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1822 1823 1824 1825 1826 1827 1828 1829 1830 1831 1832 1833 1834 1835 1836 1837 1838 1839 1840 1841 1842 1843 1844 1845 1846 1847 1848 1849 1850 1851 1852 1853 1854 1855 1856 1857 1858 1859 1860 1861 1862 1863 1864 1865 1866 1867 1868 1869 1870 1871 1872 1873 1874 1875 1876 1877 1878 1879 1880 1881 1882 1883 1884 1885 1886 1887 1888 1889 1890 1891 1892 1893 1894 1895 1896 1897 1898 1899 1900 1901 1902 1903 1904 1905 1906 1907 1908 1909 1910 1911 1912 1913 1914 1915 1916 1917 1918 1919 1920 1921 1922 1923 1924 1925 1926 1927 1928 1929 1930 1931 1932 1933 1934 1935 1936 1937 1938 1939 1940 1941 1942 1943 1944 1945 1946 1947 1948 1949 1950 1951 1952 1953 1954 1955 1956 1957 1958 1959 1960 1961 1962 1963 1964 1965 1966 1967 1968 1969 1970 1971 1972 1973 1974 1975 1976 1977 1978 1979 1980 1981 1982 1983 1984 1985 1986 | /* * wd33c93.c - Linux-68k device driver for the Commodore * Amiga A2091/590 SCSI controller card * * Copyright (c) 1996 John Shifflett, GeoLog Consulting * john@geolog.com * jshiffle@netcom.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * * Drew Eckhardt's excellent 'Generic NCR5380' sources from Linux-PC * provided much of the inspiration and some of the code for this * driver. Everything I know about Amiga DMA was gleaned from careful * reading of Hamish Mcdonald's original wd33c93 driver; in fact, I * borrowed shamelessly from all over that source. Thanks Hamish! * * _This_ driver is (I feel) an improvement over the old one in * several respects: * * - Target Disconnection/Reconnection is now supported. Any * system with more than one device active on the SCSI bus * will benefit from this. The driver defaults to what I * call 'adaptive disconnect' - meaning that each command * is evaluated individually as to whether or not it should * be run with the option to disconnect/reselect (if the * device chooses), or as a "SCSI-bus-hog". * * - Synchronous data transfers are now supported. Because of * a few devices that choke after telling the driver that * they can do sync transfers, we don't automatically use * this faster protocol - it can be enabled via the command- * line on a device-by-device basis. * * - Runtime operating parameters can now be specified through * the 'amiboot' or the 'insmod' command line. For amiboot do: * "amiboot [usual stuff] wd33c93=blah,blah,blah" * The defaults should be good for most people. See the comment * for 'setup_strings' below for more details. * * - The old driver relied exclusively on what the Western Digital * docs call "Combination Level 2 Commands", which are a great * idea in that the CPU is relieved of a lot of interrupt * overhead. However, by accepting a certain (user-settable) * amount of additional interrupts, this driver achieves * better control over the SCSI bus, and data transfers are * almost as fast while being much easier to define, track, * and debug. * * * TODO: * more speed. linked commands. * * * People with bug reports, wish-lists, complaints, comments, * or improvements are asked to pah-leeez email me (John Shifflett) * at john@geolog.com or jshiffle@netcom.com! I'm anxious to get * this thing into as good a shape as possible, and I'm positive * there are lots of lurking bugs and "Stupid Places". * */ #include <linux/module.h> #include <asm/system.h> #include <linux/sched.h> #include <linux/string.h> #include <linux/delay.h> #include <linux/version.h> #include <linux/init.h> #include <asm/irq.h> #include <linux/blk.h> #include "scsi.h" #include "hosts.h" #define WD33C93_VERSION "1.25" #define WD33C93_DATE "09/Jul/1997" /* NOTE: 1.25 for m68k is related to in2000-1.31 for x86 */ /* * Note - the following defines have been moved to 'wd33c93.h': * * PROC_INTERFACE * PROC_STATISTICS * SYNC_DEBUG * DEBUGGING_ON * DEBUG_DEFAULTS * */ #include "wd33c93.h" /* * 'setup_strings' is a single string used to pass operating parameters and * settings from the kernel/module command-line to the driver. 'setup_args[]' * is an array of strings that define the compile-time default values for * these settings. If Linux boots with an amiboot or insmod command-line, * those settings are combined with 'setup_args[]'. Note that amiboot * command-lines are prefixed with "wd33c93=" while insmod uses a * "setup_strings=" prefix. The driver recognizes the following keywords * (lower case required) and arguments: * * - nosync:bitmask -bitmask is a byte where the 1st 7 bits correspond with * the 7 possible SCSI devices. Set a bit to negotiate for * asynchronous transfers on that device. To maintain * backwards compatibility, a command-line such as * "wd33c93=255" will be automatically translated to * "wd33c93=nosync:0xff". * - nodma:x -x = 1 to disable DMA, x = 0 to enable it. Argument is * optional - if not present, same as "nodma:1". * - period:ns -ns is the minimum # of nanoseconds in a SCSI data transfer * period. Default is 500; acceptable values are 250 - 1000. * - disconnect:x -x = 0 to never allow disconnects, 2 to always allow them. * x = 1 does 'adaptive' disconnects, which is the default * and generally the best choice. * - debug:x -If 'DEBUGGING_ON' is defined, x is a bit mask that causes * various types of debug output to printed - see the DB_xxx * defines in wd33c93.h * - clock:x -x = clock input in MHz for WD33c93 chip. Normal values * would be from 8 through 20. Default is 8. * - next -No argument. Used to separate blocks of keywords when * there's more than one host adapter in the system. * * Syntax Notes: * - Numeric arguments can be decimal or the '0x' form of hex notation. There * _must_ be a colon between a keyword and its numeric argument, with no * spaces. * - Keywords are separated by commas, no spaces, in the standard kernel * command-line manner. * - A keyword in the 'nth' comma-separated command-line member will overwrite * the 'nth' element of setup_args[]. A blank command-line member (in * other words, a comma with no preceding keyword) will _not_ overwrite * the corresponding setup_args[] element. * - If a keyword is used more than once, the first one applies to the first * SCSI host found, the second to the second card, etc, unless the 'next' * keyword is used to change the order. * * Some amiboot examples (for insmod, use 'setup_strings' instead of 'wd33c93'): * - wd33c93=nosync:255 * - wd33c93=nodma * - wd33c93=nodma:1 * - wd33c93=disconnect:2,nosync:0x08,period:250 * - wd33c93=debug:0x1c */ /* Normally, no defaults are specified */ static char *setup_args[] = {"","","","","","","","",""}; /* filled in by 'insmod' */ static char *setup_strings = 0; #ifdef MODULE_PARM MODULE_PARM(setup_strings, "s"); #endif static inline uchar read_wd33c93(wd33c93_regs *regp,uchar reg_num) { regp->SASR = reg_num; mb(); return(regp->SCMD); } #define READ_AUX_STAT() (regp->SASR) static inline void write_wd33c93(wd33c93_regs *regp,uchar reg_num, uchar value) { regp->SASR = reg_num; mb(); regp->SCMD = value; mb(); } static inline void write_wd33c93_cmd(wd33c93_regs *regp, uchar cmd) { regp->SASR = WD_COMMAND; mb(); regp->SCMD = cmd; mb(); } static inline uchar read_1_byte(wd33c93_regs *regp) { uchar asr; uchar x = 0; write_wd33c93(regp, WD_CONTROL, CTRL_IDI | CTRL_EDI | CTRL_POLLED); write_wd33c93_cmd(regp, WD_CMD_TRANS_INFO|0x80); do { asr = READ_AUX_STAT(); if (asr & ASR_DBR) x = read_wd33c93(regp, WD_DATA); } while (!