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2822 2823 2824 2825 2826 2827 2828 2829 2830 2831 2832 2833 2834 2835 2836 2837 2838 2839 2840 2841 2842 2843 2844 2845 2846 2847 2848 2849 2850 2851 2852 2853 2854 2855 2856 2857 2858 2859 2860 2861 2862 2863 2864 2865 2866 2867 2868 2869 2870 2871 2872 2873 2874 2875 2876 2877 2878 2879 2880 2881 2882 2883 2884 2885 2886 2887 2888 2889 2890 2891 2892 2893 2894 2895 2896 2897 2898 2899 2900 2901 2902 2903 2904 2905 2906 2907 2908 2909 2910 2911 2912 2913 2914 2915 2916 2917 2918 2919 2920 2921 2922 2923 2924 2925 2926 2927 2928 2929 2930 2931 2932 2933 2934 2935 2936 2937 2938 2939 2940 2941 2942 2943 2944 2945 2946 2947 2948 2949 2950 2951 2952 2953 2954 2955 2956 2957 2958 2959 2960 2961 2962 2963 2964 2965 | // SPDX-License-Identifier: GPL-2.0-or-later /************************************************************************** * Initio 9100 device driver for Linux. * * Copyright (c) 1994-1998 Initio Corporation * Copyright (c) 1998 Bas Vermeulen <bvermeul@blackstar.xs4all.nl> * Copyright (c) 2004 Christoph Hellwig <hch@lst.de> * Copyright (c) 2007 Red Hat * ************************************************************************* * * DESCRIPTION: * * This is the Linux low-level SCSI driver for Initio INI-9X00U/UW SCSI host * adapters * * 08/06/97 hc - v1.01h * - Support inic-940 and inic-935 * 09/26/97 hc - v1.01i * - Make correction from J.W. Schultz suggestion * 10/13/97 hc - Support reset function * 10/21/97 hc - v1.01j * - Support 32 LUN (SCSI 3) * 01/14/98 hc - v1.01k * - Fix memory allocation problem * 03/04/98 hc - v1.01l * - Fix tape rewind which will hang the system problem * - Set can_queue to initio_num_scb * 06/25/98 hc - v1.01m * - Get it work for kernel version >= 2.1.75 * - Dynamic assign SCSI bus reset holding time in initio_init() * 07/02/98 hc - v1.01n * - Support 0002134A * 08/07/98 hc - v1.01o * - Change the initio_abort_srb routine to use scsi_done. <01> * 09/07/98 hl - v1.02 * - Change the INI9100U define and proc_dir_entry to * reflect the newer Kernel 2.1.118, but the v1.o1o * should work with Kernel 2.1.118. * 09/20/98 wh - v1.02a * - Support Abort command. * - Handle reset routine. * 09/21/98 hl - v1.03 * - remove comments. * 12/09/98 bv - v1.03a * - Removed unused code * 12/13/98 bv - v1.03b * - Remove cli() locking for kernels >= 2.1.95. This uses * spinlocks to serialize access to the pSRB_head and * pSRB_tail members of the HCS structure. * 09/01/99 bv - v1.03d * - Fixed a deadlock problem in SMP. * 21/01/99 bv - v1.03e * - Add support for the Domex 3192U PCI SCSI * This is a slightly modified patch by * Brian Macy <bmacy@sunshinecomputing.com> * 22/02/99 bv - v1.03f * - Didn't detect the INIC-950 in 2.0.x correctly. * Now fixed. * 05/07/99 bv - v1.03g * - Changed the assumption that HZ = 100 * 10/17/03 mc - v1.04 * - added new DMA API support * 06/01/04 jmd - v1.04a * - Re-add reset_bus support **************************************************************************/ #include <linux/module.h> #include <linux/errno.h> #include <linux/delay.h> #include <linux/pci.h> #include <linux/init.h> #include <linux/blkdev.h> #include <linux/spinlock.h> #include <linux/stat.h> #include <linux/kernel.h> #include <linux/proc_fs.h> #include <linux/string.h> #include <linux/interrupt.h> #include <linux/ioport.h> #include <linux/slab.h> #include <linux/jiffies.h> #include <linux/dma-mapping.h> #include <asm/io.h> #include <scsi/scsi.h> #include <scsi/scsi_cmnd.h> #include <scsi/scsi_device.h> #include <scsi/scsi_host.h> #include <scsi/scsi_tcq.h> #include "initio.h" #define SENSE_SIZE 14 #define i91u_MAXQUEUE 2 #define i91u_REVID "Initio INI-9X00U/UW SCSI device driver; Revision: 1.04a" #ifdef DEBUG_i91u static unsigned int i91u_debug = DEBUG_DEFAULT; #endif static int initio_tag_enable = 1; #ifdef DEBUG_i91u static int setup_debug = 0; #endif static void i91uSCBPost(u8 * pHcb, u8 * pScb); #define DEBUG_INTERRUPT 0 #define DEBUG_QUEUE 0 #define DEBUG_STATE 0 #define INT_DISC 0 /*--- forward references ---*/ static struct scsi_ctrl_blk *initio_find_busy_scb(struct initio_host * host, u16 tarlun); static struct scsi_ctrl_blk *initio_find_done_scb(struct initio_host * host); static int tulip_main(struct initio_host * host); static int initio_next_state(struct initio_host * host); static int initio_state_1(struct initio_host * host); static int initio_state_2(struct initio_host * host); static int initio_state_3(struct initio_host * host); static int initio_state_4(struct initio_host * host); static int initio_state_5(struct initio_host * host); static int initio_state_6(struct initio_host * host); static int initio_state_7(struct initio_host * host); static int initio_xfer_data_in(struct initio_host * host); static int initio_xfer_data_out(struct initio_host * host); static int initio_xpad_in(struct initio_host * host); static int initio_xpad_out(struct initio_host * host); static int initio_status_msg(struct initio_host * host); static int initio_msgin(struct initio_host * host); static int initio_msgin_sync(struct initio_host * host); static int initio_msgin_accept(struct initio_host * host); static int initio_msgout_reject(struct initio_host * host); static int initio_msgin_extend(struct initio_host * host); static int initio_msgout_ide(struct initio_host * host); static int initio_msgout_abort_targ(struct initio_host * host); static int initio_msgout_abort_tag(struct initio_host * host); static int initio_bus_device_reset(struct initio_host * host); static void initio_select_atn(struct initio_host * host, struct scsi_ctrl_blk * scb); static void initio_select_atn3(struct initio_host * host, struct scsi_ctrl_blk * scb); static void initio_select_atn_stop(struct initio_host * host, struct scsi_ctrl_blk * scb); static int int_initio_busfree(struct initio_host * host); static int int_initio_scsi_rst(struct initio_host * host); static int int_initio_bad_seq(struct initio_host * host); static int int_initio_resel(struct initio_host * host); static int initio_sync_done(struct initio_host * host); static int wdtr_done(struct initio_host * host); static int wait_tulip(struct initio_host * host); static int initio_wait_done_disc(struct initio_host * host); static int initio_wait_disc(struct initio_host * host); static void tulip_scsi(struct initio_host * host); static int initio_post_scsi_rst(struct initio_host * host); static void initio_se2_ew_en(unsigned long base); static void initio_se2_ew_ds(unsigned long base); static int initio_se2_rd_all(unsigned long base); static void initio_se2_update_all(unsigned long base); /* setup default pattern */ static void initio_read_eeprom(unsigned long base); /* ---- INTERNAL VARIABLES ---- */ static NVRAM i91unvram; static NVRAM *i91unvramp; static u8 i91udftNvRam[64] = { /*----------- header -----------*/ 0x25, 0xc9, /* Signature */ 0x40, /* Size */ 0x01, /* Revision */ /* -- Host Adapter Structure -- */ 0x95, /* ModelByte0 */ 0x00, /* ModelByte1 */ 0x00, /* ModelInfo */ 0x01, /* NumOfCh */ NBC1_DEFAULT, /* BIOSConfig1 */ 0, /* BIOSConfig2 */ 0, /* HAConfig1 */ 0, /* HAConfig2 */ /* SCSI channel 0 and target Structure */ 7, /* SCSIid */ NCC1_DEFAULT, /* SCSIconfig1 */ 0, /* SCSIconfig2 */ 0x10, /* NumSCSItarget */ NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, /* SCSI channel 1 and target Structure */ 7, /* SCSIid */ NCC1_DEFAULT, /* SCSIconfig1 */ 0, /* SCSIconfig2 */ 0x10, /* NumSCSItarget */ NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, NTC_DEFAULT, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}; /* - CheckSum - */ static u8 initio_rate_tbl[8] = /* fast 20 */ { /* nanosecond divide by 4 */ 12, /* 50ns, 20M */ 18, /* 75ns, 13.3M */ 25, /* 100ns, 10M */ 31, /* 125ns, 8M */ 37, /* 150ns, 6.6M */ 43, /* 175ns, 5.7M */ 50, /* 200ns, 5M */ 62 /* 250ns, 4M */ }; static void initio_do_pause(unsigned amount) { /* Pause for amount jiffies */ unsigned long the_time = jiffies + amount; while (time_before_eq(jiffies, the_time)) cpu_relax(); } /*-- forward reference --*/ /****************************************************************** Input: instruction for Serial E2PROM EX: se2_rd(0 call se2_instr() to send address and read command StartBit OP_Code Address Data --------- -------- ------------------ ------- 1 1 , 0 A5,A4,A3,A2,A1,A0 D15-D0 +----------------------------------------------------- | CS -----+ +--+ +--+ +--+ +--+ +--+ ^ | ^ | ^ | ^ | ^ | | | | | | | | | | | CLK -------+ +--+ +--+ +--+ +--+ +-- (leading edge trigger) +--1-----1--+ | SB OP | OP A5 A4 DI ----+ +--0------------------ (address and cmd sent to nvram) -------------------------------------------+ | DO +--- (data sent from nvram) ******************************************************************/ /** * initio_se2_instr - bitbang an instruction * @base: Base of InitIO controller * @instr: Instruction for serial E2PROM * * Bitbang an instruction out to the serial E2Prom */ static void initio_se2_instr(unsigned long base, u8 instr) { int i; u8 b; outb(SE2CS | SE2DO, base + TUL_NVRAM); /* cs+start bit */ udelay(30); outb(SE2CS | SE2CLK | SE2DO, base + TUL_NVRAM); /* +CLK */ udelay(30); for (i = 0; i < 8; i++) { if (instr & 0x80) b = SE2CS | SE2DO; /* -CLK+dataBit */ else b = SE2CS; /* -CLK */ outb(b, base + TUL_NVRAM); udelay(30); outb(b | SE2CLK, base + TUL_NVRAM); /* +CLK */ udelay(30); instr <<= 1; } outb(SE2CS, base + TUL_NVRAM); /* -CLK */ udelay(30); } /** * initio_se2_ew_en - Enable erase/write * @base: Base address of InitIO controller * * Enable erase/write state of serial