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working real DMA * - Falcon support (untested yet!) ++bjoern fixed and now it works * - lots of extensions and bug fixes. * * This file is subject to the terms and conditions of the GNU General Public * License. See the file COPYING in the main directory of this archive * for more details. * */ /**************************************************************************/ /* */ /* Notes for Falcon SCSI: */ /* ---------------------- */ /* */ /* Since the Falcon SCSI uses the ST-DMA chip, that is shared among */ /* several device drivers, locking and unlocking the access to this */ /* chip is required. But locking is not possible from an interrupt, */ /* since it puts the process to sleep if the lock is not available. */ /* This prevents "late" locking of the DMA chip, i.e. locking it just */ /* before using it, since in case of disconnection-reconnection */ /* commands, the DMA is started from the reselection interrupt. */ /* */ /* Two possible schemes for ST-DMA-locking would be: */ /* 1) The lock is taken for each command separately and disconnecting */ /* is forbidden (i.e. can_queue = 1). */ /* 2) The DMA chip is locked when the first command comes in and */ /* released when the last command is finished and all queues are */ /* empty. */ /* The first alternative would result in bad performance, since the */ /* interleaving of commands would not be used. The second is unfair to */ /* other drivers using the ST-DMA, because the queues will seldom be */ /* totally empty if there is a lot of disk traffic. */ /* */ /* For this reasons I decided to employ a more elaborate scheme: */ /* - First, we give up the lock every time we can (for fairness), this */ /* means every time a command finishes and there are no other commands */ /* on the disconnected queue. */ /* - If there are others waiting to lock the DMA chip, we stop */ /* issuing commands, i.e. moving them onto the issue queue. */ /* Because of that, the disconnected queue will run empty in a */ /* while. Instead we go to sleep on a 'fairness_queue'. */ /* - If the lock is released, all processes waiting on the fairness */ /* queue will be woken. The first of them tries to re-lock the DMA, */ /* the others wait for the first to finish this task. After that, */ /* they can all run on and do their commands... */ /* This sounds complicated (and it is it :-(), but it seems to be a */ /* good compromise between fairness and performance: As long as no one */ /* else wants to work with the ST-DMA chip, SCSI can go along as */ /* usual. If now someone else comes, this behaviour is changed to a */ /* "fairness mode": just already initiated commands are finished and */ /* then the lock is released. The other one waiting will probably win */ /* the race for locking the DMA, since it was waiting for longer. And */ /* after it has finished, SCSI can go ahead again. Finally: I hope I */ /* have not produced any deadlock possibilities! */ /* */ /**************************************************************************/ #include <linux/config.h> #include <linux/module.h> #define NDEBUG (0) #define NDEBUG_ABORT 0x800000 #define NDEBUG_TAGS 0x1000000 #define NDEBUG_MERGING 0x2000000 #define AUTOSENSE /* For the Atari version, use only polled IO or REAL_DMA */ #define REAL_DMA /* Support tagged queuing? (on devices that are able to... :-) */ #define SUPPORT_TAGS #define MAX_TAGS 32 #include <linux/types.h> #include <linux/stddef.h> #include <linux/ctype.h> #include <linux/delay.h> #include <linux/mm.h> #include <linux/blk.h> #include <linux/sched.h> #include <linux/interrupt.h> #include <linux/init.h> #include <linux/nvram.h> #include <asm/setup.h> #include <asm/atarihw.h> #include <asm/atariints.h> #include <asm/page.h> #include <asm/pgtable.h> #include <asm/irq.h> #include <asm/traps.h> #include <asm/bitops.h> #include "scsi.h" #include "hosts.h" #include "atari_scsi.h" #include "NCR5380.h" #include "constants.h" #include <asm/atari_stdma.h> #include <asm/atari_stram.h> #include <asm/io.h> #include <linux/stat.h> struct proc_dir_entry proc_scsi_atari = { PROC_SCSI_ATARI, 5, "Atari", S_IFDIR | S_IRUGO | S_IXUGO, 2 }; #define IS_A_TT() ATARIHW_PRESENT(TT_SCSI) #define SCSI_DMA_WRITE_P(elt,val) \ do { \ unsigned long v = val; \ tt_scsi_dma.elt##_lo = v & 0xff; \ v >>= 8; \ tt_scsi_dma.elt##_lmd = v & 0xff; \ v >>= 8; \ tt_scsi_dma.elt##_hmd = v & 0xff; \ v >>= 8; \ tt_scsi_dma.elt##_hi = v & 0xff; \ } while(0) #define SCSI_DMA_READ_P(elt) \ (((unsigned long)tt_scsi_dma.elt##_hi << 24) | \ ((unsigned long)tt_scsi_dma.elt##_hmd << 16) | \ ((unsigned long)tt_scsi_dma.elt##_lmd << 8) | \ (unsigned long)tt_scsi_dma.elt##_lo) #define SCSI_DMA_SETADR(adr) \ do { \ unsigned long __adr = (adr); \ st_dma.dma_lo = (unsigned char)__adr; \ MFPDELAY(); \ __adr >>= 8; \ st_dma.dma_md = (unsigned char)__adr; \ MFPDELAY(); \ __adr >>= 8; \ st_dma.dma_hi = (unsigned char)__adr; \ MFPDELAY(); \ } while(0) #define SCSI_DMA_GETADR() ({ \ unsigned long __adr; \ __adr = st_dma.dma_lo; \ MFPDELAY(); \ __adr |= (st_dma.dma_md & 0xff) << 8; \ MFPDELAY(); \ __adr |= (st_dma.dma_hi & 0xff) << 16; \ MFPDELAY(); \ __adr; \ }) #define ENABLE_IRQ() \ do { \ if (IS_A_TT()) \ atari_enable_irq( IRQ_TT_MFP_SCSI ); \ else \ atari_enable_irq( IRQ_MFP_FSCSI ); \ } while(0) #define DISABLE_IRQ() \ do { \ if (IS_A_TT()) \ atari_disable_irq( IRQ_TT_MFP_SCSI ); \ else \ atari_disable_irq( IRQ_MFP_FSCSI ); \ } while(0) #define HOSTDATA_DMALEN (((struct NCR5380_hostdata *) \ (atari_scsi_host->hostdata))->dma_len) /* Time (in jiffies) to wait after a reset; the SCSI standard calls for 250ms, * we usually do 0.5s to be on the safe side. But Toshiba CD-ROMs once more * need ten times the standard value... */ #ifndef CONFIG_ATARI_SCSI_TOSHIBA_DELAY #define AFTER_RESET_DELAY (HZ/2) #else #define AFTER_RESET_DELAY (5*HZ/2) #endif /***************************** Prototypes *****************************/ #ifdef REAL_DMA static int scsi_dma_is_ignored_buserr( unsigned char dma_stat ); static void atari_scsi_fetch_restbytes( void ); static long atari_scsi_dma_residual( struct Scsi_Host *instance ); static int falcon_classify_cmd( Scsi_Cmnd *cmd ); static unsigned long atari_dma_xfer_len( unsigned long wanted_len, Scsi_Cmnd *cmd, int write_flag ); #endif static void scsi_tt_intr( int irq, void *dummy, struct pt_regs *fp); static void scsi_falcon_intr( int irq, void *dummy, struct pt_regs *fp); static void falcon_release_lock_if_possible( struct NCR5380_hostdata * hostdata ); static void falcon_get_lock( void ); #ifdef CONFIG_ATARI_SCSI_RESET_BOOT static void atari_scsi_reset_boot( void ); #endif static unsigned char atari_scsi_tt_reg_read( unsigned char reg ); static void atari_scsi_tt_reg_write( unsigned char reg, unsigned char value); static unsigned char