(asr & ASR_INT)); return x; } static void write_wd33c93_count(wd33c93_regs *regp,unsigned long value) { regp->SASR = WD_TRANSFER_COUNT_MSB; mb(); regp->SCMD = value >> 16; regp->SCMD = value >> 8; regp->SCMD = value; mb(); } static unsigned long read_wd33c93_count(wd33c93_regs *regp) { unsigned long value; regp->SASR = WD_TRANSFER_COUNT_MSB; mb(); value = regp->SCMD << 16; value |= regp->SCMD << 8; value |= regp->SCMD; mb(); return value; } /* The 33c93 needs to be told which direction a command transfers its * data; we use this function to figure it out. Returns true if there * will be a DATA_OUT phase with this command, false otherwise. * (Thanks to Joerg Dorchain for the research and suggestion.) */ static int is_dir_out(Scsi_Cmnd *cmd) { switch (cmd->cmnd[0]) { case WRITE_6: case WRITE_10: case WRITE_12: case WRITE_LONG: case WRITE_SAME: case WRITE_BUFFER: case WRITE_VERIFY: case WRITE_VERIFY_12: case COMPARE: case COPY: case COPY_VERIFY: case SEARCH_EQUAL: case SEARCH_HIGH: case SEARCH_LOW: case SEARCH_EQUAL_12: case SEARCH_HIGH_12: case SEARCH_LOW_12: case FORMAT_UNIT: case REASSIGN_BLOCKS: case RESERVE: case MODE_SELECT: case MODE_SELECT_10: case LOG_SELECT: case SEND_DIAGNOSTIC: case CHANGE_DEFINITION: case UPDATE_BLOCK: case SET_WINDOW: case MEDIUM_SCAN: case SEND_VOLUME_TAG: case 0xea: return 1; default: return 0; } } static struct sx_period sx_table[] = { { 1, 0x20}, {252, 0x20}, {376, 0x30}, {500, 0x40}, {624, 0x50}, {752, 0x60}, {876, 0x70}, {1000,0x00}, {0, 0} }; static int round_period(unsigned int period) { int x; for (x=1; sx_table[x].period_ns; x++) { if ((period <= sx_table[x-0].period_ns) && (period > sx_table[x-1].period_ns)) { return x; } } return 7; } static uchar calc_sync_xfer(unsigned int period, unsigned int offset) { uchar result; period *= 4; /* convert SDTR code to ns */ result = sx_table[round_period(period)].reg_value; result |= (offset < OPTIMUM_SX_OFF)?offset:OPTIMUM_SX_OFF; return result; } static void wd33c93_execute(struct Scsi_Host *instance); int wd33c93_queuecommand (Scsi_Cmnd *cmd, void (*done)(Scsi_Cmnd *)) { struct WD33C93_hostdata *hostdata; Scsi_Cmnd *tmp; unsigned long flags; hostdata = (struct WD33C93_hostdata *)cmd->host->hostdata; DB(DB_QUEUE_COMMAND,printk("Q-%d-%02x-%ld( ",cmd->target,cmd->cmnd[0],cmd->pid)) /* Set up a few fields in the Scsi_Cmnd structure for our own use: * - host_scribble is the pointer to the next cmd in the input queue * - scsi_done points to the routine we call when a cmd is finished * - result is what you'd expect */ cmd->host_scribble = NULL; cmd->scsi_done = done; cmd->result = 0; /* We use the Scsi_Pointer structure that's included with each command * as a scratchpad (as it's intended to be used!). The handy thing about * the SCp.xxx fields is that they're always associated with a given * cmd, and are preserved across disconnect-reselect. This means we * can pretty much ignore SAVE_POINTERS and RESTORE_POINTERS messages * if we keep all the critical pointers and counters in SCp: * - SCp.ptr is the pointer into the RAM buffer * - SCp.this_residual is the size of that buffer * - SCp.buffer points to the current scatter-gather buffer * - SCp.buffers_residual tells us how many S.G. buffers there are * - SCp.have_data_in is not used * - SCp.sent_command is not used * - SCp.phase records this command's SRCID_ER bit setting */ if (cmd->use_sg) { cmd->SCp.buffer = (struct scatterlist *)cmd->buffer; cmd->SCp.buffers_residual = cmd->use_sg - 1; cmd->SCp.ptr = (char *)cmd->SCp.buffer->address; cmd->SCp.this_residual = cmd->SCp.buffer->length; } else { cmd->SCp.buffer = NULL; cmd->SCp.buffers_residual = 0; cmd->SCp.ptr = (char *)cmd->request_buffer; cmd->SCp.this_residual = cmd->request_bufflen; } /* WD docs state that at the conclusion of a "LEVEL2" command, the * status byte can be retrieved from the LUN register. Apparently, * this is the case only for *uninterrupted* LEVEL2 commands! If * there are any unexpected phases entered, even if they are 100% * legal (different devices may choose to do things differently), * the LEVEL2 command sequence is exited. This often occurs prior * to receiving the status byte, in which case the driver does a * status phase interrupt and gets the status byte on its own. * While such a command can then be "resumed" (ie restarted to * finish up as a LEVEL2 command), the LUN register will NOT be * a valid status byte at the command's conclusion, and we must * use the byte obtained during the earlier interrupt. Here, we * preset SCp.Status to an illegal value (0xff) so that when * this command finally completes, we can tell where the actual * status byte is stored. */ cmd->SCp.Status = ILLEGAL_STATUS_BYTE; /* * Add the cmd to the end of 'input_Q'. Note that REQUEST SENSE * commands are added to the head of the queue so that the desired * sense data is not lost before REQUEST_SENSE executes. */ save_flags(flags); cli(); if (!(hostdata->input_Q) || (cmd->cmnd[0] == REQUEST_SENSE)) { cmd->host_scribble = (uchar *)hostdata->input_Q; hostdata->input_Q = cmd; } else { /* find the end of the queue */ for (tmp=(Scsi_Cmnd *)hostdata->input_Q; tmp->host_scribble; tmp=(Scsi_Cmnd *)tmp->host_scribble) ; tmp->host_scribble = (uchar *)cmd; } /* We know that there's at least one command in 'input_Q' now. * Go see if any of them are runnable! */ wd33c93_execute(cmd->host); DB(DB_QUEUE_COMMAND,printk(")Q-%ld ",cmd->pid)) restore_flags(flags); return 0; } /* * This routine attempts to start a scsi command. If the host_card is * already connected, we give up immediately. Otherwise, look through * the input_Q, using the first command we find that's intended * for a currently non-busy target/lun. * * wd33c93_execute() is always called with interrupts disabled or from * the wd33c93_intr itself, which means that a wd33c93 interrupt * cannot occur while we are in here. */ static void wd33c93_execute (struct Scsi_Host *instance) { struct WD33C93_hostdata *hostdata; wd33c93_regs *regp; Scsi_Cmnd *cmd, *prev; int i; hostdata = (struct WD33C93_hostdata *)instance->hostdata; regp = hostdata->regp; DB(DB_EXECUTE,printk("EX(")) if (hostdata->selecting || hostdata->connected) { DB(DB_EXECUTE,printk(")EX-0 ")) return; } /* * Search through the input_Q for a command destined * for an idle target/lun. */ cmd = (Scsi_Cmnd *)hostdata->input_Q; prev = 0; while (cmd) { if (!