EEPROM */ void initio_se2_ew_en(unsigned long base) { initio_se2_instr(base, 0x30); /* EWEN */ outb(0, base + TUL_NVRAM); /* -CS */ udelay(30); } /** * initio_se2_ew_ds - Disable erase/write * @base: Base address of InitIO controller * * Disable erase/write state of serial EEPROM */ void initio_se2_ew_ds(unsigned long base) { initio_se2_instr(base, 0); /* EWDS */ outb(0, base + TUL_NVRAM); /* -CS */ udelay(30); } /** * initio_se2_rd - read E2PROM word * @base: Base of InitIO controller * @addr: Address of word in E2PROM * * Read a word from the NV E2PROM device */ static u16 initio_se2_rd(unsigned long base, u8 addr) { u8 instr, rb; u16 val = 0; int i; instr = (u8) (addr | 0x80); initio_se2_instr(base, instr); /* READ INSTR */ for (i = 15; i >= 0; i--) { outb(SE2CS | SE2CLK, base + TUL_NVRAM); /* +CLK */ udelay(30); outb(SE2CS, base + TUL_NVRAM); /* -CLK */ /* sample data after the following edge of clock */ rb = inb(base + TUL_NVRAM); rb &= SE2DI; val += (rb << i); udelay(30); /* 6/20/95 */ } outb(0, base + TUL_NVRAM); /* no chip select */ udelay(30); return val; } /** * initio_se2_wr - read E2PROM word * @base: Base of InitIO controller * @addr: Address of word in E2PROM * @val: Value to write * * Write a word to the NV E2PROM device. Used when recovering from * a problem with the NV. */ static void initio_se2_wr(unsigned long base, u8 addr, u16 val) { u8 rb; u8 instr; int i; instr = (u8) (addr | 0x40); initio_se2_instr(base, instr); /* WRITE INSTR */ for (i = 15; i >= 0; i--) { if (val & 0x8000) outb(SE2CS | SE2DO, base + TUL_NVRAM); /* -CLK+dataBit 1 */ else outb(SE2CS, base + TUL_NVRAM); /* -CLK+dataBit 0 */ udelay(30); outb(SE2CS | SE2CLK, base + TUL_NVRAM); /* +CLK */ udelay(30); val <<= 1; } outb(SE2CS, base + TUL_NVRAM); /* -CLK */ udelay(30); outb(0, base + TUL_NVRAM); /* -CS */ udelay(30); outb(SE2CS, base + TUL_NVRAM); /* +CS */ udelay(30); for (;;) { outb(SE2CS | SE2CLK, base + TUL_NVRAM); /* +CLK */ udelay(30); outb(SE2CS, base + TUL_NVRAM); /* -CLK */ udelay(30); if ((rb = inb(base + TUL_NVRAM)) & SE2DI) break; /* write complete */ } outb(0, base + TUL_NVRAM); /* -CS */ } /** * initio_se2_rd_all - read hostadapter NV configuration * @base: Base address of InitIO controller * * Reads the E2PROM data into main memory. Ensures that the checksum * and header marker are valid. Returns 1 on success -1 on error. */ static int initio_se2_rd_all(unsigned long base) { int i; u16 chksum = 0; u16 *np; i91unvramp = &i91unvram; np = (u16 *) i91unvramp; for (i = 0; i < 32; i++) *np++ = initio_se2_rd(base, i); /* Is signature "ini" ok ? */ if (i91unvramp->NVM_Signature != INI_SIGNATURE) return -1; /* Is ckecksum ok ? */ np = (u16 *) i91unvramp; for (i = 0; i < 31; i++) chksum += *np++; if (i91unvramp->NVM_CheckSum != chksum) return -1; return 1; } /** * initio_se2_update_all - Update E2PROM * @base: Base of InitIO controller * * Update the E2PROM by wrting any changes into the E2PROM * chip, rewriting the checksum. */ static void initio_se2_update_all(unsigned long base) { /* setup default pattern */ int i; u16 chksum = 0; u16 *np, *np1; i91unvramp = &i91unvram; /* Calculate checksum first */ np = (u16 *) i91udftNvRam; for (i = 0; i < 31; i++) chksum += *np++; *np = chksum; initio_se2_ew_en(base); /* Enable write */ np = (u16 *) i91udftNvRam; np1 = (u16 *) i91unvramp; for (i = 0; i < 32; i++, np++, np1++) { if (*np != *np1) initio_se2_wr(base, i, *np); } initio_se2_ew_ds(base); /* Disable write */ } /** * initio_read_eeprom - Retrieve configuration * @base: Base of InitIO Host Adapter * * Retrieve the host adapter configuration data from E2Prom. If the * data is invalid then the defaults are used and are also restored * into the E2PROM. This forms the access point for the SCSI driver * into the E2PROM layer, the other functions for the E2PROM are all * internal use. * * Must be called single threaded, uses a shared global area. */ static void initio_read_eeprom(unsigned long base) { u8 gctrl; i91unvramp = &i91unvram; /* Enable EEProm programming */ gctrl = inb(base + TUL_GCTRL); outb(gctrl | TUL_GCTRL_EEPROM_BIT, base + TUL_GCTRL); if (initio_se2_rd_all(base) != 1) { initio_se2_update_all(base); /* setup default pattern */ initio_se2_rd_all(base); /* load again */ } /* Disable EEProm programming */ gctrl = inb(base + TUL_GCTRL); outb(gctrl & ~TUL_GCTRL_EEPROM_BIT, base + TUL_GCTRL); } /** * initio_stop_bm - stop bus master * @host: InitIO we are stopping * * Stop any pending DMA operation, aborting the DMA if necessary */ static void initio_stop_bm(struct initio_host * host) { if (inb(host->addr + TUL_XStatus) & XPEND) { /* if DMA xfer is pending, abort DMA xfer */ outb(TAX_X_ABT | TAX_X_CLR_FIFO, host->addr + TUL_XCmd); /* wait Abort DMA xfer done */ while ((inb(host->addr + TUL_Int) & XABT) == 0) cpu_relax(); } outb(TSC_FLUSH_FIFO, host->addr + TUL_SCtrl0); } /** * initio_reset_scsi - Reset SCSI host controller * @host: InitIO host to reset * @seconds: Recovery time * * Perform a full reset of the SCSI subsystem. */ static int initio_reset_scsi(struct initio_host * host, int seconds) { outb(TSC_RST_BUS, host->addr + TUL_SCtrl0); while (!((host->jsint = inb(host->addr + TUL_SInt)) & TSS_SCSIRST_INT)) cpu_relax(); /* reset tulip chip */ outb(0, host->addr + TUL_SSignal); /* Stall for a while, wait for target's firmware ready,make it 2 sec ! */ /* SONY 5200 tape drive won't work if only stall for 1 sec */ /* FIXME: this is a very long busy wait right now */ initio_do_pause(seconds * HZ); inb(host->addr + TUL_SInt); return SCSI_RESET_SUCCESS; } /** * initio_init - set up an InitIO host adapter * @host: InitIO host adapter * @bios_addr: BIOS address * * Set up the host adapter and devices according to the configuration * retrieved from the E2PROM. * * Locking: Calls E2PROM layer code which is not re-enterable so must * run single threaded for now. */ static void initio_init(struct initio_host * host, u8 *bios_addr) { int i; u8 *flags; u8 *heads; /* Get E2Prom configuration */ initio_read_eeprom(host->addr); if (i91unvramp->NVM_SCSIInfo[0].NVM_NumOfTarg == 8) host->max_tar = 8; else host->max_tar = 16; host->config = i91unvramp->NVM_SCSIInfo[0].NVM_ChConfig1; host->scsi_id = i91unvramp->NVM_SCSIInfo[0].NVM_ChSCSIID; host->idmask = ~(1 << host->scsi_id); #ifdef CHK_PARITY /* Enable parity error response */ outb(inb(host->addr + TUL_PCMD) | 0x40, host->addr + TUL_PCMD); #endif /* Mask all the interrupt */ outb(0x1F, host->addr + TUL_Mask); initio_stop_bm(host); /* --- Initialize the tulip --- */ outb(TSC_RST_CHIP, host->addr + TUL_SCtrl0); /* program HBA's SCSI ID */ outb(host->scsi_id << 4, host->addr + TUL_SScsiId); /* Enable Initiator Mode ,phase latch,alternate sync period mode, disable SCSI reset */ if (host->config & HCC_EN_PAR) host->sconf1 = (TSC_INITDEFAULT | TSC_EN_SCSI_PAR); else host->sconf1 = (TSC_INITDEFAULT); outb(host->sconf1, host->addr + TUL_SConfig); /* Enable HW reselect */ outb(TSC_HW_RESELECT, host->addr + TUL_SCtrl1); outb(0, host->addr + TUL_SPeriod); /* selection time out = 250 ms */ outb(153, host->addr + TUL_STimeOut); /* Enable SCSI terminator */ outb((host->config & (HCC_ACT_TERM1 | HCC_ACT_TERM2)), host->addr + TUL_XCtrl); outb(((host->config & HCC_AUTO_TERM) >> 4) | (inb(host->addr + TUL_GCTRL1) & 0xFE), host->addr + TUL_GCTRL1); for (i = 0, flags = & (i91unvramp->NVM_SCSIInfo[0].NVM_Targ0Config), heads = bios_addr + 0x180; i < host->max_tar; i++, flags++) { host->targets[i].flags = *flags & ~(TCF_SYNC_DONE | TCF_WDTR_DONE); if (host->targets[i].flags & TCF_EN_255) host->targets[i].drv_flags = TCF_DRV_255_63; else host->targets[i].drv_flags = 0; host->targets[i].js_period = 0; host->targets[i].sconfig0 = host->sconf1; host->targets[i].heads = *heads++; if (host->targets[i].heads == 255) host->targets[i].drv_flags = TCF_DRV_255_63; else host->targets[i].drv_flags = 0; host->targets[i].sectors = *heads++; host->targets[i].flags &= ~TCF_BUSY; host->act_tags[i] = 0; host->max_tags[i] = 0xFF; } /* for */ printk("i91u: PCI Base=0x%04X, IRQ=%d, BIOS=0x%04X0, SCSI ID=%d\n", host->addr, host->pci_dev->irq, host->bios_addr, host->scsi_id); /* Reset SCSI Bus */ if (host->config & HCC_SCSI_RESET) { printk(KERN_INFO "i91u: Reset SCSI Bus ... \n"); initio_reset_scsi(host, 10); } outb(0x17, host->addr + TUL_SCFG1); outb(0xE9, host->addr + TUL_SIntEnable); } /** * initio_alloc_scb - Allocate an SCB * @host: InitIO host we are allocating for * * Walk the SCB list for the controller and allocate a free SCB if * one exists. */ static struct scsi_ctrl_blk *initio_alloc_scb(struct initio_host *host) { struct scsi_ctrl_blk *scb; unsigned long flags; spin_lock_irqsave(&host->avail_lock, flags); if ((scb = host->first_avail) != NULL) { #if DEBUG_QUEUE printk("find scb at %p\n", scb); #endif if ((host->first_avail = scb->next) == NULL) host->last_avail = NULL; scb->next = NULL; scb->status = SCB_RENT; } spin_unlock_irqrestore(&host->avail_lock, flags); return scb; } /** * initio_release_scb - Release an SCB * @host: InitIO host that owns the SCB * @cmnd: SCB command block being returned * * Return an allocated SCB to the host free list */ static void initio_release_scb(struct initio_host * host, struct scsi_ctrl_blk * cmnd) { unsigned long flags; #if DEBUG_QUEUE printk("Release SCB %p; ", cmnd); #endif spin_lock_irqsave(&(host->avail_lock), flags); cmnd->srb = NULL; cmnd->status = 0; cmnd->next = NULL; if (host->last_avail != NULL) { host->last_avail->next = cmnd; host->last_avail = cmnd; } else { host->first_avail = cmnd; host->last_avail = cmnd; } spin_unlock_irqrestore(&(host->avail_lock), flags); } /***************************************************************************/ static void initio_append_pend_scb(struct initio_host * host, struct scsi_ctrl_blk * scbp) { #if DEBUG_QUEUE printk("Append pend SCB %p; ", scbp); #endif scbp->status = SCB_PEND; scbp->next = NULL; if (host->last_pending != NULL) { host->last_pending->next = scbp; host->last_pending = scbp; } else { host->first_pending = scbp; host->last_pending = scbp; } } /***************************************************************************/ static void initio_push_pend_scb(struct initio_host * host, struct scsi_ctrl_blk * scbp) { #if DEBUG_QUEUE printk("Push pend SCB %p; ", scbp); #endif scbp->status = SCB_PEND; if ((scbp->next = host->first_pending) != NULL) { host->first_pending = scbp; } else { host->first_pending = scbp; host->last_pending = scbp; } } static struct scsi_ctrl_blk *initio_find_first_pend_scb(struct initio_host * host) { struct scsi_ctrl_blk *first; first = host->first_pending; while (first != NULL) { if (first->opcode != ExecSCSI) return first; if (first->tagmsg == 0) { if ((host->act_tags[first->target] == 0) && !