atari_scsi_falcon_reg_read( unsigned char reg ); static void atari_scsi_falcon_reg_write( unsigned char reg, unsigned char value ); /************************* End of Prototypes **************************/ static struct Scsi_Host *atari_scsi_host = NULL; static unsigned char (*atari_scsi_reg_read)( unsigned char reg ); static void (*atari_scsi_reg_write)( unsigned char reg, unsigned char value ); #ifdef REAL_DMA static unsigned long atari_dma_residual, atari_dma_startaddr; static short atari_dma_active; /* pointer to the dribble buffer */ static char *atari_dma_buffer = NULL; /* precalculated physical address of the dribble buffer */ static unsigned long atari_dma_phys_buffer; /* != 0 tells the Falcon int handler to copy data from the dribble buffer */ static char *atari_dma_orig_addr; /* size of the dribble buffer; 4k seems enough, since the Falcon cannot use * scatter-gather anyway, so most transfers are 1024 byte only. In the rare * cases where requests to physical contiguous buffers have been merged, this * request is <= 4k (one page). So I don't think we have to split transfers * just due to this buffer size... */ #define STRAM_BUFFER_SIZE (4096) /* mask for address bits that can't be used with the ST-DMA */ static unsigned long atari_dma_stram_mask; #define STRAM_ADDR(a) (((a) & atari_dma_stram_mask) == 0) /* number of bytes to cut from a transfer to handle NCR overruns */ static int atari_read_overruns = 0; #endif static int setup_can_queue = -1; MODULE_PARM(setup_can_queue, "i"); static int setup_cmd_per_lun = -1; MODULE_PARM(setup_cmd_per_lun, "i"); static int setup_sg_tablesize = -1; MODULE_PARM(setup_sg_tablesize, "i"); #ifdef SUPPORT_TAGS static int setup_use_tagged_queuing = -1; MODULE_PARM(setup_use_tagged_queuing, "i"); #endif static int setup_hostid = -1; MODULE_PARM(setup_hostid, "i"); #if defined(CONFIG_TT_DMA_EMUL) #include "atari_dma_emul.c" #endif #if defined(REAL_DMA) static int scsi_dma_is_ignored_buserr( unsigned char dma_stat ) { int i; unsigned long addr = SCSI_DMA_READ_P( dma_addr ), end_addr; if (dma_stat & 0x01) { /* A bus error happens when DMA-ing from the last page of a * physical memory chunk (DMA prefetch!), but that doesn't hurt. * Check for this case: */ for( i = 0; i < m68k_num_memory; ++i ) { end_addr = m68k_memory[i].addr + m68k_memory[i].size; if (end_addr <= addr && addr <= end_addr + 4) return( 1 ); } } return( 0 ); } #if 0 /* Dead code... wasn't called anyway :-) and causes some trouble, because at * end-of-DMA, both SCSI ints are triggered simultaneously, so the NCR int has * to clear the DMA int pending bit before it allows other level 6 interrupts. */ static void scsi_dma_buserr (int irq, void *dummy, struct pt_regs *fp) { unsigned char dma_stat = tt_scsi_dma.dma_ctrl; /* Don't do anything if a NCR interrupt is pending. Probably it's just * masked... */ if (atari_irq_pending( IRQ_TT_MFP_SCSI )) return; printk("Bad SCSI DMA interrupt! dma_addr=0x%08lx dma_stat=%02x dma_cnt=%08lx\n", SCSI_DMA_READ_P(dma_addr), dma_stat, SCSI_DMA_READ_P(dma_cnt)); if (dma_stat & 0x80) { if (!scsi_dma_is_ignored_buserr( dma_stat )) printk( "SCSI DMA bus error -- bad DMA programming!\n" ); } else { /* Under normal circumstances we never should get to this point, * since both interrupts are triggered simultaneously and the 5380 * int has higher priority. When this irq is handled, that DMA * interrupt is cleared. So a warning message is printed here. */ printk( "SCSI DMA intr ?? -- this shouldn't happen!