(hostdata->busy[cmd->target] & (1 << cmd->lun))) break; prev = cmd; cmd = (Scsi_Cmnd *)cmd->host_scribble; } /* quit if queue empty or all possible targets are busy */ if (!cmd) { DB(DB_EXECUTE,printk(")EX-1 ")) return; } /* remove command from queue */ if (prev) prev->host_scribble = cmd->host_scribble; else hostdata->input_Q = (Scsi_Cmnd *)cmd->host_scribble; #ifdef PROC_STATISTICS hostdata->cmd_cnt[cmd->target]++; #endif /* * Start the selection process */ if (is_dir_out(cmd)) write_wd33c93(regp, WD_DESTINATION_ID, cmd->target); else write_wd33c93(regp, WD_DESTINATION_ID, cmd->target | DSTID_DPD); /* Now we need to figure out whether or not this command is a good * candidate for disconnect/reselect. We guess to the best of our * ability, based on a set of hierarchical rules. When several * devices are operating simultaneously, disconnects are usually * an advantage. In a single device system, or if only 1 device * is being accessed, transfers usually go faster if disconnects * are not allowed: * * + Commands should NEVER disconnect if hostdata->disconnect = * DIS_NEVER (this holds for tape drives also), and ALWAYS * disconnect if hostdata->disconnect = DIS_ALWAYS. * + Tape drive commands should always be allowed to disconnect. * + Disconnect should be allowed if disconnected_Q isn't empty. * + Commands should NOT disconnect if input_Q is empty. * + Disconnect should be allowed if there are commands in input_Q * for a different target/lun. In this case, the other commands * should be made disconnect-able, if not already. * * I know, I know - this code would flunk me out of any * "C Programming 101" class ever offered. But it's easy * to change around and experiment with for now. */ cmd->SCp.phase = 0; /* assume no disconnect */ if (hostdata->disconnect == DIS_NEVER) goto no; if (hostdata->disconnect == DIS_ALWAYS) goto yes; if (cmd->device->type == 1) /* tape drive? */ goto yes; if (hostdata->disconnected_Q) /* other commands disconnected? */ goto yes; if (!(hostdata->input_Q)) /* input_Q empty? */ goto no; for (prev=(Scsi_Cmnd *)hostdata->input_Q; prev; prev=(Scsi_Cmnd *)prev->host_scribble) { if ((prev->target != cmd->target) || (prev->lun != cmd->lun)) { for (prev=(Scsi_Cmnd *)hostdata->input_Q; prev; prev=(Scsi_Cmnd *)prev->host_scribble) prev->SCp.phase = 1; goto yes; } } goto no; yes: cmd->SCp.phase = 1; #ifdef PROC_STATISTICS hostdata->disc_allowed_cnt[cmd->target]++; #endif no: write_wd33c93(regp, WD_SOURCE_ID, ((cmd->SCp.phase)?SRCID_ER:0)); write_wd33c93(regp, WD_TARGET_LUN, cmd->lun); write_wd33c93(regp,WD_SYNCHRONOUS_TRANSFER,hostdata->sync_xfer[cmd->target]); hostdata->busy[cmd->target] |= (1 << cmd->lun); if ((hostdata->level2 == L2_NONE) || (hostdata->sync_stat[cmd->target] == SS_UNSET)) { /* * Do a 'Select-With-ATN' command. This will end with * one of the following interrupts: * CSR_RESEL_AM: failure - can try again later. * CSR_TIMEOUT: failure - give up. * CSR_SELECT: success - proceed. */ hostdata->selecting = cmd; /* Every target has its own synchronous transfer setting, kept in the * sync_xfer array, and a corresponding status byte in sync_stat[]. * Each target's sync_stat[] entry is initialized to SX_UNSET, and its * sync_xfer[] entry is initialized to the default/safe value. SS_UNSET * means that the parameters are undetermined as yet, and that we * need to send an SDTR message to this device after selection is * complete: We set SS_FIRST to tell the interrupt routine to do so. * If we've been asked not to try synchronous transfers on this * target (and _all_ luns within it), we'll still send the SDTR message * later, but at that time we'll negotiate for async by specifying a * sync fifo depth of 0. */ if (hostdata->sync_stat[cmd->target] == SS_UNSET) hostdata->sync_stat[cmd->target] = SS_FIRST; hostdata->state = S_SELECTING; write_wd33c93_count(regp,0); /* guarantee a DATA_PHASE interrupt */ write_wd33c93_cmd(regp, WD_CMD_SEL_ATN); } else { /* * Do a 'Select-With-ATN-Xfer' command. This will end with * one of the following interrupts: * CSR_RESEL_AM: failure - can try again later. * CSR_TIMEOUT: failure - give up. * anything else: success - proceed. */ hostdata->connected = cmd; write_wd33c93(regp, WD_COMMAND_PHASE, 0); /* copy command_descriptor_block into WD chip * (take advantage of auto-incrementing) */ regp->SASR = WD_CDB_1; for (i=0; i<cmd->cmd_len; i++) regp->SCMD = cmd->cmnd[i]; /* The wd33c93 only knows about Group 0, 1, and 5 commands when * it's doing a 'select-and-transfer'. To be safe, we write the * size of the CDB into the OWN_ID register for every case. This * way there won't be problems with vendor-unique, audio, etc. */ write_wd33c93(regp, WD_OWN_ID, cmd->cmd_len); /* When doing a non-disconnect command with DMA, we can save * ourselves a DATA phase interrupt later by setting everything * up ahead of time. */ if ((cmd->SCp.phase == 0) && (hostdata->no_dma == 0)) { if (hostdata->dma_setup(cmd, (is_dir_out(cmd))?DATA_OUT_DIR:DATA_IN_DIR)) write_wd33c93_count(regp,0); /* guarantee a DATA_PHASE interrupt */ else { write_wd33c93_count(regp, cmd->SCp.this_residual); write_wd33c93(regp,WD_CONTROL, CTRL_IDI | CTRL_EDI | CTRL_DMA); hostdata->dma = D_DMA_RUNNING; } } else write_wd33c93_count(regp,0); /* guarantee a DATA_PHASE interrupt */ hostdata->state = S_RUNNING_LEVEL2; write_wd33c93_cmd(regp, WD_CMD_SEL_ATN_XFER); } /* * Since the SCSI bus can handle only 1 connection at a time, * we get out of here now. If the selection fails, or when * the command disconnects, we'll come back to this routine * to search the input_Q again... */ DB(DB_EXECUTE,printk("%s%ld)EX-2 ",(cmd->SCp.phase)?"d:":"",cmd->pid)) } static void transfer_pio(wd33c93_regs *regp, uchar *buf, int cnt, int data_in_dir, struct WD33C93_hostdata *hostdata) { uchar asr; DB(DB_TRANSFER,printk("(%p,%d,%s:",buf,cnt,data_in_dir?"in":"out")) write_wd33c93(regp, WD_CONTROL, CTRL_IDI | CTRL_EDI | CTRL_POLLED); write_wd33c93_count(regp,cnt); write_wd33c93_cmd(regp, WD_CMD_TRANS_INFO); if (data_in_dir) { do { asr = READ_AUX_STAT(); if (asr & ASR_DBR) *buf++ = read_wd33c93(regp, WD_DATA); } while (!(asr & ASR_INT)); } else { do { asr = READ_AUX_STAT(); if (asr & ASR_DBR) write_wd33c93(regp, WD_DATA, *buf++); } while (!