(host->targets[first->target].flags & TCF_BUSY)) return first; } else { if ((host->act_tags[first->target] >= host->max_tags[first->target]) | (host->targets[first->target].flags & TCF_BUSY)) { first = first->next; continue; } return first; } first = first->next; } return first; } static void initio_unlink_pend_scb(struct initio_host * host, struct scsi_ctrl_blk * scb) { struct scsi_ctrl_blk *tmp, *prev; #if DEBUG_QUEUE printk("unlink pend SCB %p; ", scb); #endif prev = tmp = host->first_pending; while (tmp != NULL) { if (scb == tmp) { /* Unlink this SCB */ if (tmp == host->first_pending) { if ((host->first_pending = tmp->next) == NULL) host->last_pending = NULL; } else { prev->next = tmp->next; if (tmp == host->last_pending) host->last_pending = prev; } tmp->next = NULL; break; } prev = tmp; tmp = tmp->next; } } static void initio_append_busy_scb(struct initio_host * host, struct scsi_ctrl_blk * scbp) { #if DEBUG_QUEUE printk("append busy SCB %p; ", scbp); #endif if (scbp->tagmsg) host->act_tags[scbp->target]++; else host->targets[scbp->target].flags |= TCF_BUSY; scbp->status = SCB_BUSY; scbp->next = NULL; if (host->last_busy != NULL) { host->last_busy->next = scbp; host->last_busy = scbp; } else { host->first_busy = scbp; host->last_busy = scbp; } } /***************************************************************************/ static struct scsi_ctrl_blk *initio_pop_busy_scb(struct initio_host * host) { struct scsi_ctrl_blk *tmp; if ((tmp = host->first_busy) != NULL) { if ((host->first_busy = tmp->next) == NULL) host->last_busy = NULL; tmp->next = NULL; if (tmp->tagmsg) host->act_tags[tmp->target]--; else host->targets[tmp->target].flags &= ~TCF_BUSY; } #if DEBUG_QUEUE printk("Pop busy SCB %p; ", tmp); #endif return tmp; } /***************************************************************************/ static void initio_unlink_busy_scb(struct initio_host * host, struct scsi_ctrl_blk * scb) { struct scsi_ctrl_blk *tmp, *prev; #if DEBUG_QUEUE printk("unlink busy SCB %p; ", scb); #endif prev = tmp = host->first_busy; while (tmp != NULL) { if (scb == tmp) { /* Unlink this SCB */ if (tmp == host->first_busy) { if ((host->first_busy = tmp->next) == NULL) host->last_busy = NULL; } else { prev->next = tmp->next; if (tmp == host->last_busy) host->last_busy = prev; } tmp->next = NULL; if (tmp->tagmsg) host->act_tags[tmp->target]--; else host->targets[tmp->target].flags &= ~TCF_BUSY; break; } prev = tmp; tmp = tmp->next; } return; } struct scsi_ctrl_blk *initio_find_busy_scb(struct initio_host * host, u16 tarlun) { struct scsi_ctrl_blk *tmp; u16 scbp_tarlun; tmp = host->first_busy; while (tmp != NULL) { scbp_tarlun = (tmp->lun << 8) | (tmp->target); if (scbp_tarlun == tarlun) { /* Unlink this SCB */ break; } tmp = tmp->next; } #if DEBUG_QUEUE printk("find busy SCB %p; ", tmp); #endif return tmp; } static void initio_append_done_scb(struct initio_host * host, struct scsi_ctrl_blk * scbp) { #if DEBUG_QUEUE printk("append done SCB %p; ", scbp); #endif scbp->status = SCB_DONE; scbp->next = NULL; if (host->last_done != NULL) { host->last_done->next = scbp; host->last_done = scbp; } else { host->first_done = scbp; host->last_done = scbp; } } struct scsi_ctrl_blk *initio_find_done_scb(struct initio_host * host) { struct scsi_ctrl_blk *tmp; if ((tmp = host->first_done) != NULL) { if ((host->first_done = tmp->next) == NULL) host->last_done = NULL; tmp->next = NULL; } #if DEBUG_QUEUE printk("find done SCB %p; ",tmp); #endif return tmp; } static int initio_abort_srb(struct initio_host * host, struct scsi_cmnd *srbp) { unsigned long flags; struct scsi_ctrl_blk *tmp, *prev; spin_lock_irqsave(&host->semaph_lock, flags); if ((host->semaph == 0) && (host->active == NULL)) { /* disable Jasmin SCSI Int */ outb(0x1F, host->addr + TUL_Mask); spin_unlock_irqrestore(&host->semaph_lock, flags); /* FIXME: synchronize_irq needed ? */ tulip_main(host); spin_lock_irqsave(&host->semaph_lock, flags); host->semaph = 1; outb(0x0F, host->addr + TUL_Mask); spin_unlock_irqrestore(&host->semaph_lock, flags); return SCSI_ABORT_SNOOZE; } prev = tmp = host->first_pending; /* Check Pend queue */ while (tmp != NULL) { /* 07/27/98 */ if (tmp->srb == srbp) { if (tmp == host->active) { spin_unlock_irqrestore(&host->semaph_lock, flags); return SCSI_ABORT_BUSY; } else if (tmp == host->first_pending) { if ((host->first_pending = tmp->next) == NULL) host->last_pending = NULL; } else { prev->next = tmp->next; if (tmp == host->last_pending) host->last_pending = prev; } tmp->hastat = HOST_ABORTED; tmp->flags |= SCF_DONE; if (tmp->flags & SCF_POST) (*tmp->post) ((u8 *) host, (u8 *) tmp); spin_unlock_irqrestore(&host->semaph_lock, flags); return SCSI_ABORT_SUCCESS; } prev = tmp; tmp = tmp->next; } prev = tmp = host->first_busy; /* Check Busy queue */ while (tmp != NULL) { if (tmp->srb == srbp) { if (tmp == host->active) { spin_unlock_irqrestore(&host->semaph_lock, flags); return SCSI_ABORT_BUSY; } else if (tmp->tagmsg == 0) { spin_unlock_irqrestore(&host->semaph_lock, flags); return SCSI_ABORT_BUSY; } else { host->act_tags[tmp->target]--; if (tmp == host->first_busy) { if ((host->first_busy = tmp->next) == NULL) host->last_busy = NULL; } else { prev->next = tmp->next; if (tmp == host->last_busy) host->last_busy = prev; } tmp->next = NULL; tmp->hastat = HOST_ABORTED; tmp->flags |= SCF_DONE; if (tmp->flags & SCF_POST) (*tmp->post) ((u8 *) host, (u8 *) tmp); spin_unlock_irqrestore(&host->semaph_lock, flags); return SCSI_ABORT_SUCCESS; } } prev = tmp; tmp = tmp->next; } spin_unlock_irqrestore(&host->semaph_lock, flags); return SCSI_ABORT_NOT_RUNNING; } /***************************************************************************/ static int initio_bad_seq(struct initio_host * host) { struct scsi_ctrl_blk *scb; printk("initio_bad_seg c=%d\n", host->index); if ((scb = host->active) != NULL) { initio_unlink_busy_scb(host, scb); scb->hastat = HOST_BAD_PHAS; scb->tastat = 0; initio_append_done_scb(host, scb); } initio_stop_bm(host); initio_reset_scsi(host, 8); /* 7/29/98 */ return initio_post_scsi_rst(host); } /************************************************************************/ static void initio_exec_scb(struct initio_host * host, struct scsi_ctrl_blk * scb) { unsigned long flags; scb->mode = 0; scb->sgidx = 0; scb->sgmax = scb->sglen; spin_lock_irqsave(&host->semaph_lock, flags); initio_append_pend_scb(host, scb); /* Append this SCB to Pending queue */ /* VVVVV 07/21/98 */ if (host->semaph == 1) { /* Disable Jasmin SCSI Int */ outb(0x1F, host->addr + TUL_Mask); host->semaph = 0; spin_unlock_irqrestore(&host->semaph_lock, flags); tulip_main(host); spin_lock_irqsave(&host->semaph_lock, flags); host->semaph = 1; outb(0x0F, host->addr + TUL_Mask); } spin_unlock_irqrestore(&host->semaph_lock, flags); return; } /***************************************************************************/ static int initio_isr(struct initio_host * host) { if (inb(host->addr + TUL_Int) & TSS_INT_PENDING) { if (host->semaph == 1) { outb(0x1F, host->addr + TUL_Mask); /* Disable Tulip SCSI Int */ host->semaph = 0; tulip_main(host); host->semaph = 1; outb(0x0F, host->addr + TUL_Mask); return 1; } } return 0; } static int tulip_main(struct initio_host * host) { struct scsi_ctrl_blk *scb; for (;;) { tulip_scsi(host); /* Call tulip_scsi */ /* Walk the list of completed SCBs */ while ((scb = initio_find_done_scb(host)) != NULL) { /* find done entry */ if (scb->tastat == INI_QUEUE_FULL) { host->max_tags[scb->target] = host->act_tags[scb->target] - 1; scb->tastat = 0; initio_append_pend_scb(host, scb); continue; } if (!