\n" ); } } #endif #endif static void scsi_tt_intr (int irq, void *dummy, struct pt_regs *fp) { #ifdef REAL_DMA int dma_stat; dma_stat = tt_scsi_dma.dma_ctrl; INT_PRINTK("scsi%d: NCR5380 interrupt, DMA status = %02x\n", atari_scsi_host->host_no, dma_stat & 0xff); /* Look if it was the DMA that has interrupted: First possibility * is that a bus error occurred... */ if (dma_stat & 0x80) { if (!scsi_dma_is_ignored_buserr( dma_stat )) { printk(KERN_ERR "SCSI DMA caused bus error near 0x%08lx\n", SCSI_DMA_READ_P(dma_addr)); printk(KERN_CRIT "SCSI DMA bus error -- bad DMA programming!"); } } /* If the DMA is active but not finished, we have the case * that some other 5380 interrupt occurred within the DMA transfer. * This means we have residual bytes, if the desired end address * is not yet reached. Maybe we have to fetch some bytes from the * rest data register, too. The residual must be calculated from * the address pointer, not the counter register, because only the * addr reg counts bytes not yet written and pending in the rest * data reg! */ if ((dma_stat & 0x02) && !(dma_stat & 0x40)) { atari_dma_residual = HOSTDATA_DMALEN - (SCSI_DMA_READ_P( dma_addr ) - atari_dma_startaddr); DMA_PRINTK("SCSI DMA: There are %ld residual bytes.\n", atari_dma_residual); if ((signed int)atari_dma_residual < 0) atari_dma_residual = 0; if ((dma_stat & 1) == 0) { /* After read operations, we maybe have to transport some rest bytes */ atari_scsi_fetch_restbytes(); } else { /* There seems to be a nasty bug in some SCSI-DMA/NCR combinations: If a target disconnects while a write operation is going on, the address register of the DMA may be a few bytes farer than it actually read. This is probably due to DMA prefetching and a delay between DMA and NCR. Experiments showed that the dma_addr is 9 bytes to high, but this could vary. The problem is, that the residual is thus calculated wrong and the next transfer will start behind where it should. So we round up the residual to the next multiple of a sector size, if it isn't already a multiple and the originally expected transfer size was. The latter condition is there to ensure that the correction is taken only for "real" data transfers and not for, e.g., the parameters of some other command. These shouldn't disconnect anyway. */ if (atari_dma_residual & 0x1ff) { DMA_PRINTK("SCSI DMA: DMA bug corrected, " "difference %ld bytes\n", 512 - (atari_dma_residual & 0x1ff)); atari_dma_residual = (atari_dma_residual + 511) & ~0x1ff; } } tt_scsi_dma.dma_ctrl = 0; } /* If the DMA is finished, fetch the rest bytes and turn it off */ if (dma_stat & 0x40) { atari_dma_residual = 0; if ((dma_stat & 1) == 0) atari_scsi_fetch_restbytes(); tt_scsi_dma.dma_ctrl = 0; } #endif /* REAL_DMA */ NCR5380_intr (0, 0, 0); #if 0 /* To be sure the int is not masked */ atari_enable_irq( IRQ_TT_MFP_SCSI ); #endif } static void scsi_falcon_intr (int irq, void *dummy, struct pt_regs *fp) { #ifdef REAL_DMA int dma_stat; /* Turn off DMA and select sector counter register before * accessing the status register (Atari recommendation!) */ st_dma.dma_mode_status = 0x90; dma_stat = st_dma.dma_mode_status; /* Bit 0 indicates some error in the DMA process... don't know * what happened exactly (no further docu). */ if (!(dma_stat & 0x01)) { /* DMA error */ printk(KERN_CRIT "SCSI DMA error near 0x%08lx!