(asr & ASR_INT)); } /* Note: we are returning with the interrupt UN-cleared. * Since (presumably) an entire I/O operation has * completed, the bus phase is probably different, and * the interrupt routine will discover this when it * responds to the uncleared int. */ } static void transfer_bytes(wd33c93_regs *regp, Scsi_Cmnd *cmd, int data_in_dir) { struct WD33C93_hostdata *hostdata; unsigned long length; hostdata = (struct WD33C93_hostdata *)cmd->host->hostdata; /* Normally, you'd expect 'this_residual' to be non-zero here. * In a series of scatter-gather transfers, however, this * routine will usually be called with 'this_residual' equal * to 0 and 'buffers_residual' non-zero. This means that a * previous transfer completed, clearing 'this_residual', and * now we need to setup the next scatter-gather buffer as the * source or destination for THIS transfer. */ if (!cmd->SCp.this_residual && cmd->SCp.buffers_residual) { ++cmd->SCp.buffer; --cmd->SCp.buffers_residual; cmd->SCp.this_residual = cmd->SCp.buffer->length; cmd->SCp.ptr = cmd->SCp.buffer->address; } write_wd33c93(regp,WD_SYNCHRONOUS_TRANSFER,hostdata->sync_xfer[cmd->target]); /* 'hostdata->no_dma' is TRUE if we don't even want to try DMA. * Update 'this_residual' and 'ptr' after 'transfer_pio()' returns. */ if (hostdata->no_dma) goto use_transfer_pio; /* 'dma_setup()' will return TRUE if we can't do DMA. * Update 'this_residual' and 'ptr' after 'transfer_pio()' returns. */ else if (hostdata->dma_setup(cmd, data_in_dir)) { use_transfer_pio: #ifdef PROC_STATISTICS hostdata->pio_cnt++; #endif transfer_pio(regp, (uchar *)cmd->SCp.ptr, cmd->SCp.this_residual, data_in_dir, hostdata); length = cmd->SCp.this_residual; cmd->SCp.this_residual = read_wd33c93_count(regp); cmd->SCp.ptr += (length - cmd->SCp.this_residual); } /* We are able to do DMA (in fact, the Amiga hardware is * already going!), so start up the wd33c93 in DMA mode. * We set 'hostdata->dma' = D_DMA_RUNNING so that when the * transfer completes and causes an interrupt, we're * reminded to tell the Amiga to shut down its end. We'll * postpone the updating of 'this_residual' and 'ptr' * until then. */ else { #ifdef PROC_STATISTICS hostdata->dma_cnt++; #endif write_wd33c93(regp, WD_CONTROL, CTRL_IDI | CTRL_EDI | CTRL_DMA); write_wd33c93_count(regp,cmd->SCp.this_residual); if ((hostdata->level2 >= L2_DATA) || (hostdata->level2 == L2_BASIC && cmd->SCp.phase == 0)) { write_wd33c93(regp, WD_COMMAND_PHASE, 0x45); write_wd33c93_cmd(regp, WD_CMD_SEL_ATN_XFER); hostdata->state = S_RUNNING_LEVEL2; } else write_wd33c93_cmd(regp, WD_CMD_TRANS_INFO); hostdata->dma = D_DMA_RUNNING; } } void wd33c93_intr (struct Scsi_Host *instance) { struct WD33C93_hostdata *hostdata; Scsi_Cmnd *patch, *cmd; wd33c93_regs *regp; uchar asr, sr, phs, id, lun, *ucp, msg; unsigned long length, flags; hostdata = (struct WD33C93_hostdata *)instance->hostdata; regp = hostdata->regp; asr = READ_AUX_STAT(); if (!(asr & ASR_INT) || (asr & ASR_BSY)) return; save_flags(flags); #ifdef PROC_STATISTICS hostdata->int_cnt++; #endif cmd = (Scsi_Cmnd *)hostdata->connected; /* assume we're connected */ sr = read_wd33c93(regp, WD_SCSI_STATUS); /* clear the interrupt */ phs = read_wd33c93(regp, WD_COMMAND_PHASE); DB(DB_INTR,printk("{%02x:%02x-",asr,sr)) /* After starting a DMA transfer, the next interrupt * is guaranteed to be in response to completion of * the transfer. Since the Amiga DMA hardware runs in * in an open-ended fashion, it needs to be told when * to stop; do that here if D_DMA_RUNNING is true. * Also, we have to update 'this_residual' and 'ptr' * based on the contents of the TRANSFER_COUNT register, * in case the device decided to do an intermediate * disconnect (a device may do this if it has to do a * seek, or just to be nice and let other devices have * some bus time during long transfers). After doing * whatever is needed, we go on and service the WD3393 * interrupt normally. */ if (hostdata->dma == D_DMA_RUNNING) { DB(DB_TRANSFER,printk("[%p/%d:",cmd->SCp.ptr,cmd->SCp.this_residual)) hostdata->dma_stop(cmd->host, cmd, 1); hostdata->dma = D_DMA_OFF; length = cmd->SCp.this_residual; cmd->SCp.this_residual = read_wd33c93_count(regp); cmd->SCp.ptr += (length - cmd->SCp.this_residual); DB(DB_TRANSFER,printk("%p/%d]",cmd->SCp.ptr,cmd->SCp.this_residual)) } /* Respond to the specific WD3393 interrupt - there are quite a few! */ switch (sr) { case CSR_TIMEOUT: DB(DB_INTR,printk("TIMEOUT")) if (hostdata->state == S_RUNNING_LEVEL2) hostdata->connected = NULL; else { cmd = (Scsi_Cmnd *)hostdata->selecting; /* get a valid cmd */ hostdata->selecting = NULL; } cmd->result = DID_NO_CONNECT << 16; hostdata->busy[cmd->target] &= ~(1 << cmd->lun); hostdata->state = S_UNCONNECTED; cmd->scsi_done(cmd); /* From esp.c: * There is a window of time within the scsi_done() path * of execution where interrupts are turned back on full * blast and left that way. During that time we could * reconnect to a disconnected command, then we'd bomb * out below. We could also end up executing two commands * at _once_. ...just so you know why the restore_flags() * is here... */ restore_flags(flags); /* We are not connected to a target - check to see if there * are commands waiting to be executed. */ wd33c93_execute(instance); break; /* Note: this interrupt should not occur in a LEVEL2 command */ case CSR_SELECT: DB(DB_INTR,printk("SELECT")) hostdata->connected = cmd = (Scsi_Cmnd *)hostdata->selecting; hostdata->selecting = NULL; /* construct an IDENTIFY message with correct disconnect bit */ hostdata->outgoing_msg[0] = (0x80 | 0x00 | cmd->lun); if (cmd->SCp.phase) hostdata->outgoing_msg[0] |= 0x40; if (hostdata->sync_stat[cmd->target] == SS_FIRST) { #ifdef SYNC_DEBUG printk(" sending SDTR "); #endif hostdata->sync_stat[cmd->target] = SS_WAITING; /* Tack on a 2nd message to ask about synchronous transfers. If we've * been asked to do only asynchronous transfers on this device, we * request a fifo depth of 0, which is equivalent to async - should * solve the problems some people have had with GVP's Guru ROM. */ hostdata->outgoing_msg[1] = EXTENDED_MESSAGE; hostdata->outgoing_msg[2] = 3; hostdata->outgoing_msg[3] = EXTENDED_SDTR; if (hostdata->no_sync & (1 << cmd->target)) { hostdata->outgoing_msg[4] = hostdata->default_sx_per/4; hostdata->outgoing_msg[5] = 0; } else { hostdata->outgoing_msg[4] = OPTIMUM_SX_PER/4; hostdata->outgoing_msg[5] = OPTIMUM_SX_OFF; } hostdata->outgoing_len = 6; } else hostdata->outgoing_len = 1; hostdata->state = S_CONNECTED; break; case CSR_XFER_DONE|PHS_DATA_IN: case CSR_UNEXP |PHS_DATA_IN: case CSR_SRV_REQ |PHS_DATA_IN: DB(DB_INTR,printk("IN-%d.%d",cmd->SCp.this_residual,cmd->SCp.buffers_residual)) transfer_bytes(regp, cmd, DATA_IN_DIR); if (hostdata->state != S_RUNNING_LEVEL2) hostdata->state = S_CONNECTED; break; case CSR_XFER_DONE|PHS_DATA_OUT: case CSR_UNEXP |PHS_DATA_OUT: case CSR_SRV_REQ |PHS_DATA_OUT: DB(DB_INTR,printk("OUT-%d.