(scb->mode & SCM_RSENS)) { /* not in auto req. sense mode */ if (scb->tastat == 2) { /* clr sync. nego flag */ if (scb->flags & SCF_SENSE) { u8 len; len = scb->senselen; if (len == 0) len = 1; scb->buflen = scb->senselen; scb->bufptr = scb->senseptr; scb->flags &= ~(SCF_SG | SCF_DIR); /* for xfer_data_in */ /* so, we won't report wrong direction in xfer_data_in, and won't report HOST_DO_DU in state_6 */ scb->mode = SCM_RSENS; scb->ident &= 0xBF; /* Disable Disconnect */ scb->tagmsg = 0; scb->tastat = 0; scb->cdblen = 6; scb->cdb[0] = SCSICMD_RequestSense; scb->cdb[1] = 0; scb->cdb[2] = 0; scb->cdb[3] = 0; scb->cdb[4] = len; scb->cdb[5] = 0; initio_push_pend_scb(host, scb); break; } } } else { /* in request sense mode */ if (scb->tastat == 2) { /* check contition status again after sending requset sense cmd 0x3 */ scb->hastat = HOST_BAD_PHAS; } scb->tastat = 2; } scb->flags |= SCF_DONE; if (scb->flags & SCF_POST) { /* FIXME: only one post method and lose casts */ (*scb->post) ((u8 *) host, (u8 *) scb); } } /* while */ /* find_active: */ if (inb(host->addr + TUL_SStatus0) & TSS_INT_PENDING) continue; if (host->active) /* return to OS and wait for xfer_done_ISR/Selected_ISR */ return 1; /* return to OS, enable interrupt */ /* Check pending SCB */ if (initio_find_first_pend_scb(host) == NULL) return 1; /* return to OS, enable interrupt */ } /* End of for loop */ /* statement won't reach here */ } static void tulip_scsi(struct initio_host * host) { struct scsi_ctrl_blk *scb; struct target_control *active_tc; /* make sure to service interrupt asap */ if ((host->jsstatus0 = inb(host->addr + TUL_SStatus0)) & TSS_INT_PENDING) { host->phase = host->jsstatus0 & TSS_PH_MASK; host->jsstatus1 = inb(host->addr + TUL_SStatus1); host->jsint = inb(host->addr + TUL_SInt); if (host->jsint & TSS_SCSIRST_INT) { /* SCSI bus reset detected */ int_initio_scsi_rst(host); return; } if (host->jsint & TSS_RESEL_INT) { /* if selected/reselected interrupt */ if (int_initio_resel(host) == 0) initio_next_state(host); return; } if (host->jsint & TSS_SEL_TIMEOUT) { int_initio_busfree(host); return; } if (host->jsint & TSS_DISC_INT) { /* BUS disconnection */ int_initio_busfree(host); /* unexpected bus free or sel timeout */ return; } if (host->jsint & (TSS_FUNC_COMP | TSS_BUS_SERV)) { /* func complete or Bus service */ if (host->active) initio_next_state(host); return; } } if (host->active != NULL) return; if ((scb = initio_find_first_pend_scb(host)) == NULL) return; /* program HBA's SCSI ID & target SCSI ID */ outb((host->scsi_id << 4) | (scb->target & 0x0F), host->addr + TUL_SScsiId); if (scb->opcode == ExecSCSI) { active_tc = &host->targets[scb->target]; if (scb->tagmsg) active_tc->drv_flags |= TCF_DRV_EN_TAG; else active_tc->drv_flags &= ~TCF_DRV_EN_TAG; outb(active_tc->js_period, host->addr + TUL_SPeriod); if ((active_tc->flags & (TCF_WDTR_DONE | TCF_NO_WDTR)) == 0) { /* do wdtr negotiation */ initio_select_atn_stop(host, scb); } else { if ((active_tc->flags & (TCF_SYNC_DONE | TCF_NO_SYNC_NEGO)) == 0) { /* do sync negotiation */ initio_select_atn_stop(host, scb); } else { if (scb->tagmsg) initio_select_atn3(host, scb); else initio_select_atn(host, scb); } } if (scb->flags & SCF_POLL) { while (wait_tulip(host) != -1) { if (initio_next_state(host) == -1) break; } } } else if (scb->opcode == BusDevRst) { initio_select_atn_stop(host, scb); scb->next_state = 8; if (scb->flags & SCF_POLL) { while (wait_tulip(host) != -1) { if (initio_next_state(host) == -1) break; } } } else if (scb->opcode == AbortCmd) { if (initio_abort_srb(host, scb->srb) != 0) { initio_unlink_pend_scb(host, scb); initio_release_scb(host, scb); } else { scb->opcode = BusDevRst; initio_select_atn_stop(host, scb); scb->next_state = 8; } } else { initio_unlink_pend_scb(host, scb); scb->hastat = 0x16; /* bad command */ initio_append_done_scb(host, scb); } return; } /** * initio_next_state - Next SCSI state * @host: InitIO host we are processing * * Progress the active command block along the state machine * until we hit a state which we must wait for activity to occur. * * Returns zero or a negative code. */ static int initio_next_state(struct initio_host * host) { int next; next = host->active->next_state; for (;;) { switch (next) { case 1: next = initio_state_1(host); break; case 2: next = initio_state_2(host); break; case 3: next = initio_state_3(host); break; case 4: next = initio_state_4(host); break; case 5: next = initio_state_5(host); break; case 6: next = initio_state_6(host); break; case 7: next = initio_state_7(host); break; case 8: return initio_bus_device_reset(host); default: return initio_bad_seq(host); } if (next <= 0) return next; } } /** * initio_state_1 - SCSI state machine * @host: InitIO host we are controlling * * Perform SCSI state processing for Select/Attention/Stop */ static int initio_state_1(struct initio_host * host) { struct scsi_ctrl_blk *scb = host->active; struct target_control *active_tc = host->active_tc; #if DEBUG_STATE printk("-s1-"); #endif /* Move the SCB from pending to busy */ initio_unlink_pend_scb(host, scb); initio_append_busy_scb(host, scb); outb(active_tc->sconfig0, host->addr + TUL_SConfig ); /* ATN on */ if (host->phase == MSG_OUT) { outb(TSC_EN_BUS_IN | TSC_HW_RESELECT, host->addr + TUL_SCtrl1); outb(scb->ident, host->addr + TUL_SFifo); if (scb->tagmsg) { outb(scb->tagmsg, host->addr + TUL_SFifo); outb(scb->tagid, host->addr + TUL_SFifo); } if ((active_tc->flags & (TCF_WDTR_DONE | TCF_NO_WDTR)) == 0) { active_tc->flags |= TCF_WDTR_DONE; outb(EXTENDED_MESSAGE, host->addr + TUL_SFifo); outb(2, host->addr + TUL_SFifo); /* Extended msg length */ outb(EXTENDED_SDTR, host->addr + TUL_SFifo); /* Sync request */ outb(1, host->addr + TUL_SFifo); /* Start from 16 bits */ } else if ((active_tc->flags & (TCF_SYNC_DONE | TCF_NO_SYNC_NEGO)) == 0) { active_tc->flags |= TCF_SYNC_DONE; outb(EXTENDED_MESSAGE, host->addr + TUL_SFifo); outb(3, host->addr + TUL_SFifo); /* extended msg length */ outb(EXTENDED_SDTR, host->addr + TUL_SFifo); /* sync request */ outb(initio_rate_tbl[active_tc->flags & TCF_SCSI_RATE], host->addr + TUL_SFifo); outb(MAX_OFFSET, host->addr + TUL_SFifo); /* REQ/ACK offset */ } outb(TSC_XF_FIFO_OUT, host->addr + TUL_SCmd); if (wait_tulip(host) == -1) return -1; } outb(TSC_FLUSH_FIFO, host->addr + TUL_SCtrl0); outb((inb(host->addr + TUL_SSignal) & (TSC_SET_ACK | 7)), host->addr + TUL_SSignal); /* Into before CDB xfer */ return 3; } /** * initio_state_2 - SCSI state machine * @host: InitIO host we are controlling * * state after selection with attention * state after selection with attention3 */ static int initio_state_2(struct initio_host * host) { struct scsi_ctrl_blk *scb = host->active; struct target_control *active_tc = host->active_tc; #if DEBUG_STATE printk("-s2-"); #endif initio_unlink_pend_scb(host, scb); initio_append_busy_scb(host, scb); outb(active_tc->sconfig0, host->addr + TUL_SConfig); if (host->jsstatus1 & TSS_CMD_PH_CMP) return 4; outb(TSC_FLUSH_FIFO, host->addr + TUL_SCtrl0); outb((inb(host->addr + TUL_SSignal) & (TSC_SET_ACK | 7)), host->addr + TUL_SSignal); /* Into before CDB xfer */ return 3; } /** * initio_state_3 - SCSI state machine * @host: InitIO host we are controlling * * state before CDB xfer is done */ static int initio_state_3(struct initio_host * host) { struct scsi_ctrl_blk *scb = host->active; struct target_control *active_tc = host->active_tc; int i; #if DEBUG_STATE printk("-s3-"); #endif for (;;) { switch (host->phase) { case CMD_OUT: /* Command out phase */ for (i = 0; i < (int) scb->cdblen; i++) outb(scb->cdb[i], host->addr + TUL_SFifo); outb(TSC_XF_FIFO_OUT, host->addr + TUL_SCmd); if (wait_tulip(host) == -1) return -1; if (host->phase == CMD_OUT) return initio_bad_seq(host); return 4; case MSG_IN: /* Message in phase */ scb->next_state = 3; if (initio_msgin(host) == -1) return -1; break; case STATUS_IN: /* Status phase */ if (initio_status_msg(host) == -1) return -1; break; case MSG_OUT: /* Message out phase */ if (active_tc->flags & (TCF_SYNC_DONE | TCF_NO_SYNC_NEGO)) { outb(NOP, host->addr + TUL_SFifo); /* msg nop */ outb(TSC_XF_FIFO_OUT, host->addr + TUL_SCmd); if (wait_tulip(host) == -1) return -1; } else { active_tc->flags |= TCF_SYNC_DONE; outb(EXTENDED_MESSAGE, host->addr + TUL_SFifo); outb(3, host->addr + TUL_SFifo); /* ext. msg len */ outb(EXTENDED_SDTR, host->addr + TUL_SFifo); /* sync request */ outb(initio_rate_tbl[active_tc->flags & TCF_SCSI_RATE], host->addr + TUL_SFifo); outb(MAX_OFFSET, host->addr + TUL_SFifo); /* REQ/ACK offset */ outb(TSC_XF_FIFO_OUT, host->addr + TUL_SCmd); if (wait_tulip(host) == -1) return -1; outb(TSC_FLUSH_FIFO, host->addr + TUL_SCtrl0); outb(inb(host->addr + TUL_SSignal) & (TSC_SET_ACK | 7), host->addr + TUL_SSignal); } break; default: return initio_bad_seq(host); } } } /** * initio_state_4 - SCSI state machine * @host: InitIO host we are controlling * * SCSI state machine. State 4 */ static int initio_state_4(struct initio_host * host) { struct scsi_ctrl_blk *scb = host->active; #if DEBUG_STATE printk("-s4-"); #endif if ((scb->flags & SCF_DIR) == SCF_NO_XF) { return 6; /* Go to state 6 (After data) */ } for (;;) { if (scb->buflen == 0) return 6; switch (host->phase) { case STATUS_IN: /* Status phase */ if ((scb->flags & SCF_DIR) != 0) /* if direction bit set then report data underrun */ scb->hastat = HOST_DO_DU; if ((initio_status_msg(host)) == -1) return -1; break; case MSG_IN: /* Message in phase */ scb->next_state = 0x4; if (initio_msgin(host) == -1) return -1; break; case MSG_OUT: /* Message out phase */ if (host->jsstatus0 & TSS_PAR_ERROR) { scb->buflen = 0; scb->hastat = HOST_DO_DU; if (initio_msgout_ide(host) == -1) return -1; return 6; } else { outb(NOP, host->addr + TUL_SFifo); /* msg nop */ outb(TSC_XF_FIFO_OUT, host->addr + TUL_SCmd); if (wait_tulip(host) == -1) return -1; } break; case DATA_IN: /* Data in phase */ return initio_xfer_data_in(host); case DATA_OUT: /* Data out phase */ return initio_xfer_data_out(host); default: return initio_bad_seq(host); } } } /** * initio_state_5 - SCSI state machine * @host: InitIO host we are controlling * * State after dma xfer done or phase change before xfer done */ static int initio_state_5(struct initio_host * host) { struct scsi_ctrl_blk *scb = host->active; long cnt, xcnt; /* cannot use unsigned !! code: if (xcnt < 0) */ #if DEBUG_STATE printk("-s5-"); #endif /*------ get remaining