\n", SCSI_DMA_GETADR()); } /* If the DMA was active, but now bit 1 is not clear, it is some * other 5380 interrupt that finishes the DMA transfer. We have to * calculate the number of residual bytes and give a warning if * bytes are stuck in the ST-DMA fifo (there's no way to reach them!) */ if (atari_dma_active && (dma_stat & 0x02)) { unsigned long transferred; transferred = SCSI_DMA_GETADR() - atari_dma_startaddr; /* The ST-DMA address is incremented in 2-byte steps, but the * data are written only in 16-byte chunks. If the number of * transferred bytes is not divisible by 16, the remainder is * lost somewhere in outer space. */ if (transferred & 15) printk(KERN_ERR "SCSI DMA error: %ld bytes lost in " "ST-DMA fifo\n", transferred & 15); atari_dma_residual = HOSTDATA_DMALEN - transferred; DMA_PRINTK("SCSI DMA: There are %ld residual bytes.\n", atari_dma_residual); } else atari_dma_residual = 0; atari_dma_active = 0; if (atari_dma_orig_addr) { /* If the dribble buffer was used on a read operation, copy the DMA-ed * data to the original destination address. */ memcpy( atari_dma_orig_addr, (void *)PTOV(atari_dma_startaddr), HOSTDATA_DMALEN - atari_dma_residual ); atari_dma_orig_addr = NULL; } #endif /* REAL_DMA */ NCR5380_intr (0, 0, 0); } #ifdef REAL_DMA static void atari_scsi_fetch_restbytes( void ) { int nr; char *src, *dst; /* fetch rest bytes in the DMA register */ dst = (char *)SCSI_DMA_READ_P( dma_addr ); if ((nr = ((long)dst & 3))) { /* there are 'nr' bytes left for the last long address before the DMA pointer */ dst = (char *)( (unsigned long)dst & ~3 ); DMA_PRINTK("SCSI DMA: there are %d rest bytes for phys addr 0x%08lx", nr, (long)dst); dst = (char *)PTOV(dst); /* The content of the DMA pointer * is a physical address! */ DMA_PRINTK(" = virt addr 0x%08lx\n", (long)dst); for( src = (char *)&tt_scsi_dma.dma_restdata; nr > 0; --nr ) *dst++ = *src++; } } #endif /* REAL_DMA */ static int falcon_got_lock = 0; static struct wait_queue *falcon_fairness_wait = NULL; static int falcon_trying_lock = 0; static struct wait_queue *falcon_try_wait = NULL; static int falcon_dont_release = 0; /* This function releases the lock on the DMA chip if there is no * connected command and the disconnected queue is empty. On * releasing, instances of falcon_get_lock are awoken, that put * themselves to sleep for fairness. They can now try to get the lock * again (but others waiting longer more probably will win). */ static void falcon_release_lock_if_possible( struct NCR5380_hostdata * hostdata ) { unsigned long oldflags; if (IS_A_TT()) return; save_flags(oldflags); cli(); if (falcon_got_lock && !hostdata->disconnected_queue && !hostdata->issue_queue && !hostdata->connected) { if (falcon_dont_release) { #if 0 printk("WARNING: Lock release not allowed. Ignored\n"); #endif restore_flags(oldflags); return; } falcon_got_lock = 0; stdma_release(); wake_up( &falcon_fairness_wait ); } restore_flags(oldflags); } /* This function manages the locking of the ST-DMA. * If the DMA isn't locked already for SCSI, it tries to lock it by * calling stdma_lock(). But if the DMA is locked by the SCSI code and * there are other drivers waiting for the chip, we do not issue the * command immediately but wait on 'falcon_fairness_queue'. We will be * waked up when the DMA is unlocked by some SCSI interrupt. After that * we try to get the lock again. * But we must be prepared