%d",cmd->SCp.this_residual,cmd->SCp.buffers_residual)) transfer_bytes(regp, cmd, DATA_OUT_DIR); if (hostdata->state != S_RUNNING_LEVEL2) hostdata->state = S_CONNECTED; break; /* Note: this interrupt should not occur in a LEVEL2 command */ case CSR_XFER_DONE|PHS_COMMAND: case CSR_UNEXP |PHS_COMMAND: case CSR_SRV_REQ |PHS_COMMAND: DB(DB_INTR,printk("CMND-%02x,%ld",cmd->cmnd[0],cmd->pid)) transfer_pio(regp, cmd->cmnd, cmd->cmd_len, DATA_OUT_DIR, hostdata); hostdata->state = S_CONNECTED; break; case CSR_XFER_DONE|PHS_STATUS: case CSR_UNEXP |PHS_STATUS: case CSR_SRV_REQ |PHS_STATUS: DB(DB_INTR,printk("STATUS=")) cmd->SCp.Status = read_1_byte(regp); DB(DB_INTR,printk("%02x",cmd->SCp.Status)) if (hostdata->level2 >= L2_BASIC) { sr = read_wd33c93(regp, WD_SCSI_STATUS); /* clear interrupt */ hostdata->state = S_RUNNING_LEVEL2; write_wd33c93(regp, WD_COMMAND_PHASE, 0x50); write_wd33c93_cmd(regp, WD_CMD_SEL_ATN_XFER); } else { hostdata->state = S_CONNECTED; } break; case CSR_XFER_DONE|PHS_MESS_IN: case CSR_UNEXP |PHS_MESS_IN: case CSR_SRV_REQ |PHS_MESS_IN: DB(DB_INTR,printk("MSG_IN=")) msg = read_1_byte(regp); sr = read_wd33c93(regp, WD_SCSI_STATUS); /* clear interrupt */ hostdata->incoming_msg[hostdata->incoming_ptr] = msg; if (hostdata->incoming_msg[0] == EXTENDED_MESSAGE) msg = EXTENDED_MESSAGE; else hostdata->incoming_ptr = 0; cmd->SCp.Message = msg; switch (msg) { case COMMAND_COMPLETE: DB(DB_INTR,printk("CCMP-%ld",cmd->pid)) write_wd33c93_cmd(regp,WD_CMD_NEGATE_ACK); hostdata->state = S_PRE_CMP_DISC; break; case SAVE_POINTERS: DB(DB_INTR,printk("SDP")) write_wd33c93_cmd(regp,WD_CMD_NEGATE_ACK); hostdata->state = S_CONNECTED; break; case RESTORE_POINTERS: DB(DB_INTR,printk("RDP")) if (hostdata->level2 >= L2_BASIC) { write_wd33c93(regp, WD_COMMAND_PHASE, 0x45); write_wd33c93_cmd(regp, WD_CMD_SEL_ATN_XFER); hostdata->state = S_RUNNING_LEVEL2; } else { write_wd33c93_cmd(regp, WD_CMD_NEGATE_ACK); hostdata->state = S_CONNECTED; } break; case DISCONNECT: DB(DB_INTR,printk("DIS")) cmd->device->disconnect = 1; write_wd33c93_cmd(regp,WD_CMD_NEGATE_ACK); hostdata->state = S_PRE_TMP_DISC; break; case MESSAGE_REJECT: DB(DB_INTR,printk("REJ")) #ifdef SYNC_DEBUG printk("-REJ-"); #endif if (hostdata->sync_stat[cmd->target] == SS_WAITING) hostdata->sync_stat[cmd->target] = SS_SET; write_wd33c93_cmd(regp,WD_CMD_NEGATE_ACK); hostdata->state = S_CONNECTED; break; case EXTENDED_MESSAGE: DB(DB_INTR,printk("EXT")) ucp = hostdata->incoming_msg; #ifdef SYNC_DEBUG printk("%02x",ucp[hostdata->incoming_ptr]); #endif /* Is this the last byte of the extended message? */ if ((hostdata->incoming_ptr >= 2) && (hostdata->incoming_ptr == (ucp[1] + 1))) { switch (ucp[2]) { /* what's the EXTENDED code? */ case EXTENDED_SDTR: id = calc_sync_xfer(ucp[3],ucp[4]); if (hostdata->sync_stat[cmd->target] != SS_WAITING) { /* A device has sent an unsolicited SDTR message; rather than go * through the effort of decoding it and then figuring out what * our reply should be, we're just gonna say that we have a * synchronous fifo depth of 0. This will result in asynchronous * transfers - not ideal but so much easier. * Actually, this is OK because it assures us that if we don't * specifically ask for sync transfers, we won't do any. */ write_wd33c93_cmd(regp,WD_CMD_ASSERT_ATN); /* want MESS_OUT */ hostdata->outgoing_msg[0] = EXTENDED_MESSAGE; hostdata->outgoing_msg[1] = 3; hostdata->outgoing_msg[2] = EXTENDED_SDTR; hostdata->outgoing_msg[3] = hostdata->default_sx_per/4; hostdata->outgoing_msg[4] = 0; hostdata->outgoing_len = 5; hostdata->sync_xfer[cmd->target] = calc_sync_xfer(hostdata->default_sx_per/4,0); } else { hostdata->sync_xfer[cmd->target] = id; } #ifdef SYNC_DEBUG printk("sync_xfer=%02x",hostdata->sync_xfer[cmd->target]); #endif hostdata->sync_stat[cmd->target] = SS_SET; write_wd33c93_cmd(regp,WD_CMD_NEGATE_ACK); hostdata->state = S_CONNECTED; break; case EXTENDED_WDTR: write_wd33c93_cmd(regp,WD_CMD_ASSERT_ATN); /* want MESS_OUT */ printk("sending WDTR "); hostdata->outgoing_msg[0] = EXTENDED_MESSAGE; hostdata->outgoing_msg[1] = 2; hostdata->outgoing_msg[2] = EXTENDED_WDTR; hostdata->outgoing_msg[3] = 0; /* 8 bit transfer width */ hostdata->outgoing_len = 4; write_wd33c93_cmd(regp,WD_CMD_NEGATE_ACK); hostdata->state = S_CONNECTED; break; default: write_wd33c93_cmd(regp,WD_CMD_ASSERT_ATN); /* want MESS_OUT */ printk("Rejecting Unknown Extended Message(%02x). ",ucp[2]); hostdata->outgoing_msg[0] = MESSAGE_REJECT; hostdata->outgoing_len = 1; write_wd33c93_cmd(regp,WD_CMD_NEGATE_ACK); hostdata->state = S_CONNECTED; break; } hostdata->incoming_ptr = 0; } /* We need to read more MESS_IN bytes for the extended message */ else { hostdata->incoming_ptr++; write_wd33c93_cmd(regp,WD_CMD_NEGATE_ACK); hostdata->state = S_CONNECTED; } break; default: printk("Rejecting Unknown Message(%02x) ",msg); write_wd33c93_cmd(regp,WD_CMD_ASSERT_ATN); /* want MESS_OUT */ hostdata->outgoing_msg[0] = MESSAGE_REJECT; hostdata->outgoing_len = 1; write_wd33c93_cmd(regp,WD_CMD_NEGATE_ACK); hostdata->state = S_CONNECTED; } restore_flags(flags); break; /* Note: this interrupt will occur only after a LEVEL2 command */ case CSR_SEL_XFER_DONE: /* Make sure that reselection is enabled at this point - it may * have been turned off for the command that just completed. */ write_wd33c93(regp,WD_SOURCE_ID, SRCID_ER); if (phs == 0x60) { DB(DB_INTR,printk("SX-DONE-%ld",cmd->pid)) cmd->SCp.Message = COMMAND_COMPLETE; lun = read_wd33c93(regp, WD_TARGET_LUN); DB(DB_INTR,printk(":%d.%d",cmd->SCp.Status,lun)) hostdata->connected = NULL; hostdata->busy[cmd->target] &= ~(1 << cmd->lun); hostdata->state = S_UNCONNECTED; if (cmd->SCp.Status == ILLEGAL_STATUS_BYTE) cmd->SCp.Status = lun; if (cmd->cmnd[0] == REQUEST_SENSE && cmd->SCp.Status != GOOD) cmd->result = (cmd->result & 0x00ffff) | (DID_ERROR << 16); else cmd->result = cmd->SCp.Status | (cmd->SCp.Message << 8); cmd->scsi_done(cmd); /* We are no longer connected to a target - check to see if * there are commands waiting to be executed. */ restore_flags(flags); wd33c93_execute(instance); } else { printk("%02x:%02x:%02x-%ld: Unknown SEL_XFER_DONE phase!!