count -------*/ cnt = inl(host->addr + TUL_SCnt0) & 0x0FFFFFF; if (inb(host->addr + TUL_XCmd) & 0x20) { /* ----------------------- DATA_IN ----------------------------- */ /* check scsi parity error */ if (host->jsstatus0 & TSS_PAR_ERROR) scb->hastat = HOST_DO_DU; if (inb(host->addr + TUL_XStatus) & XPEND) { /* DMA xfer pending, Send STOP */ /* tell Hardware scsi xfer has been terminated */ outb(inb(host->addr + TUL_XCtrl) | 0x80, host->addr + TUL_XCtrl); /* wait until DMA xfer not pending */ while (inb(host->addr + TUL_XStatus) & XPEND) cpu_relax(); } } else { /*-------- DATA OUT -----------*/ if ((inb(host->addr + TUL_SStatus1) & TSS_XFER_CMP) == 0) { if (host->active_tc->js_period & TSC_WIDE_SCSI) cnt += (inb(host->addr + TUL_SFifoCnt) & 0x1F) << 1; else cnt += (inb(host->addr + TUL_SFifoCnt) & 0x1F); } if (inb(host->addr + TUL_XStatus) & XPEND) { /* if DMA xfer is pending, abort DMA xfer */ outb(TAX_X_ABT, host->addr + TUL_XCmd); /* wait Abort DMA xfer done */ while ((inb(host->addr + TUL_Int) & XABT) == 0) cpu_relax(); } if ((cnt == 1) && (host->phase == DATA_OUT)) { outb(TSC_XF_FIFO_OUT, host->addr + TUL_SCmd); if (wait_tulip(host) == -1) return -1; cnt = 0; } else { if ((inb(host->addr + TUL_SStatus1) & TSS_XFER_CMP) == 0) outb(TSC_FLUSH_FIFO, host->addr + TUL_SCtrl0); } } if (cnt == 0) { scb->buflen = 0; return 6; /* After Data */ } /* Update active data pointer */ xcnt = (long) scb->buflen - cnt; /* xcnt== bytes already xferred */ scb->buflen = (u32) cnt; /* cnt == bytes left to be xferred */ if (scb->flags & SCF_SG) { struct sg_entry *sgp; unsigned long i; sgp = &scb->sglist[scb->sgidx]; for (i = scb->sgidx; i < scb->sgmax; sgp++, i++) { xcnt -= (long) sgp->len; if (xcnt < 0) { /* this sgp xfer half done */ xcnt += (long) sgp->len; /* xcnt == bytes xferred in this sgp */ sgp->data += (u32) xcnt; /* new ptr to be xfer */ sgp->len -= (u32) xcnt; /* new len to be xfer */ scb->bufptr += ((u32) (i - scb->sgidx) << 3); /* new SG table ptr */ scb->sglen = (u8) (scb->sgmax - i); /* new SG table len */ scb->sgidx = (u16) i; /* for next disc and come in this loop */ return 4; /* Go to state 4 */ } /* else (xcnt >= 0 , i.e. this sgp already xferred */ } /* for */ return 6; /* Go to state 6 */ } else { scb->bufptr += (u32) xcnt; } return 4; /* Go to state 4 */ } /** * initio_state_6 - SCSI state machine * @host: InitIO host we are controlling * * State after Data phase */ static int initio_state_6(struct initio_host * host) { struct scsi_ctrl_blk *scb = host->active; #if DEBUG_STATE printk("-s6-"); #endif for (;;) { switch (host->phase) { case STATUS_IN: /* Status phase */ if ((initio_status_msg(host)) == -1) return -1; break; case MSG_IN: /* Message in phase */ scb->next_state = 6; if ((initio_msgin(host)) == -1) return -1; break; case MSG_OUT: /* Message out phase */ outb(NOP, host->addr + TUL_SFifo); /* msg nop */ outb(TSC_XF_FIFO_OUT, host->addr + TUL_SCmd); if (wait_tulip(host) == -1) return -1; break; case DATA_IN: /* Data in phase */ return initio_xpad_in(host); case DATA_OUT: /* Data out phase */ return initio_xpad_out(host); default: return initio_bad_seq(host); } } } /** * initio_state_7 - SCSI state machine * @host: InitIO host we are controlling * */ static int initio_state_7(struct initio_host * host) { int cnt, i; #if DEBUG_STATE printk("-s7-"); #endif /* flush SCSI FIFO */ cnt = inb(host->addr + TUL_SFifoCnt) & 0x1F; if (cnt) { for (i = 0; i < cnt; i++) inb(host->addr + TUL_SFifo); } switch (host->phase) { case DATA_IN: /* Data in phase */ case DATA_OUT: /* Data out phase */ return initio_bad_seq(host); default: return 6; /* Go to state 6 */ } } /** * initio_xfer_data_in - Commence data input * @host: InitIO host in use * * Commence a block of data transfer. The transfer itself will * be managed by the controller and we will get a completion (or * failure) interrupt. */ static int initio_xfer_data_in(struct initio_host * host) { struct scsi_ctrl_blk *scb = host->active; if ((scb->flags & SCF_DIR) == SCF_DOUT) return 6; /* wrong direction */ outl(scb->buflen, host->addr + TUL_SCnt0); outb(TSC_XF_DMA_IN, host->addr + TUL_SCmd); /* 7/25/95 */ if (scb->flags & SCF_SG) { /* S/G xfer */ outl(((u32) scb->sglen) << 3, host->addr + TUL_XCntH); outl(scb->bufptr, host->addr + TUL_XAddH); outb(TAX_SG_IN, host->addr + TUL_XCmd); } else { outl(scb->buflen, host->addr + TUL_XCntH); outl(scb->bufptr, host->addr + TUL_XAddH); outb(TAX_X_IN, host->addr + TUL_XCmd); } scb->next_state = 0x5; return 0; /* return to OS, wait xfer done , let jas_isr come in */ } /** * initio_xfer_data_out - Commence data output * @host: InitIO host in use * * Commence a block of data transfer. The transfer itself will * be managed by the controller and we will get a completion (or * failure) interrupt. */ static int initio_xfer_data_out(struct initio_host * host) { struct scsi_ctrl_blk *scb = host->active; if ((scb->flags & SCF_DIR) == SCF_DIN) return 6; /* wrong direction */ outl(scb->buflen, host->addr + TUL_SCnt0); outb(TSC_XF_DMA_OUT, host->addr + TUL_SCmd); if (scb->flags & SCF_SG) { /* S/G xfer */ outl(((u32) scb->sglen) << 3, host->addr + TUL_XCntH); outl(scb->bufptr, host->addr + TUL_XAddH); outb(TAX_SG_OUT, host->addr + TUL_XCmd); } else { outl(scb->buflen, host->addr + TUL_XCntH); outl(scb->bufptr, host->addr + TUL_XAddH); outb(TAX_X_OUT, host->addr + TUL_XCmd); } scb->next_state = 0x5; return 0; /* return to OS, wait xfer done , let jas_isr come in */ } int initio_xpad_in(struct initio_host * host) { struct scsi_ctrl_blk *scb = host->active; struct target_control *active_tc = host->active_tc; if ((scb->flags & SCF_DIR) != SCF_NO_DCHK) scb->hastat = HOST_DO_DU; /* over run */ for (;;) { if (active_tc->js_period & TSC_WIDE_SCSI) outl(2, host->addr + TUL_SCnt0); else outl(1, host->addr + TUL_SCnt0); outb(TSC_XF_FIFO_IN, host->addr + TUL_SCmd); if (wait_tulip(host) == -1) return -1; if (host->phase != DATA_IN) { outb(TSC_FLUSH_FIFO, host->addr + TUL_SCtrl0); return 6; } inb(host->addr + TUL_SFifo); } } int initio_xpad_out(struct initio_host * host) { struct scsi_ctrl_blk *scb = host->active; struct target_control *active_tc = host->active_tc; if ((scb->flags & SCF_DIR) != SCF_NO_DCHK) scb->hastat = HOST_DO_DU; /* over run */ for (;;) { if (active_tc->js_period & TSC_WIDE_SCSI) outl(2, host->addr + TUL_SCnt0); else outl(1, host->addr + TUL_SCnt0); outb(0, host->addr + TUL_SFifo); outb(TSC_XF_FIFO_OUT, host->addr + TUL_SCmd); if ((wait_tulip(host)) == -1) return -1; if (host->phase != DATA_OUT) { /* Disable wide CPU to allow read 16 bits */ outb(TSC_HW_RESELECT, host->addr + TUL_SCtrl1); outb(TSC_FLUSH_FIFO, host->addr + TUL_SCtrl0); return 6; } } } int initio_status_msg(struct initio_host * host) { /* status & MSG_IN */ struct scsi_ctrl_blk *scb = host->active; u8 msg; outb(TSC_CMD_COMP, host->addr + TUL_SCmd); if (wait_tulip(host) == -1) return -1; /* get status */ scb->tastat = inb(host->addr + TUL_SFifo); if (host->phase == MSG_OUT) { if (host->jsstatus0 & TSS_PAR_ERROR) outb(MSG_PARITY_ERROR, host->addr + TUL_SFifo); else outb(NOP, host->addr + TUL_SFifo); outb(TSC_XF_FIFO_OUT, host->addr + TUL_SCmd); return wait_tulip(host); } if (host->phase == MSG_IN) { msg = inb(host->addr + TUL_SFifo); if (host->jsstatus0 & TSS_PAR_ERROR) { /* Parity error */ if ((initio_msgin_accept(host)) == -1) return -1; if (host->phase != MSG_OUT) return initio_bad_seq(host); outb(MSG_PARITY_ERROR, host->addr + TUL_SFifo); outb(TSC_XF_FIFO_OUT, host->addr + TUL_SCmd); return wait_tulip(host); } if (msg == 0) { /* Command complete */ if ((scb->tastat & 0x18) == 0x10) /* No link support */ return initio_bad_seq(host); outb(TSC_FLUSH_FIFO, host->addr + TUL_SCtrl0); outb(TSC_MSG_ACCEPT, host->addr + TUL_SCmd); return initio_wait_done_disc(host); } if (msg == LINKED_CMD_COMPLETE || msg == LINKED_FLG_CMD_COMPLETE) { if ((scb->tastat & 0x18) == 0x10) return initio_msgin_accept(host); } } return initio_bad_seq(host); } /* scsi bus free */ int int_initio_busfree(struct initio_host * host) { struct scsi_ctrl_blk *scb = host->active; if (scb != NULL) { if (scb->status & SCB_SELECT) { /* selection timeout */ initio_unlink_pend_scb(host, scb); scb->hastat = HOST_SEL_TOUT; initio_append_done_scb(host, scb); } else { /* Unexpected bus free */ initio_unlink_busy_scb(host, scb); scb->hastat = HOST_BUS_FREE; initio_append_done_scb(host, scb); } host->active = NULL; host->active_tc = NULL; } outb(TSC_FLUSH_FIFO, host->addr + TUL_SCtrl0); /* Flush SCSI FIFO */ outb(TSC_INITDEFAULT, host->addr + TUL_SConfig); outb(TSC_HW_RESELECT, host->addr + TUL_SCtrl1); /* Enable HW reselect */ return -1; } /** * int_initio_scsi_rst - SCSI reset occurred * @host: Host seeing the reset * * A SCSI bus reset has occurred. Clean up any pending transfer * the hardware is doing by DMA and then abort all active and * disconnected commands. The mid layer should sort the rest out * for us */ static int int_initio_scsi_rst(struct initio_host * host) { struct scsi_ctrl_blk *scb; int i; /* if DMA xfer is pending, abort DMA xfer */ if (inb(host->addr + TUL_XStatus) & 0x01) { outb(TAX_X_ABT | TAX_X_CLR_FIFO, host->addr + TUL_XCmd); /* wait Abort DMA xfer done */ while ((inb(host->addr + TUL_Int) & 0x04) == 0) cpu_relax(); outb(TSC_FLUSH_FIFO, host->addr + TUL_SCtrl0); } /* Abort all active & disconnected scb */ while ((scb = initio_pop_busy_scb(host)) != NULL) { scb->hastat = HOST_BAD_PHAS; initio_append_done_scb(host, scb); } host->active = NULL; host->active_tc = NULL; /* clr sync nego. done flag */ for (i = 0; i < host->max_tar; i++) host->targets[i].flags &= ~(TCF_SYNC_DONE | TCF_WDTR_DONE); return -1; } /** * int_initio_resel - Reselection occurred * @host: InitIO host adapter * * A SCSI reselection event has been signalled and the interrupt * is now being processed. Work out which command block needs attention * and continue processing that command. */ int int_initio_resel(struct initio_host * host) { struct scsi_ctrl_blk *scb; struct target_control *active_tc; u8 tag, msg = 0; u8 tar, lun; if ((scb = host->active) != NULL) { /* FIXME: Why check and not just clear ? */ if (scb->status & SCB_SELECT) /* if waiting for selection complete */ scb->status &= ~SCB_SELECT; host->active = NULL; } /* --------- get target id---------------------- */ tar = inb(host->addr + TUL_SBusId); /* ------ get LUN from Identify message----------- */ lun = inb(host->addr + TUL_SIdent) & 0x0F; /* 07/22/98 from 0x1F -> 0x0F */ active_tc = &host->targets[tar]; host->active_tc = active_tc; outb(active_tc->sconfig0, host->addr + TUL_SConfig); outb(active_tc->js_period, host->addr + TUL_SPeriod); /* ------------- tag queueing ? ------------------- */ if (active_tc->drv_flags & TCF_DRV_EN_TAG) { if ((initio_msgin_accept(host)) == -1) return -1; if (host->phase != MSG_IN) goto no_tag; outl(1, host->addr + TUL_SCnt0); outb(TSC_XF_FIFO_IN, host->addr + TUL_SCmd); if (wait_tulip(host) == -1) return -1; msg = inb(host->addr + TUL_SFifo); /* Read Tag Message */ if (msg < SIMPLE_QUEUE_TAG || msg > ORDERED_QUEUE_TAG) /* Is simple Tag */ goto no_tag; if (initio_msgin_accept(host) == -1) return -1; if (host->phase != MSG_IN) goto no_tag; outl(1, host->addr + TUL_SCnt0); outb(TSC_XF_FIFO_IN, host->addr + TUL_SCmd); if (wait_tulip(host) == -1) return -1; tag = inb(host->addr + TUL_SFifo); /* Read Tag ID */ scb = host->scb + tag; if (scb->target != tar || scb->lun != lun) { return initio_msgout_abort_tag(host); } if (scb->status != SCB_BUSY) { /* 03/24/95 */ return initio_msgout_abort_tag(host); } host->active = scb; if ((initio_msgin_accept(host)) == -1) return -1; } else { /* No tag */ no_tag: if ((scb = initio_find_busy_scb(host, tar | (lun << 8))) == NULL) { return initio_msgout_abort_targ(host); } host->active = scb; if (!(active_tc->drv_flags & TCF_DRV_EN_TAG)) { if ((initio_msgin_accept(host)) == -1) return -1; } } return 0; } /** * int_initio_bad_seq - out of phase * @host: InitIO host flagging event * * We have ended up out of phase somehow. Reset the host controller * and throw all our toys out of the pram. Let the midlayer clean up */ static int int_initio_bad_seq(struct initio_host * host) { /* target wrong phase */ struct scsi_ctrl_blk *scb; int i; initio_reset_scsi(host, 10); while ((scb = initio_pop_busy_scb(host)) != NULL) { scb->hastat = HOST_BAD_PHAS; initio_append_done_scb(host, scb); } for (i = 0; i < host->max_tar; i++) host->targets[i].flags &= ~(TCF_SYNC_DONE | TCF_WDTR_DONE); return -1; } /** * initio_msgout_abort_targ - abort a tag * @host: InitIO host * * Abort when the target/lun does not match or when our SCB is not * busy. Used by untagged commands. */ static int initio_msgout_abort_targ(struct initio_host * host) { outb(((inb(host->addr + TUL_SSignal) & (TSC_SET_ACK | 7)) | TSC_SET_ATN), host->addr + TUL_SSignal); if (initio_msgin_accept(host) == -1) return -1; if (host->phase != MSG_OUT) return initio_bad_seq(host); outb(ABORT_TASK_SET, host->addr + TUL_SFifo); outb(TSC_XF_FIFO_OUT, host->addr + TUL_SCmd); return initio_wait_disc(host); } /** * initio_msgout_abort_tag - abort a tag * @host: InitIO host * * Abort when the target/lun does not match or when our SCB is not * busy. Used for tagged commands. */ static int initio_msgout_abort_tag(struct initio_host * host) { outb(((inb(host->addr + TUL_SSignal) & (TSC_SET_ACK | 7)) | TSC_SET_ATN), host->addr + TUL_SSignal); if (initio_msgin_accept(host) == -1) return -1; if (host->phase != MSG_OUT) return initio_bad_seq(host); outb(ABORT_TASK, host->addr + TUL_SFifo); outb(TSC_XF_FIFO_OUT, host->addr + TUL_SCmd); return initio_wait_disc(host); } /** * initio_msgin - Message in * @host: InitIO Host * * Process incoming message */ static int initio_msgin(struct initio_host * host) { struct target_control *active_tc; for (;;) { outb(TSC_FLUSH_FIFO, host->addr + TUL_SCtrl0); outl(1, host->addr + TUL_SCnt0); outb(TSC_XF_FIFO_IN, host->addr + TUL_SCmd); if (wait_tulip(host) == -1) return -1; switch (inb(host->addr + TUL_SFifo)) { case DISCONNECT: /* Disconnect msg */ outb(TSC_MSG_ACCEPT, host->addr + TUL_SCmd); return initio_wait_disc(host); case SAVE_POINTERS: case RESTORE_POINTERS: case NOP: initio_msgin_accept(host); break; case MESSAGE_REJECT: /* Clear ATN first */ outb((inb(host->addr + TUL_SSignal) & (TSC_SET_ACK | 7)), host->addr + TUL_SSignal); active_tc = host->active_tc; if ((active_tc->flags & (TCF_SYNC_DONE | TCF_NO_SYNC_NEGO)) == 0) /* do sync nego */ outb(((inb(host->addr + TUL_SSignal) & (TSC_SET_ACK | 7)) | TSC_SET_ATN), host->addr + TUL_SSignal); initio_msgin_accept(host); break; case EXTENDED_MESSAGE: /* extended msg */ initio_msgin_extend(host); break; case IGNORE_WIDE_RESIDUE: initio_msgin_accept(host); break; case COMMAND_COMPLETE: outb(TSC_FLUSH_FIFO, host->addr + TUL_SCtrl0); outb(TSC_MSG_ACCEPT, host->addr + TUL_SCmd); return initio_wait_done_disc(host); default: initio_msgout_reject(host); break; } if (host->phase != MSG_IN) return host->phase; } /* statement won't reach here */ } static int initio_msgout_reject(struct initio_host * host) { outb(((inb(host->addr + TUL_SSignal) & (TSC_SET_ACK | 7)) | TSC_SET_ATN), host->addr + TUL_SSignal); if (initio_msgin_accept(host) == -1) return -1; if (host->phase == MSG_OUT) { outb(MESSAGE_REJECT, host->addr + TUL_SFifo); /* Msg reject */ outb(TSC_XF_FIFO_OUT, host->addr + TUL_SCmd); return wait_tulip(host); } return host->phase; } static int initio_msgout_ide(struct initio_host * host) { outb(INITIATOR_ERROR, host->addr + TUL_SFifo); /* Initiator Detected Error */ outb(TSC_XF_FIFO_OUT, host->addr + TUL_SCmd); return wait_tulip(host); } static int initio_msgin_extend(struct initio_host * host) { u8 len, idx; if (initio_msgin_accept(host) != MSG_IN) return host->phase; /* Get extended msg length */ outl(1, host->addr + TUL_SCnt0); outb(TSC_XF_FIFO_IN, host->addr + TUL_SCmd); if (wait_tulip(host) == -1) return -1; len = inb(host->addr + TUL_SFifo); host->msg[0] = len; for (idx = 1; len != 0; len--) { if ((initio_msgin_accept(host)) != MSG_IN) return host->phase; outl(1, host->addr + TUL_SCnt0); outb(TSC_XF_FIFO_IN, host->addr + TUL_SCmd); if (wait_tulip(host) == -1) return -1; host->msg[idx++] = inb(host->addr + TUL_SFifo); } if (host->msg[1] == 1) { /* if it's synchronous data transfer request */ u8 r; if (host->msg[0] != 3) /* if length is not right */ return initio_msgout_reject(host); if (host->active_tc->flags & TCF_NO_SYNC_NEGO) { /* Set OFFSET=0 to do async, nego back */ host->msg[3] = 0; } else { if (initio_msgin_sync(host) == 0 && (host->active_tc->flags & TCF_SYNC_DONE)) { initio_sync_done(host); return initio_msgin_accept(host); } } r = inb(host->addr + TUL_SSignal); outb((r & (TSC_SET_ACK | 7)) | TSC_SET_ATN, host->addr + TUL_SSignal); if (initio_msgin_accept(host) != MSG_OUT) return host->phase; /* sync msg out */ outb(TSC_FLUSH_FIFO, host->addr + TUL_SCtrl0); initio_sync_done(host); outb(EXTENDED_MESSAGE, host->addr + TUL_SFifo); outb(3, host->addr + TUL_SFifo); outb(EXTENDED_SDTR, host->addr + TUL_SFifo); outb(host->msg[2], host->addr + TUL_SFifo); outb(host->msg[3], host->addr + TUL_SFifo); outb(TSC_XF_FIFO_OUT, host->addr + TUL_SCmd); return wait_tulip(host); } if (host->msg[0] != 2 || host->msg[1] != 3) return initio_msgout_reject(host); /* if it's WIDE DATA XFER REQ */ if (host->active_tc->flags & TCF_NO_WDTR) { host->msg[2] = 0; } else { if (host->msg[2] > 2) /* > 32 bits */ return initio_msgout_reject(host); if (host->msg[2] == 2) { /* == 32 */ host->msg[2] = 1; } else { if ((host->active_tc->flags & TCF_NO_WDTR) == 0) { wdtr_done(host); if ((host->active_tc->flags & (TCF_SYNC_DONE | TCF_NO_SYNC_NEGO)) == 0) outb(((inb(host->addr + TUL_SSignal) & (TSC_SET_ACK | 7)) | TSC_SET_ATN), host->addr + TUL_SSignal); return initio_msgin_accept(host); } } } outb(((inb(host->addr + TUL_SSignal) & (TSC_SET_ACK | 7)) | TSC_SET_ATN), host->addr + TUL_SSignal); if (initio_msgin_accept(host) != MSG_OUT) return host->phase; /* WDTR msg out */ outb(EXTENDED_MESSAGE, host->addr + TUL_SFifo); outb(2, host->addr + TUL_SFifo); outb(EXTENDED_WDTR, host->addr + TUL_SFifo); outb(host->msg[2], host->addr + TUL_SFifo); outb(TSC_XF_FIFO_OUT, host->addr + TUL_SCmd); return wait_tulip(host); } static int initio_msgin_sync(struct initio_host * host) { char default_period; default_period = initio_rate_tbl[host->active_tc->flags & TCF_SCSI_RATE]; if (host->msg[3] > MAX_OFFSET) { host->msg[3] = MAX_OFFSET; if (host->msg[2] < default_period) { host->msg[2] = default_period; return 1; } if (host->msg[2] >= 59) /* Change to async */ host->msg[3] = 0; return 1; } /* offset requests asynchronous transfers ? */ if (host->msg[3] == 0) { return 0; } if (host->msg[2] < default_period) { host->msg[2] = default_period; return 1; } if (host->msg[2] >= 59) { host->msg[3] = 0; return 1; } return 0; } static int wdtr_done(struct initio_host * host) { host->active_tc->flags &= ~TCF_SYNC_DONE; host->active_tc->flags |= TCF_WDTR_DONE; host->active_tc->js_period = 0; if (host->msg[2]) /* if 16 bit */ host->active_tc->js_period |= TSC_WIDE_SCSI; host->active_tc->sconfig0 &= ~TSC_ALT_PERIOD; outb(host->active_tc->sconfig0, host->addr + TUL_SConfig); outb(host->active_tc->js_period, host->addr + TUL_SPeriod); return 1; } static int initio_sync_done(struct initio_host * host) { int i; host->active_tc->flags |= TCF_SYNC_DONE; if (host->msg[3]) { host->active_tc->js_period |= host->msg[3]; for (i = 0; i < 8; i++) { if (initio_rate_tbl[i] >= host->msg[2]) /* pick the big one */ break; } host->active_tc->js_period |= (i << 4); host->active_tc->sconfig0 |= TSC_ALT_PERIOD; } outb(host->active_tc->sconfig0, host->addr + TUL_SConfig); outb(host->active_tc->js_period, host->addr + TUL_SPeriod); return -1; } static int initio_post_scsi_rst(struct initio_host * host) { struct scsi_ctrl_blk *scb; struct target_control *active_tc; int i; host->active = NULL; host->active_tc = NULL; host->flags = 0; while ((scb = initio_pop_busy_scb(host)) != NULL) { scb->hastat = HOST_BAD_PHAS; initio_append_done_scb(host, scb); } /* clear sync done flag */ active_tc = &host->targets[0]; for (i = 0; i < host->max_tar; active_tc++, i++) { active_tc->flags &= ~(TCF_SYNC_DONE | TCF_WDTR_DONE); /* Initialize the sync. xfer register values to an asyn xfer */ active_tc->js_period = 0; active_tc->sconfig0 = host->sconf1; host->act_tags[0] = 0; /* 07/22/98 */ host->targets[i].flags &= ~TCF_BUSY; /* 07/22/98 */ } /* for */ return -1; } static void initio_select_atn_stop(struct initio_host * host, struct scsi_ctrl_blk * scb) { scb->status |= SCB_SELECT; scb->next_state = 0x1; host->active = scb; host->active_tc = &host->targets[scb->target]; outb(TSC_SELATNSTOP, host->addr + TUL_SCmd); } static void initio_select_atn(struct initio_host * host, struct scsi_ctrl_blk * scb) { int i; scb->status |= SCB_SELECT; scb->next_state = 0x2; outb(scb->ident, host->addr + TUL_SFifo); for (i = 0; i < (int) scb->cdblen; i++) outb(scb->cdb[i], host->addr + TUL_SFifo); host->active_tc = &host->targets[scb->target]; host->active = scb; outb(TSC_SEL_ATN, host->addr + TUL_SCmd); } static void initio_select_atn3(struct initio_host * host, struct scsi_ctrl_blk * scb) { int i; scb->status |= SCB_SELECT; scb->next_state = 0x2; outb(scb->ident, host->addr + TUL_SFifo); outb(scb->tagmsg, host->addr + TUL_SFifo); outb(scb->tagid, host->addr + TUL_SFifo); for (i = 0; i < scb->cdblen; i++) outb(scb->cdb[i], host->addr + TUL_SFifo); host->active_tc = &host->targets[scb->target]; host->active = scb; outb(TSC_SEL_ATN3, host->addr + TUL_SCmd); } /** * initio_bus_device_reset - SCSI Bus Device Reset * @host: InitIO host to reset * * Perform a device reset and abort all pending SCBs for the * victim device */ int initio_bus_device_reset(struct initio_host * host) { struct scsi_ctrl_blk *scb = host->active; struct target_control *active_tc = host->active_tc; struct scsi_ctrl_blk *tmp, *prev; u8 tar; if (host->phase != MSG_OUT) return int_initio_bad_seq(host); /* Unexpected phase */ initio_unlink_pend_scb(host, scb); initio_release_scb(host, scb); tar = scb->target; /* target */ active_tc->flags &= ~(TCF_SYNC_DONE | TCF_WDTR_DONE | TCF_BUSY); /* clr sync. nego & WDTR flags 07/22/98 */ /* abort all SCB with same target */ prev = tmp = host->first_busy; /* Check Busy queue */ while (tmp != NULL) { if (tmp->target == tar) { /* unlink it */ if (tmp == host->first_busy) { if ((host->first_busy = tmp->next) == NULL) host->last_busy = NULL; } else { prev->next = tmp->next; if (tmp == host->last_busy) host->last_busy = prev; } tmp->hastat = HOST_ABORTED; initio_append_done_scb(host, tmp); } /* Previous haven't change */ else { prev = tmp; } tmp = tmp->next; } outb(TARGET_RESET, host->addr + TUL_SFifo); outb(TSC_XF_FIFO_OUT, host->addr + TUL_SCmd); return initio_wait_disc(host); } static int initio_msgin_accept(struct initio_host * host) { outb(TSC_MSG_ACCEPT, host->addr + TUL_SCmd); return wait_tulip(host); } static int wait_tulip(struct initio_host * host) { while (!((host->jsstatus0 = inb(host->addr + TUL_SStatus0)) & TSS_INT_PENDING)) cpu_relax(); host->jsint = inb(host->addr + TUL_SInt); host->phase = host->jsstatus0 & TSS_PH_MASK; host->jsstatus1 = inb(host->addr + TUL_SStatus1); if (host->jsint & TSS_RESEL_INT) /* if SCSI bus reset detected */ return int_initio_resel(host); if (host->jsint & TSS_SEL_TIMEOUT) /* if selected/reselected timeout interrupt */ return int_initio_busfree(host); if (host->jsint & TSS_SCSIRST_INT) /* if SCSI bus reset detected */ return int_initio_scsi_rst(host); if (host->jsint & TSS_DISC_INT) { /* BUS disconnection */ if (host->flags & HCF_EXPECT_DONE_DISC) { outb(TSC_FLUSH_FIFO, host->addr + TUL_SCtrl0); /* Flush SCSI FIFO */ initio_unlink_busy_scb(host, host->active); host->active->hastat = 0; initio_append_done_scb(host, host->active); host->active = NULL; host->active_tc = NULL; host->flags &= ~HCF_EXPECT_DONE_DISC; outb(TSC_INITDEFAULT, host->addr + TUL_SConfig); outb(TSC_HW_RESELECT, host->addr + TUL_SCtrl1); /* Enable HW reselect */ return -1; } if (host->flags & HCF_EXPECT_DISC) { outb(TSC_FLUSH_FIFO, host->addr + TUL_SCtrl0); /* Flush SCSI FIFO */ host->active = NULL; host->active_tc = NULL; host->flags &= ~HCF_EXPECT_DISC; outb(TSC_INITDEFAULT, host->addr + TUL_SConfig); outb(TSC_HW_RESELECT, host->addr + TUL_SCtrl1); /* Enable HW reselect */ return -1; } return int_initio_busfree(host); } /* The old code really does the below. Can probably be removed */ if (host->jsint & (TSS_FUNC_COMP | TSS_BUS_SERV)) return host->phase; return host->phase; } static int initio_wait_disc(struct initio_host * host) { while (!((host->jsstatus0 = inb(host->addr + TUL_SStatus0)) & TSS_INT_PENDING)) cpu_relax(); host->jsint = inb(host->addr + TUL_SInt); if (host->jsint & TSS_SCSIRST_INT) /* if SCSI bus reset detected */ return int_initio_scsi_rst(host); if (host->jsint & TSS_DISC_INT) { /* BUS disconnection */ outb(TSC_FLUSH_FIFO, host->addr + TUL_SCtrl0); /* Flush SCSI FIFO */ outb(TSC_INITDEFAULT, host->addr + TUL_SConfig); outb(TSC_HW_RESELECT, host->addr + TUL_SCtrl1); /* Enable HW reselect */ host->active = NULL; return -1; } return initio_bad_seq(host); } static int initio_wait_done_disc(struct initio_host * host) { while (!((host->jsstatus0 = inb(host->addr + TUL_SStatus0)) & TSS_INT_PENDING)) cpu_relax(); host->jsint = inb(host->addr + TUL_SInt); if (host->jsint & TSS_SCSIRST_INT) /* if SCSI bus reset detected */ return int_initio_scsi_rst(host); if (host->jsint & TSS_DISC_INT) { /* BUS disconnection */ outb(TSC_FLUSH_FIFO, host->addr + TUL_SCtrl0); /* Flush SCSI FIFO */ outb(TSC_INITDEFAULT, host->addr + TUL_SConfig); outb(TSC_HW_RESELECT, host->addr + TUL_SCtrl1); /* Enable HW reselect */ initio_unlink_busy_scb(host, host->active); initio_append_done_scb(host, host->active); host->active = NULL; return -1; } return initio_bad_seq(host); } /** * i91u_intr - IRQ handler * @irqno: IRQ number * @dev_id: IRQ identifier * * Take the relevant locks and then invoke the actual isr processing * code under the lock. */ static irqreturn_t i91u_intr(int irqno, void *dev_id) { struct Scsi_Host *dev = dev_id; unsigned long flags; int r; spin_lock_irqsave(dev->host_lock, flags); r = initio_isr((struct initio_host *)dev->hostdata); spin_unlock_irqrestore(dev->host_lock, flags); if (r) return IRQ_HANDLED; else return IRQ_NONE; } /** * initio_build_scb - Build the mappings and SCB * @host: InitIO host taking the command * @cblk: Firmware command block * @cmnd: SCSI midlayer command block * * Translate the abstract SCSI command into a firmware command block * suitable for feeding to the InitIO host controller. This also requires * we build the scatter gather lists and ensure they are mapped properly. */ static void initio_build_scb(struct initio_host * host, struct scsi_ctrl_blk * cblk, struct scsi_cmnd * cmnd) { /* Create corresponding SCB */ struct scatterlist *sglist; struct sg_entry *sg; /* Pointer to SG list */ int i, nseg; long total_len; dma_addr_t dma_addr; /* Fill in the command headers */ cblk->post = i91uSCBPost; /* i91u's callback routine */ cblk->srb = cmnd; cblk->opcode = ExecSCSI; cblk->flags = SCF_POST; /* After SCSI done, call post routine */ cblk->target = cmnd->device->id; cblk->lun = cmnd->device->lun; cblk->ident = cmnd->device->lun | DISC_ALLOW; cblk->flags |= SCF_SENSE; /* Turn on auto request sense */ /* Map the sense buffer into bus memory */ dma_addr = dma_map_single(&host->pci_dev->dev, cmnd->sense_buffer, SENSE_SIZE, DMA_FROM_DEVICE); cblk->senseptr = (u32)dma_addr; cblk->senselen = SENSE_SIZE; initio_priv(cmnd)->sense_dma_addr = dma_addr; cblk->cdblen = cmnd->cmd_len; /* Clear the returned status */ cblk->hastat = 0; cblk->tastat = 0; /* Command the command */ memcpy(cblk->cdb, cmnd->cmnd, cmnd->cmd_len); /* Set up tags */ if (cmnd->device->tagged_supported) { /* Tag Support */ cblk->tagmsg = SIMPLE_QUEUE_TAG; /* Do simple tag only */ } else { cblk->tagmsg = 0; /* No tag support */ } /* todo handle map_sg error */ nseg = scsi_dma_map(cmnd); BUG_ON(nseg < 0); if (nseg) { dma_addr = dma_map_single(&host->pci_dev->dev, &cblk->sglist[0], sizeof(struct sg_entry) * TOTAL_SG_ENTRY, DMA_BIDIRECTIONAL); cblk->bufptr = (u32)dma_addr; initio_priv(cmnd)->sglist_dma_addr = dma_addr; cblk->sglen = nseg; cblk->flags |= SCF_SG; /* Turn on SG list flag */ total_len = 0; sg = &cblk->sglist[0]; scsi_for_each_sg(cmnd, sglist, cblk->sglen, i) { sg->data = cpu_to_le32((u32)sg_dma_address(sglist)); sg->len = cpu_to_le32((u32)sg_dma_len(sglist)); total_len += sg_dma_len(sglist); ++sg; } cblk->buflen = (scsi_bufflen(cmnd) > total_len) ? total_len : scsi_bufflen(cmnd); } else { /* No data transfer required */ cblk->buflen = 0; cblk->sglen = 0; } } /** * i91u_queuecommand_lck - Queue a new command if possible * @cmd: SCSI command block from the mid layer * * Attempts to queue a new command with the host adapter. Will return * zero if successful or indicate a host busy condition if not (which * will cause the mid layer to call us again later with the command) */ static int i91u_queuecommand_lck(struct scsi_cmnd *cmd) { struct initio_host *host = (struct initio_host *) cmd->device->host->hostdata; struct scsi_ctrl_blk *cmnd; cmnd = initio_alloc_scb(host); if (!cmnd) return SCSI_MLQUEUE_HOST_BUSY; initio_build_scb(host, cmnd, cmd); initio_exec_scb(host, cmnd); return 0; } static DEF_SCSI_QCMD(i91u_queuecommand) /** * i91u_bus_reset - reset the SCSI bus * @cmnd: Command block we want to trigger the reset for * * Initiate a SCSI bus reset sequence */ static int i91u_bus_reset(struct scsi_cmnd * cmnd) { struct initio_host *host; host = (struct initio_host *) cmnd->device->host->hostdata; spin_lock_irq(cmnd->device->host->host_lock); initio_reset_scsi(host, 0); spin_unlock_irq(cmnd->device->host->host_lock); return SUCCESS; } /** * i91u_biosparam - return the "logical geometry * @sdev: SCSI device * @dev: Matching block device * @capacity: Sector size of drive * @info_array: Return space for BIOS geometry * * Map the device geometry in a manner compatible with the host * controller BIOS behaviour. * * FIXME: limited to 2^32 sector devices. */ static int i91u_biosparam(struct scsi_device *sdev, struct block_device *dev, sector_t capacity, int *info_array) { struct initio_host *host; /* Point to Host adapter control block */ struct target_control *tc; host = (struct initio_host *) sdev->host->hostdata; tc = &host->targets[sdev->id]; if (tc->heads) { info_array[0] = tc->heads; info_array[1] = tc->sectors; info_array[2] = (unsigned long)capacity / tc->heads / tc->sectors; } else { if (tc->drv_flags & TCF_DRV_255_63) { info_array[0] = 255; info_array[1] = 63; info_array[2] = (unsigned long)capacity / 255 / 63; } else { info_array[0] = 64; info_array[1] = 32; info_array[2] = (unsigned long)capacity >> 11; } } #if defined(DEBUG_BIOSPARAM) if (i91u_debug & debug_biosparam) { printk("bios geometry: head=%d, sec=%d, cyl=%d\n", info_array[0], info_array[1], info_array[2]); printk("WARNING: check, if the bios geometry is correct.\n"); } #endif return 0; } /** * i91u_unmap_scb - Unmap a command * @pci_dev: PCI device the command is for * @cmnd: The command itself * * Unmap any PCI mapping/IOMMU resources allocated when the command * was mapped originally as part of initio_build_scb */ static void i91u_unmap_scb(struct pci_dev *pci_dev, struct scsi_cmnd *cmnd) { /* auto sense buffer */ if (initio_priv(cmnd)->sense_dma_addr) { dma_unmap_single(&pci_dev->dev, initio_priv(cmnd)->sense_dma_addr, SENSE_SIZE, DMA_FROM_DEVICE); initio_priv(cmnd)->sense_dma_addr = 0; } /* request buffer */ if (scsi_sg_count(cmnd)) { dma_unmap_single(&pci_dev->dev, initio_priv(cmnd)->sglist_dma_addr, sizeof(struct sg_entry) * TOTAL_SG_ENTRY, DMA_BIDIRECTIONAL); scsi_dma_unmap(cmnd); } } /* * i91uSCBPost - SCSI callback * * This is callback routine be called when tulip finish one * SCSI command. */ static void i91uSCBPost(u8 * host_mem, u8 * cblk_mem) { struct scsi_cmnd *cmnd; /* Pointer to SCSI request block */ struct initio_host *host; struct scsi_ctrl_blk *cblk; host = (struct initio_host *) host_mem; cblk = (struct scsi_ctrl_blk *) cblk_mem; if ((cmnd = cblk->srb) == NULL) { printk(KERN_ERR "i91uSCBPost: SRB pointer is empty\n"); WARN_ON(1); initio_release_scb(host, cblk); /* Release SCB for current channel */ return; } /* * Remap the firmware error status into a mid layer one */ switch (cblk->hastat) { case 0x0: case 0xa: /* Linked command complete without error and linked normally */ case 0xb: /* Linked command complete without error interrupt generated */ cblk->hastat = 0; break; case 0x11: /* Selection time out-The initiator selection or target reselection was not complete within the SCSI Time out period */ cblk->hastat = DID_TIME_OUT; break; case 0x14: /* Target bus phase sequence failure-An invalid bus phase or bus phase sequence was requested by the target. The host adapter will generate a SCSI Reset Condition, notifying the host with a SCRD interrupt */ cblk->hastat = DID_RESET; break; case 0x1a: /* SCB Aborted. 07/21/98 */ cblk->hastat = DID_ABORT; break; case 0x12: /* Data overrun/underrun-The target attempted to transfer more data than was allocated by the Data Length field or the sum of the Scatter / Gather Data Length fields. */ case 0x13: /* Unexpected bus free-The target dropped the SCSI BSY at an unexpected time. */ case 0x16: /* Invalid SCB Operation Code. */ default: printk("ini9100u: %x %x\n", cblk->hastat, cblk->tastat); cblk->hastat = DID_ERROR; /* Couldn't find any better */ break; } cmnd->result = cblk->tastat | (cblk->hastat << 16); i91u_unmap_scb(host->pci_dev, cmnd); scsi_done(cmnd); /* Notify system DONE */ initio_release_scb(host, cblk); /* Release SCB for current channel */ } static struct scsi_host_template initio_template = { .proc_name = "INI9100U", .name = "Initio INI-9X00U/UW SCSI device driver", .queuecommand = i91u_queuecommand, .eh_bus_reset_handler = i91u_bus_reset, .bios_param = i91u_biosparam, .can_queue = MAX_TARGETS * i91u_MAXQUEUE, .this_id = 1, .sg_tablesize = SG_ALL, .cmd_size = sizeof(struct initio_cmd_priv), }; static int initio_probe_one(struct pci_dev *pdev, const struct pci_device_id *id) { struct Scsi_Host *shost; struct initio_host *host; u32 reg; u16 bios_seg; struct scsi_ctrl_blk *scb, *tmp, *prev = NULL /* silence gcc */; int num_scb, i, error; error = pci_enable_device(pdev); if (error) return error; pci_read_config_dword(pdev, 0x44, (u32 *) & reg); bios_seg = (u16) (reg & 0xFF); if (((reg & 0xFF00) >> 8) == 0xFF) reg = 0; bios_seg = (bios_seg << 8) + ((u16) ((reg & 0xFF00) >> 8)); if (dma_set_mask(&pdev->dev, DMA_BIT_MASK(32))) { printk(KERN_WARNING "i91u: Could not set 32 bit DMA mask\n"); error = -ENODEV; goto out_disable_device; } shost = scsi_host_alloc(&initio_template, sizeof(struct initio_host)); if (!shost) { printk(KERN_WARNING "initio: Could not allocate host structure.\n"); error = -ENOMEM; goto out_disable_device; } host = (struct initio_host *)shost->hostdata; memset(host, 0, sizeof(struct initio_host)); host->addr = pci_resource_start(pdev, 0); host->bios_addr = bios_seg; if (!request_region(host->addr, 256, "i91u")) { printk(KERN_WARNING "initio: I/O port range 0x%x is busy.\n", host->addr); error = -ENODEV; goto out_host_put; } if (initio_tag_enable) /* 1.01i */ num_scb = MAX_TARGETS * i91u_MAXQUEUE; else num_scb = MAX_TARGETS + 3; /* 1-tape, 1-CD_ROM, 1- extra */ for (; num_scb >= MAX_TARGETS + 3; num_scb--) { i = num_scb * sizeof(struct scsi_ctrl_blk); scb = kzalloc(i, GFP_KERNEL); if (scb) break; } if (!scb) { printk(KERN_WARNING "initio: Cannot allocate SCB array.\n"); error = -ENOMEM; goto out_release_region; } host->pci_dev = pdev; host->semaph = 1; spin_lock_init(&host->semaph_lock); host->num_scbs = num_scb; host->scb = scb; host->next_pending = scb; host->next_avail = scb; for (i = 0, tmp = scb; i < num_scb; i++, tmp++) { tmp->tagid = i; if (i != 0) prev->next = tmp; prev = tmp; } prev->next = NULL; host->scb_end = tmp; host->first_avail = scb; host->last_avail = prev; spin_lock_init(&host->avail_lock); initio_init(host, phys_to_virt(((u32)bios_seg << 4))); host->jsstatus0 = 0; shost->io_port = host->addr; shost->n_io_port = 0xff; shost->can_queue = num_scb; /* 03/05/98 */ shost->unique_id = host->addr; shost->max_id = host->max_tar; shost->max_lun = 32; /* 10/21/97 */ shost->irq = pdev->irq; shost->this_id = host->scsi_id; /* Assign HCS index */ shost->base = host->addr; shost->sg_tablesize = TOTAL_SG_ENTRY; error = request_irq(pdev->irq, i91u_intr, IRQF_SHARED, "i91u", shost); if (error < 0) { printk(KERN_WARNING "initio: Unable to request IRQ %d\n", pdev->irq); goto out_free_scbs; } pci_set_drvdata(pdev, shost); error = scsi_add_host(shost, &pdev->dev); if (error) goto out_free_irq; scsi_scan_host(shost); return 0; out_free_irq: free_irq(pdev->irq, shost); out_free_scbs: kfree(host->scb); out_release_region: release_region(host->addr, 256); out_host_put: scsi_host_put(shost); out_disable_device: pci_disable_device(pdev); return error; } /** * initio_remove_one - control shutdown * @pdev: PCI device being released * * Release the resources assigned to this adapter after it has * finished being used. */ static void initio_remove_one(struct pci_dev *pdev) { struct Scsi_Host *host = pci_get_drvdata(pdev); struct initio_host *s = (struct initio_host *)host->hostdata; scsi_remove_host(host); free_irq(pdev->irq, host); release_region(s->addr, 256); scsi_host_put(host); pci_disable_device(pdev); } MODULE_LICENSE("GPL"); static struct pci_device_id initio_pci_tbl[] = { {PCI_VENDOR_ID_INIT, 0x9500, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0}, {PCI_VENDOR_ID_INIT, 0x9400, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0}, {PCI_VENDOR_ID_INIT, 0x9401, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0}, {PCI_VENDOR_ID_INIT, 0x0002, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0}, {PCI_VENDOR_ID_DOMEX, 0x0002, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0}, {0,} }; MODULE_DEVICE_TABLE(pci, initio_pci_tbl); static struct pci_driver initio_pci_driver = { .name = "initio", .id_table = initio_pci_tbl, .probe = initio_probe_one, .remove = initio_remove_one, }; module_pci_driver(initio_pci_driver); MODULE_DESCRIPTION("Initio INI-9X00U/UW SCSI device driver"); MODULE_AUTHOR("Initio Corporation"); MODULE_LICENSE("GPL"); |