that more than one instance of * falcon_get_lock() is waiting on the fairness queue. They should not * try all at once to call stdma_lock(), one is enough! For that, the * first one sets 'falcon_trying_lock', others that see that variable * set wait on the queue 'falcon_try_wait'. * Complicated, complicated.... Sigh... */ static void falcon_get_lock( void ) { unsigned long oldflags; if (IS_A_TT()) return; save_flags(oldflags); cli(); while( !in_interrupt() && falcon_got_lock && stdma_others_waiting() ) sleep_on( &falcon_fairness_wait ); while (!falcon_got_lock) { if (in_interrupt()) panic( "Falcon SCSI hasn't ST-DMA lock in interrupt" ); if (!falcon_trying_lock) { falcon_trying_lock = 1; stdma_lock(scsi_falcon_intr, NULL); falcon_got_lock = 1; falcon_trying_lock = 0; wake_up( &falcon_try_wait ); } else { sleep_on( &falcon_try_wait ); } } restore_flags(oldflags); if (!falcon_got_lock) panic("Falcon SCSI: someone stole the lock :-(\n"); } /* This is the wrapper function for NCR5380_queue_command(). It just * tries to get the lock on the ST-DMA (see above) and then calls the * original function. */ #if 0 int atari_queue_command (Scsi_Cmnd *cmd, void (*done)(Scsi_Cmnd *)) { /* falcon_get_lock(); * ++guenther: moved to NCR5380_queue_command() to prevent * race condition, see there for an explanation. */ return( NCR5380_queue_command( cmd, done ) ); } #endif int atari_scsi_detect (Scsi_Host_Template *host) { static int called = 0; struct Scsi_Host *instance; if (!MACH_IS_ATARI || (!ATARIHW_PRESENT(ST_SCSI) && !ATARIHW_PRESENT(TT_SCSI)) || called) return( 0 ); host->proc_dir = &proc_scsi_atari; atari_scsi_reg_read = IS_A_TT() ? atari_scsi_tt_reg_read : atari_scsi_falcon_reg_read; atari_scsi_reg_write = IS_A_TT() ? atari_scsi_tt_reg_write : atari_scsi_falcon_reg_write; /* setup variables */ host->can_queue = (setup_can_queue > 0) ? setup_can_queue : IS_A_TT() ? ATARI_TT_CAN_QUEUE : ATARI_FALCON_CAN_QUEUE; host->cmd_per_lun = (setup_cmd_per_lun > 0) ? setup_cmd_per_lun : IS_A_TT() ? ATARI_TT_CMD_PER_LUN : ATARI_FALCON_CMD_PER_LUN; /* Force sg_tablesize to 0 on a Falcon! */ host->sg_tablesize = !IS_A_TT() ? ATARI_FALCON_SG_TABLESIZE : (setup_sg_tablesize >= 0) ? setup_sg_tablesize : ATARI_TT_SG_TABLESIZE; if (setup_hostid >= 0) host->this_id = setup_hostid; else { /* use 7 as default */ host->this_id = 7; /* Test if a host id is set in the NVRam */ if (ATARIHW_PRESENT(TT_CLK) && nvram_check_checksum()) { unsigned char b = nvram_read_byte( 14 ); /* Arbitration enabled? (for TOS) If yes, use configured host ID */ if (b & 0x80) host->this_id = b & 7; } } #ifdef SUPPORT_TAGS if (setup_use_tagged_queuing < 0) setup_use_tagged_queuing = DEFAULT_USE_TAGGED_QUEUING; #endif #ifdef REAL_DMA /* If running on a Falcon and if there's TT-Ram (i.e., more than one * memory block, since there's always ST-Ram in a Falcon), then allocate a * STRAM_BUFFER_SIZE byte dribble buffer for transfers from/to alternative * Ram. */ if (MACH_IS_ATARI && ATARIHW_PRESENT(ST_SCSI) && !ATARIHW_PRESENT(EXTD_DMA) && m68k_num_memory > 1) { atari_dma_buffer = atari_stram_alloc( STRAM_BUFFER_SIZE, NULL, "SCSI" ); if (!atari_dma_buffer) { printk( KERN_ERR "atari_scsi_detect: can't allocate ST-RAM " "double buffer\n" ); return( 0 ); } atari_dma_phys_buffer = VTOP( atari_dma_buffer ); atari_dma_orig_addr = 0; } #endif instance = scsi_register (host, sizeof (struct NCR5380_hostdata)); atari_scsi_host = instance; /* Set irq to 0, to avoid that the mid-level code disables our interrupt * during queue_command calls. This is completely unnecessary, and even * worse causes bad problems on the Falcon, where the int is shared with * IDE and floppy! */ instance->irq = 0; #ifdef CONFIG_ATARI_SCSI_RESET_BOOT atari_scsi_reset_boot(); #endif NCR5380_init (instance, 0); if (IS_A_TT()) { /* This int is actually "pseudo-slow", i.e. it acts like a slow * interrupt after having cleared the pending flag for the DMA * interrupt. */ request_irq(IRQ_TT_MFP_SCSI, scsi_tt_intr, IRQ_TYPE_SLOW, "SCSI NCR5380", scsi_tt_intr); tt_mfp.active_edge |= 0x80; /* SCSI int on L->H */ #ifdef REAL_DMA tt_scsi_dma.dma_ctrl = 0; atari_dma_residual = 0; #endif /* REAL_DMA */ #ifdef REAL_DMA #ifdef CONFIG_TT_DMA_EMUL if (MACH_IS_HADES) { request_irq(IRQ_AUTO_2, hades_dma_emulator, IRQ_TYPE_PRIO, "Hades DMA emulator", hades_dma_emulator); } #endif if (MACH_IS_MEDUSA || MACH_IS_HADES) { /* While the read overruns (described by Drew Eckhardt in * NCR5380.c) never happened on TTs, they do in fact on the Medusa * (This was the cause why SCSI didn't work right for so long * there.) Since handling the overruns slows down a bit, I turned * the #ifdef's into a runtime condition. * * In principle it should be sufficient to do max. 1 byte with * PIO, but there is another problem on the Medusa with the DMA * rest data register. So 'atari_read_overruns' is currently set * to 4 to avoid having transfers that aren't a multiple of 4. If * the rest data bug is fixed, this can be lowered to 1. */ atari_read_overruns = 4; } #endif } else { /* ! IS_A_TT */ /* Nothing to do for the interrupt: the ST-DMA is initialized * already by atari_init_INTS() */ #ifdef REAL_DMA atari_dma_residual = 0; atari_dma_active = 0; atari_dma_stram_mask = (ATARIHW_PRESENT(EXTD_DMA) ? 0x00000000 : 0xff000000); #endif } printk(KERN_INFO "scsi%d: options CAN_QUEUE=%d CMD_PER_LUN=%d SCAT-GAT=%d " #ifdef SUPPORT_TAGS "TAGGED-QUEUING=%s " #endif "HOSTID=%d", instance->host_no, instance->hostt->can_queue, instance->hostt->cmd_per_lun, instance->hostt->sg_tablesize, #ifdef SUPPORT_TAGS setup_use_tagged_queuing ? "yes" : "no", #endif instance->hostt->this_id ); NCR5380_print_options (instance); printk ("\n"); called = 1; return( 1 ); } #ifdef MODULE int atari_scsi_release (struct Scsi_Host *sh) { if (IS_A_TT()) free_irq(IRQ_TT_MFP_SCSI, scsi_tt_intr); if (atari_dma_buffer) atari_stram_free (atari_dma_buffer); return 1; } #endif __initfunc(void atari_scsi_setup( char *str, int *ints )) { /* Format of atascsi parameter is: * atascsi=<can_queue>,<cmd_per_lun>,<sg_tablesize>,<hostid>,<use_tags> * Defaults depend on TT or Falcon, hostid determined at run time. * Negative values mean don't change. */ /* Grmbl... the standard parameter parsing can't handle negative numbers * :-( So let's do it ourselves! */ int i = ints[0]+1, fact; while( str && (isdigit(*str) || *str == '-') && i <= 10) { if (*str == '-') fact = -1, ++str; else fact = 1; ints[i++] = simple_strtoul( str, NULL, 0 ) * fact; if ((str = strchr( str, ',' )) != NULL) ++str; } ints[0] = i-1; if (ints[0] < 1) { printk( "atari_scsi_setup: no arguments!