,sfas_pending) sc_xs_pending; TAILQ_HEAD(,sfas_pending) sc_xs_free; struct sfas_pending sc_xs_store[MAXPENDING]; sfas_regmap_p sc_fas; /* FAS216 Address */ void *sc_spec; /* Board-specific data */ #ifdef SFAS_NEED_VM_PATCH u_char *sc_vm_link; #endif u_char *sc_bump_va; /* Bumpbuf virtual adr */ vm_offset_t sc_bump_pa; /* Bumpbuf physical adr */ int sc_bump_sz; /* Bumpbuf size */ /* Configuration registers, must be set BEFORE sfasinitialize */ u_char sc_clock_freq; u_short sc_timeout; u_char sc_host_id; u_char sc_config_flags; /* Generic DMA functions */ int (*sc_setup_dma) __P((struct sfas_softc *sc, vm_offset_t ptr, int len, int mode)); int (*sc_build_dma_chain) __P((struct sfas_softc *sc, struct sfas_dma_chain *chain, void *p, int l)); int (*sc_need_bump) __P((struct sfas_softc *sc, vm_offset_t ptr, int len)); /* Generic Led data */ int sc_led_status; void (*sc_led) __P((struct sfas_softc *sc, int mode)); /* Nexus list */ struct nexus sc_nexus[8]; struct nexus *sc_cur_nexus; struct nexus *sc_sel_nexus; /* Current transfer data */ #ifdef SFAS_NEED_VM_PATCH short sc_vm_link_pages; #endif u_char *sc_buf; /* va */ int sc_len; vm_offset_t sc_dma_buf; /* pa */ int sc_dma_len; vm_offset_t sc_dma_blk_ptr; int sc_dma_blk_len; short sc_dma_blk_flg; struct sfas_dma_chain *sc_chain; /* Current DMA chain */ short sc_max_link; short sc_cur_link; /* Interrupt registers */ u_char sc_status; u_char sc_interrupt; u_char sc_resel[2]; u_char sc_units_disconnected; /* Storage for FAS216 config registers (current values) */ u_char sc_config1; u_char sc_config2; u_char sc_config3; u_char sc_clock_conv_fact; u_char sc_timeout_val; u_char sc_clock_period; u_char sc_msg_in[7]; u_char sc_msg_in_len; u_char sc_msg_out[7]; u_char sc_msg_out_len; u_char sc_unit; u_char sc_lun; u_char sc_flags; }; #define SFAS_DMA_READ 0 #define SFAS_DMA_WRITE 1 #define SFAS_DMA_CLEAR 2 /* sc_flags */ #define SFAS_ACTIVE 0x01 #define SFAS_DONT_WAIT 0x02 #ifdef SFAS_NEED_VM_PATCH #define SFAS_HAS_VM_LINK 0x04 #endif /* SCSI Selection modes */ #define SFAS_SELECT 0x00 /* Normal selection: No sync, no resel */ #define SFAS_SELECT_R 0x01 /* Reselection allowed */ #define SFAS_SELECT_S 0x02 /* Synchronous transfer allowed */ #define SFAS_SELECT_I 0x04 /* Selection for sfasicmd */ #define SFAS_SELECT_K 0x08 /* Send a BUS DEVICE RESET message (Kill) */ /* Nice abbreviations of the above */ #define SFAS_SELECT_RS (SFAS_SELECT_R|SFAS_SELECT_S) #define SFAS_SELECT_RI (SFAS_SELECT_R|SFAS_SELECT_I) #define SFAS_SELECT_SI (SFAS_SELECT_S|SFAS_SELECT_I) #define SFAS_SELECT_RSI (SFAS_SELECT_R|SFAS_SELECT_S|SFAS_SELECT_I) /* sc_config_flags */ #define SFAS_NO_SYNCH 0x01 /* Disable synchronous transfer */ #define SFAS_NO_DMA 0x02 /* Do not use DMA! EVER! */ #define SFAS_NO_RESELECT 0x04 /* Do not allow relesection */ #define SFAS_SLOW_CABLE 0x08 /* Cable is "unsafe" for fast scsi-2 */ #define SFAS_SLOW_START 0x10 /* There are slow starters on the bus */ void sfasinitialize __P((struct sfas_softc *sc)); void sfas_minphys __P((struct buf *bp)); int sfas_scsicmd __P((struct scsi_xfer *)); void sfasintr __P((struct sfas_softc *dev)); #endif /* _SFASVAR_H_ */