---",asr,sr,phs,cmd->pid); } break; /* Note: this interrupt will occur only after a LEVEL2 command */ case CSR_SDP: DB(DB_INTR,printk("SDP")) hostdata->state = S_RUNNING_LEVEL2; write_wd33c93(regp, WD_COMMAND_PHASE, 0x41); write_wd33c93_cmd(regp, WD_CMD_SEL_ATN_XFER); break; case CSR_XFER_DONE|PHS_MESS_OUT: case CSR_UNEXP |PHS_MESS_OUT: case CSR_SRV_REQ |PHS_MESS_OUT: DB(DB_INTR,printk("MSG_OUT=")) /* To get here, we've probably requested MESSAGE_OUT and have * already put the correct bytes in outgoing_msg[] and filled * in outgoing_len. We simply send them out to the SCSI bus. * Sometimes we get MESSAGE_OUT phase when we're not expecting * it - like when our SDTR message is rejected by a target. Some * targets send the REJECT before receiving all of the extended * message, and then seem to go back to MESSAGE_OUT for a byte * or two. Not sure why, or if I'm doing something wrong to * cause this to happen. Regardless, it seems that sending * NOP messages in these situations results in no harm and * makes everyone happy. */ if (hostdata->outgoing_len == 0) { hostdata->outgoing_len = 1; hostdata->outgoing_msg[0] = NOP; } transfer_pio(regp, hostdata->outgoing_msg, hostdata->outgoing_len, DATA_OUT_DIR, hostdata); DB(DB_INTR,printk("%02x",hostdata->outgoing_msg[0])) hostdata->outgoing_len = 0; hostdata->state = S_CONNECTED; break; case CSR_UNEXP_DISC: /* I think I've seen this after a request-sense that was in response * to an error condition, but not sure. We certainly need to do * something when we get this interrupt - the question is 'what?'. * Let's think positively, and assume some command has finished * in a legal manner (like a command that provokes a request-sense), * so we treat it as a normal command-complete-disconnect. */ /* Make sure that reselection is enabled at this point - it may * have been turned off for the command that just completed. */ write_wd33c93(regp,WD_SOURCE_ID, SRCID_ER); if (cmd == NULL) { printk(" - Already disconnected! "); hostdata->state = S_UNCONNECTED; return; } DB(DB_INTR,printk("UNEXP_DISC-%ld",cmd->pid)) hostdata->connected = NULL; hostdata->busy[cmd->target] &= ~(1 << cmd->lun); hostdata->state = S_UNCONNECTED; if (cmd->cmnd[0] == REQUEST_SENSE && cmd->SCp.Status != GOOD) cmd->result = (cmd->result & 0x00ffff) | (DID_ERROR << 16); else cmd->result = cmd->SCp.Status | (cmd->SCp.Message << 8); cmd->scsi_done(cmd); /* We are no longer connected to a target - check to see if * there are commands waiting to be executed. */ /* look above for comments on scsi_done() */ restore_flags(flags); wd33c93_execute(instance); break; case CSR_DISC: /* Make sure that reselection is enabled at this point - it may * have been turned off for the command that just completed. */ write_wd33c93(regp,WD_SOURCE_ID, SRCID_ER); DB(DB_INTR,printk("DISC-%ld",cmd->pid)) if (cmd == NULL) { printk(" - Already disconnected! "); hostdata->state = S_UNCONNECTED; } switch (hostdata->state) { case S_PRE_CMP_DISC: hostdata->connected = NULL; hostdata->busy[cmd->target] &= ~(1 << cmd->lun); hostdata->state = S_UNCONNECTED; DB(DB_INTR,printk(":%d",cmd->SCp.Status)) if (cmd->cmnd[0] == REQUEST_SENSE && cmd->SCp.Status != GOOD) cmd->result = (cmd->result & 0x00ffff) | (DID_ERROR << 16); else cmd->result = cmd->SCp.Status | (cmd->SCp.Message << 8); cmd->scsi_done(cmd); restore_flags(flags); break; case S_PRE_TMP_DISC: case S_RUNNING_LEVEL2: cmd->host_scribble = (uchar *)hostdata->disconnected_Q; hostdata->disconnected_Q = cmd; hostdata->connected = NULL; hostdata->state = S_UNCONNECTED; #ifdef PROC_STATISTICS hostdata->disc_done_cnt[cmd->target]++; #endif break; default: printk("*** Unexpected DISCONNECT interrupt! ***"); hostdata->state = S_UNCONNECTED; } /* We are no longer connected to a target - check to see if * there are commands waiting to be executed. */ wd33c93_execute(instance); break; case CSR_RESEL_AM: DB(DB_INTR,printk("RESEL")) /* First we have to make sure this reselection didn't */ /* happen during Arbitration/Selection of some other device. */ /* If yes, put losing command back on top of input_Q. */ if (hostdata->level2 <= L2_NONE) { if (hostdata->selecting) { cmd = (Scsi_Cmnd *)hostdata->selecting; hostdata->selecting = NULL; hostdata->busy[cmd->target] &= ~(1 << cmd->lun); cmd->host_scribble = (uchar *)hostdata->input_Q; hostdata->input_Q = cmd; } } else { if (cmd) { if (phs == 0x00) { hostdata->busy[cmd->target] &= ~(1 << cmd->lun); cmd->host_scribble = (uchar *)hostdata->input_Q; hostdata->input_Q = cmd; } else { printk("---%02x:%02x:%02x-TROUBLE: Intrusive ReSelect!---",asr,sr,phs); while (1) printk("\r"); } } } /* OK - find out which device reselected us. */ id = read_wd33c93(regp, WD_SOURCE_ID); id &= SRCID_MASK; /* and extract the lun from the ID message. (Note that we don't * bother to check for a valid message here - I guess this is * not the right way to go, but...) */ lun = read_wd33c93(regp, WD_DATA); if (hostdata->level2 < L2_RESELECT) write_wd33c93_cmd(regp,WD_CMD_NEGATE_ACK); lun &= 7; /* Now we look for the command that's reconnecting. */ cmd = (Scsi_Cmnd *)hostdata->disconnected_Q; patch = NULL; while (cmd) { if (id == cmd->target && lun == cmd->lun) break; patch = cmd; cmd = (Scsi_Cmnd *)cmd->host_scribble; } /* Hmm. Couldn't find a valid command.... What to do? */ if (!cmd) { printk("---TROUBLE: target %d.%d not in disconnect queue---",id,lun); return; } /* Ok, found the command - now start it up again. */ if (patch) patch->host_scribble = cmd->host_scribble; else hostdata->disconnected_Q = (Scsi_Cmnd *)cmd->host_scribble; hostdata->connected = cmd; /* We don't need to worry about 'initialize_SCp()' or 'hostdata->busy[]' * because these things are preserved over a disconnect. * But we DO need to fix the DPD bit so it's correct for this command. */ if (is_dir_out(cmd)) write_wd33c93(regp, WD_DESTINATION_ID, cmd->target); else write_wd33c93(regp, WD_DESTINATION_ID, cmd->target | DSTID_DPD); if (hostdata->level2 >= L2_RESELECT) { write_wd33c93_count(regp, 0); /* we want a DATA_PHASE interrupt */ write_wd33c93(regp, WD_COMMAND_PHASE, 0x45); write_wd33c93_cmd(regp, WD_CMD_SEL_ATN_XFER); hostdata->state = S_RUNNING_LEVEL2; } else hostdata->state = S_CONNECTED; DB(DB_INTR,printk("-%ld",cmd->pid)) break; default: printk("--UNKNOWN INTERRUPT:%02x:%02x:%02x--",asr,sr,phs); } DB(DB_INTR,printk("} ")) } static void reset_wd33c93(struct Scsi_Host *instance) { struct WD33C93_hostdata *hostdata; wd33c93_regs *regp; uchar sr; hostdata = (struct WD33C93_hostdata *)instance->hostdata; regp = hostdata->regp; write_wd33c93(regp, WD_OWN_ID, OWNID_EAF | OWNID_RAF | instance->this_id | hostdata->clock_freq); write_wd33c93(regp, WD_CONTROL, CTRL_IDI | CTRL_EDI | CTRL_POLLED); write_wd33c93(regp, WD_SYNCHRONOUS_TRANSFER, calc_sync_xfer(hostdata->default_sx_per/4,DEFAULT_SX_OFF)); write_wd33c93(regp, WD_COMMAND, WD_CMD_RESET); while (!(READ_AUX_STAT() & ASR_INT)) ; sr = read_wd33c93(regp, WD_SCSI_STATUS); hostdata->microcode = read_wd33c93(regp, WD_CDB_1); if (sr == 0x00) hostdata->chip = C_WD33C93; else if (sr == 0x01) { write_wd33c93(regp, WD_QUEUE_TAG, 0xa5); /* any random number */ sr = read_wd33c93(regp, WD_QUEUE_TAG); if (sr == 0xa5) { hostdata->chip = C_WD33C93B; write_wd33c93(regp, WD_QUEUE_TAG, 0); } else hostdata->chip = C_WD33C93A; } else hostdata->chip = C_UNKNOWN_CHIP; write_wd33c93(regp, WD_TIMEOUT_PERIOD, TIMEOUT_PERIOD_VALUE); write_wd33c93(regp, WD_CONTROL, CTRL_IDI | CTRL_EDI | CTRL_POLLED); } int wd33c93_reset(Scsi_Cmnd *SCpnt, unsigned int reset_flags) { struct Scsi_Host *instance; struct WD33C93_hostdata *hostdata; int i; instance = SCpnt->host; hostdata = (struct WD33C93_hostdata *)instance->hostdata; printk("scsi%d: reset. ", instance->host_no); disable_irq(instance->irq); ((struct WD33C93_hostdata *)instance->hostdata)->dma_stop(instance,NULL,0); for (i = 0; i < 8; i++) { hostdata->busy[i] = 0; hostdata->sync_xfer[i] = calc_sync_xfer(DEFAULT_SX_PER/4,DEFAULT_SX_OFF); hostdata->sync_stat[i] = SS_UNSET; /* using default sync values */ } hostdata->input_Q = NULL; hostdata->selecting = NULL; hostdata->connected = NULL; hostdata->disconnected_Q = NULL; hostdata->state = S_UNCONNECTED; hostdata->dma = D_DMA_OFF; hostdata->incoming_ptr = 0; hostdata->outgoing_len = 0; reset_wd33c93(instance); SCpnt->result = DID_RESET << 16; enable_irq(instance->irq); return 0; } int wd33c93_abort (Scsi_Cmnd *cmd) { struct Scsi_Host *instance; struct WD33C93_hostdata *hostdata; wd33c93_regs *regp; Scsi_Cmnd *tmp, *prev; disable_irq(cmd->host->irq); instance = cmd->host; hostdata = (struct WD33C93_hostdata *)instance->hostdata; regp = hostdata->regp; /* * Case 1 : If the command hasn't been issued yet, we simply remove it * from the input_Q. */ tmp = (Scsi_Cmnd *)hostdata->input_Q; prev = 0; while (tmp) { if (tmp == cmd) { if (prev) prev->host_scribble = cmd->host_scribble; else hostdata->input_Q = (Scsi_Cmnd *)cmd->host_scribble; cmd->host_scribble = NULL; cmd->result = DID_ABORT << 16; printk("scsi%d: Abort - removing command %ld from input_Q. ", instance->host_no, cmd->pid); enable_irq(cmd->host->irq); cmd->scsi_done(cmd); return SCSI_ABORT_SUCCESS; } prev = tmp; tmp = (Scsi_Cmnd *)tmp->host_scribble; } /* * Case 2 : If the command is connected, we're going to fail the abort * and let the high level SCSI driver retry at a later time or * issue a reset. * * Timeouts, and therefore aborted commands, will be highly unlikely * and handling them cleanly in this situation would make the common * case of noresets less efficient, and would pollute our code. So, * we fail. */ if (hostdata->connected == cmd) { uchar sr, asr; unsigned long timeout; printk("scsi%d: Aborting connected command %ld - ", instance->host_no, cmd->pid); printk("stopping DMA - "); if (hostdata->dma == D_DMA_RUNNING) { hostdata->dma_stop(instance, cmd, 0); hostdata->dma = D_DMA_OFF; } printk("sending wd33c93 ABORT command - "); write_wd33c93(regp, WD_CONTROL, CTRL_IDI | CTRL_EDI | CTRL_POLLED); write_wd33c93_cmd(regp, WD_CMD_ABORT); /* Now we have to attempt to flush out the FIFO... */ printk("flushing fifo - "); timeout = 1000000; do { asr = READ_AUX_STAT(); if (asr & ASR_DBR) read_wd33c93(regp, WD_DATA); } while (!(asr & ASR_INT) && timeout-- > 0); sr = read_wd33c93(regp, WD_SCSI_STATUS); printk("asr=%02x, sr=%02x, %ld bytes un-transferred (timeout=%ld) - ", asr, sr, read_wd33c93_count(regp), timeout); /* * Abort command processed. * Still connected. * We must disconnect. */ printk("sending wd33c93 DISCONNECT command - "); write_wd33c93_cmd(regp, WD_CMD_DISCONNECT); timeout = 1000000; asr = READ_AUX_STAT(); while ((asr & ASR_CIP) && timeout-- > 0) asr = READ_AUX_STAT(); sr = read_wd33c93(regp, WD_SCSI_STATUS); printk("asr=%02x, sr=%02x.",asr,sr); hostdata->busy[cmd->target] &= ~(1 << cmd->lun); hostdata->connected = NULL; hostdata->state = S_UNCONNECTED; cmd->result = DID_ABORT << 16; /* sti();*/ wd33c93_execute (instance); enable_irq(cmd->host->irq); cmd->scsi_done(cmd); return SCSI_ABORT_SUCCESS; } /* * Case 3: If the command is currently disconnected from the bus, * we're not going to expend much effort here: Let's just return * an ABORT_SNOOZE and hope for the best... */ tmp = (Scsi_Cmnd *)hostdata->disconnected_Q; while (tmp) { if (tmp == cmd) { printk("scsi%d: Abort - command %ld found on disconnected_Q - ", instance->host_no, cmd->pid); printk("returning ABORT_SNOOZE. "); enable_irq(cmd->host->irq); return SCSI_ABORT_SNOOZE; } tmp = (Scsi_Cmnd *)tmp->host_scribble; } /* * Case 4 : If we reached this point, the command was not found in any of * the queues. * * We probably reached this point because of an unlikely race condition * between the command completing successfully and the abortion code, * so we won't panic, but we will notify the user in case something really * broke. */ /* sti();*/ wd33c93_execute (instance); enable_irq(cmd->host->irq); printk("scsi%d: warning : SCSI command probably completed successfully" " before abortion. ", instance->host_no); return SCSI_ABORT_NOT_RUNNING; } #define MAX_WD33C93_HOSTS 4 #define MAX_SETUP_ARGS ((int)(sizeof(setup_args) / sizeof(char *))) #define SETUP_BUFFER_SIZE 200 static char setup_buffer[SETUP_BUFFER_SIZE]; static char setup_used[MAX_SETUP_ARGS]; static int done_setup = 0; int wd33c93_setup (char *str) { int i; char *p1,*p2; /* The kernel does some processing of the command-line before calling * this function: If it begins with any decimal or hex number arguments, * ints[0] = how many numbers found and ints[1] through [n] are the values * themselves. str points to where the non-numeric arguments (if any) * start: We do our own parsing of those. We construct synthetic 'nosync' * keywords out of numeric args (to maintain compatibility with older * versions) and then add the rest of the arguments. */ p1 = setup_buffer; *p1 = '\0'; #if 0 /* * Old style command line arguments are now dead */ if (ints[0]) { for (i=0; i<ints[0]; i++) { x = vsprintf(p1,"nosync:0x%02x,",&(ints[i+1])); p1 += x; } } #endif if (str) strncpy(p1, str, SETUP_BUFFER_SIZE - strlen(setup_buffer)); setup_buffer[SETUP_BUFFER_SIZE - 1] = '\0'; p1 = setup_buffer; i = 0; while (*p1 && (i < MAX_SETUP_ARGS)) { p2 = strchr(p1, ','); if (p2) { *p2 = '\0'; if (p1 != p2) setup_args[i] = p1; p1 = p2 + 1; i++; } else { setup_args[i] = p1; break; } } for (i=0; i<MAX_SETUP_ARGS; i++) setup_used[i] = 0; done_setup = 1; return 0; } __setup("wd33c93", wd33c93_setup); /* check_setup_args() returns index if key found, 0 if not */ static int check_setup_args(char *key, int *flags, int *val, char *buf) { int x; char *cp; for (x=0; x<MAX_SETUP_ARGS; x++) { if (setup_used[x]) continue; if (!strncmp(setup_args[x], key, strlen(key))) break; if (!strncmp(setup_args[x], "next", strlen("next"))) return 0; } if (x == MAX_SETUP_ARGS) return 0; setup_used[x] = 1; cp = setup_args[x] + strlen(key); *val = -1; if (*cp != ':') return ++x; cp++; if ((*cp >= '0') && (*cp <= '9')) { *val = simple_strtoul(cp,NULL,0); } return ++x; } void wd33c93_init (struct Scsi_Host *instance, wd33c93_regs *regs, dma_setup_t setup, dma_stop_t stop, int clock_freq) { struct WD33C93_hostdata *hostdata; int i; int flags; int val; char buf[32]; if (!done_setup && setup_strings) wd33c93_setup(setup_strings); hostdata = (struct WD33C93_hostdata *)instance->hostdata; hostdata->regp = regs; hostdata->clock_freq = clock_freq; hostdata->dma_setup = setup; hostdata->dma_stop = stop; hostdata->dma_bounce_buffer = NULL; hostdata->dma_bounce_len = 0; for (i = 0; i < 8; i++) { hostdata->busy[i] = 0; hostdata->sync_xfer[i] = calc_sync_xfer(DEFAULT_SX_PER/4,DEFAULT_SX_OFF); hostdata->sync_stat[i] = SS_UNSET; /* using default sync values */ #ifdef PROC_STATISTICS hostdata->cmd_cnt[i] = 0; hostdata->disc_allowed_cnt[i] = 0; hostdata->disc_done_cnt[i] = 0; #endif } hostdata->input_Q = NULL; hostdata->selecting = NULL; hostdata->connected = NULL; hostdata->disconnected_Q = NULL; hostdata->state = S_UNCONNECTED; hostdata->dma = D_DMA_OFF; hostdata->level2 = L2_BASIC; hostdata->disconnect = DIS_ADAPTIVE; hostdata->args = DEBUG_DEFAULTS; hostdata->incoming_ptr = 0; hostdata->outgoing_len = 0; hostdata->default_sx_per = DEFAULT_SX_PER; hostdata->no_sync = 0xff; /* sync defaults to off */ hostdata->no_dma = 0; /* default is DMA enabled */ #ifdef PROC_INTERFACE hostdata->proc = PR_VERSION|PR_INFO|PR_STATISTICS| PR_CONNECTED|PR_INPUTQ|PR_DISCQ| PR_STOP; #ifdef PROC_STATISTICS hostdata->dma_cnt = 0; hostdata->pio_cnt = 0; hostdata->int_cnt = 0; #endif #endif if (check_setup_args("nosync",&flags,&val,buf)) hostdata->no_sync = val; if (check_setup_args("nodma",&flags,&val,buf)) hostdata->no_dma = (val == -1) ? 1 : val; if (check_setup_args("period",&flags,&val,buf)) hostdata->default_sx_per = sx_table[round_period((unsigned int)val)].period_ns; if (check_setup_args("disconnect",&flags,&val,buf)) { if ((val >= DIS_NEVER) && (val <= DIS_ALWAYS)) hostdata->disconnect = val; else hostdata->disconnect = DIS_ADAPTIVE; } if (check_setup_args("level2",&flags,&val,buf)) hostdata->level2 = val; if (check_setup_args("debug",&flags,&val,buf)) hostdata->args = val & DB_MASK; if (check_setup_args("clock",&flags,&val,buf)) { if (val>7 && val<11) val = WD33C93_FS_8_10; else if (val>11 && val<16) val = WD33C93_FS_12_15; else if (val>15 && val<21) val = WD33C93_FS_16_20; else val = WD33C93_FS_8_10; hostdata->clock_freq = val; } if ((i = check_setup_args("next",&flags,&val,buf))) { while (i) setup_used[--i] = 1; } #ifdef PROC_INTERFACE if (check_setup_args("proc",&flags,&val,buf)) hostdata->proc = val; #endif { unsigned long flags; save_flags(flags); cli(); reset_wd33c93(instance); restore_flags(flags); } printk("wd33c93-%d: chip=%s/%d no_sync=0x%x no_dma=%d",instance->host_no, (hostdata->chip==C_WD33C93)?"WD33c93": (hostdata->chip==C_WD33C93A)?"WD33c93A": (hostdata->chip==C_WD33C93B)?"WD33c93B":"unknown", hostdata->microcode,hostdata->no_sync,hostdata->no_dma); #ifdef DEBUGGING_ON printk(" debug_flags=0x%02x\n",hostdata->args); #else printk(" debugging=OFF\n"); #endif printk(" setup_args="); for (i=0; i<MAX_SETUP_ARGS; i++) printk("%s,",setup_args[i]); printk("\n"); printk(" Version %s - %s, Compiled %s at %s\n", WD33C93_VERSION,WD33C93_DATE,__DATE__,__TIME__); MOD_INC_USE_COUNT; } int wd33c93_proc_info(char *buf, char **start, off_t off, int len, int hn, int in) { #ifdef PROC_INTERFACE char *bp; char tbuf[128]; unsigned long flags; struct Scsi_Host *instance; struct WD33C93_hostdata *hd; Scsi_Cmnd *cmd; int x,i; static int stop = 0; for (instance=scsi_hostlist; instance; instance=instance->next) { if (instance->host_no == hn) break; } if (!instance) { printk("*** Hmm... Can't find host #%d!\n",hn); return (-ESRCH); } hd = (struct WD33C93_hostdata *)instance->hostdata; /* If 'in' is TRUE we need to _read_ the proc file. We accept the following * keywords (same format as command-line, but only ONE per read): * debug * disconnect * period * resync * proc * nodma */ if (in) { buf[len] = '\0'; bp = buf; if (!strncmp(bp,"debug:",6)) { bp += 6; hd->args = simple_strtoul(bp,NULL,0) & DB_MASK; } else if (!strncmp(bp,"disconnect:",11)) { bp += 11; x = simple_strtoul(bp,NULL,0); if (x < DIS_NEVER || x > DIS_ALWAYS) x = DIS_ADAPTIVE; hd->disconnect = x; } else if (!strncmp(bp,"period:",7)) { bp += 7; x = simple_strtoul(bp,NULL,0); hd->default_sx_per = sx_table[round_period((unsigned int)x)].period_ns; } else if (!strncmp(bp,"resync:",7)) { bp += 7; x = simple_strtoul(bp,NULL,0); for (i=0; i<7; i++) if (x & (1<<i)) hd->sync_stat[i] = SS_UNSET; } else if (!strncmp(bp,"proc:",5)) { bp += 5; hd->proc = simple_strtoul(bp,NULL,0); } else if (!strncmp(bp,"nodma:",6)) { bp += 6; hd->no_dma = simple_strtoul(bp,NULL,0); } else if (!strncmp(bp,"level2:",7)) { bp += 7; hd->level2 = simple_strtoul(bp,NULL,0); } return len; } save_flags(flags); cli(); bp = buf; *bp = '\0'; if (hd->proc & PR_VERSION) { sprintf(tbuf,"\nVersion %s - %s. Compiled %s %s", WD33C93_VERSION,WD33C93_DATE,__DATE__,__TIME__); strcat(bp,tbuf); } if (hd->proc & PR_INFO) { sprintf(tbuf,"\nclock_freq=%02x no_sync=%02x no_dma=%d", hd->clock_freq,hd->no_sync,hd->no_dma); strcat(bp,tbuf); strcat(bp,"\nsync_xfer[] = "); for (x=0; x<7; x++) { sprintf(tbuf,"\t%02x",hd->sync_xfer[x]); strcat(bp,tbuf); } strcat(bp,"\nsync_stat[] = "); for (x=0; x<7; x++) { sprintf(tbuf,"\t%02x",hd->sync_stat[x]); strcat(bp,tbuf); } } #ifdef PROC_STATISTICS if (hd->proc & PR_STATISTICS) { strcat(bp,"\ncommands issued: "); for (x=0; x<7; x++) { sprintf(tbuf,"\t%ld",hd->cmd_cnt[x]); strcat(bp,tbuf); } strcat(bp,"\ndisconnects allowed:"); for (x=0; x<7; x++) { sprintf(tbuf,"\t%ld",hd->disc_allowed_cnt[x]); strcat(bp,tbuf); } strcat(bp,"\ndisconnects done: "); for (x=0; x<7; x++) { sprintf(tbuf,"\t%ld",hd->disc_done_cnt[x]); strcat(bp,tbuf); } sprintf(tbuf,"\ninterrupts: %ld, DATA_PHASE ints: %ld DMA, %ld PIO", hd->int_cnt,hd->dma_cnt,hd->pio_cnt); strcat(bp,tbuf); } #endif if (hd->proc & PR_CONNECTED) { strcat(bp,"\nconnected: "); if (hd->connected) { cmd = (Scsi_Cmnd *)hd->connected; sprintf(tbuf," %ld-%d:%d(%02x)", cmd->pid, cmd->target, cmd->lun, cmd->cmnd[0]); strcat(bp,tbuf); } } if (hd->proc & PR_INPUTQ) { strcat(bp,"\ninput_Q: "); cmd = (Scsi_Cmnd *)hd->input_Q; while (cmd) { sprintf(tbuf," %ld-%d:%d(%02x)", cmd->pid, cmd->target, cmd->lun, cmd->cmnd[0]); strcat(bp,tbuf); cmd = (Scsi_Cmnd *)cmd->host_scribble; } } if (hd->proc & PR_DISCQ) { strcat(bp,"\ndisconnected_Q:"); cmd = (Scsi_Cmnd *)hd->disconnected_Q; while (cmd) { sprintf(tbuf," %ld-%d:%d(%02x)", cmd->pid, cmd->target, cmd->lun, cmd->cmnd[0]); strcat(bp,tbuf); cmd = (Scsi_Cmnd *)cmd->host_scribble; } } strcat(bp,"\n"); restore_flags(flags); *start = buf; if (stop) { stop = 0; return 0; } if (off > 0x40000) /* ALWAYS stop after 256k bytes have been read */ stop = 1;; if (hd->proc & PR_STOP) /* stop every other time */ stop = 1; return strlen(bp); #else /* PROC_INTERFACE */ return 0; #endif /* PROC_INTERFACE */ } #ifdef MODULE int init_module(void) { return 0; } void cleanup_module(void) {} void wd33c93_release(void) { MOD_DEC_USE_COUNT; } #endif |