\n" ); return; } if (ints[0] >= 1) { if (ints[1] > 0) /* no limits on this, just > 0 */ setup_can_queue = ints[1]; } if (ints[0] >= 2) { if (ints[2] > 0) setup_cmd_per_lun = ints[2]; } if (ints[0] >= 3) { if (ints[3] >= 0) { setup_sg_tablesize = ints[3]; /* Must be <= SG_ALL (255) */ if (setup_sg_tablesize > SG_ALL) setup_sg_tablesize = SG_ALL; } } if (ints[0] >= 4) { /* Must be between 0 and 7 */ if (ints[4] >= 0 && ints[4] <= 7) setup_hostid = ints[4]; else if (ints[4] > 7) printk( "atari_scsi_setup: invalid host ID %d !\n", ints[4] ); } #ifdef SUPPORT_TAGS if (ints[0] >= 5) { if (ints[5] >= 0) setup_use_tagged_queuing = !!ints[5]; } #endif } int atari_scsi_reset( Scsi_Cmnd *cmd, unsigned int reset_flags) { int rv; struct NCR5380_hostdata *hostdata = (struct NCR5380_hostdata *)cmd->host->hostdata; /* For doing the reset, SCSI interrupts must be disabled first, * since the 5380 raises its IRQ line while _RST is active and we * can't disable interrupts completely, since we need the timer. */ /* And abort a maybe active DMA transfer */ if (IS_A_TT()) { atari_turnoff_irq( IRQ_TT_MFP_SCSI ); #ifdef REAL_DMA tt_scsi_dma.dma_ctrl = 0; #endif /* REAL_DMA */ } else { atari_turnoff_irq( IRQ_MFP_FSCSI ); #ifdef REAL_DMA st_dma.dma_mode_status = 0x90; atari_dma_active = 0; atari_dma_orig_addr = NULL; #endif /* REAL_DMA */ } rv = NCR5380_reset(cmd, reset_flags); /* Re-enable ints */ if (IS_A_TT()) { atari_turnon_irq( IRQ_TT_MFP_SCSI ); } else { atari_turnon_irq( IRQ_MFP_FSCSI ); } if ((rv & SCSI_RESET_ACTION) == SCSI_RESET_SUCCESS) falcon_release_lock_if_possible(hostdata); return( rv ); } #ifdef CONFIG_ATARI_SCSI_RESET_BOOT __initfunc(static void atari_scsi_reset_boot( void )) { unsigned long end; /* * Do a SCSI reset to clean up the bus during initialization. No messing * with the queues, interrupts, or locks necessary here. */ printk( "Atari SCSI: resetting the SCSI bus..." ); /* get in phase */ NCR5380_write( TARGET_COMMAND_REG, PHASE_SR_TO_TCR( NCR5380_read(STATUS_REG) )); /* assert RST */ NCR5380_write( INITIATOR_COMMAND_REG, ICR_BASE | ICR_ASSERT_RST ); /* The min. reset hold time is 25us, so 40us should be enough */ udelay( 50 ); /* reset RST and interrupt */ NCR5380_write( INITIATOR_COMMAND_REG, ICR_BASE ); NCR5380_read( RESET_PARITY_INTERRUPT_REG ); for( end = jiffies + AFTER_RESET_DELAY; jiffies < end; ) barrier(); printk( " done\n" ); } #endif const char * atari_scsi_info (struct Scsi_Host *host) { /* atari_scsi_detect() is verbose enough... */ static const char string[] = "Atari native SCSI"; return string; } #if defined(REAL_DMA) unsigned long atari_scsi_dma_setup( struct Scsi_Host *instance, void *data, unsigned long count, int dir ) { unsigned long addr = VTOP( data ); DMA_PRINTK("scsi%d: setting up dma, data = %p, phys = %lx, count = %ld, " "dir = %d\n", instance->host_no, data, addr, count, dir); if (!IS_A_TT() && !STRAM_ADDR(addr)) { /* If we have a non-DMAable address on a Falcon, use the dribble * buffer; 'orig_addr' != 0 in the read case tells the interrupt * handler to copy data from the dribble buffer to the originally * wanted address. */ if (dir) memcpy( atari_dma_buffer, data, count ); else atari_dma_orig_addr = data; addr = atari_dma_phys_buffer; } atari_dma_startaddr = addr; /* Needed for calculating residual later. */ /* Cache cleanup stuff: On writes, push any dirty cache out before sending * it to the peripheral. (Must be done before DMA setup, since at least * the ST-DMA begins to fill internal buffers right after setup. For * reads, invalidate any cache, may be altered after DMA without CPU * knowledge. * * ++roman: For the Medusa, there's no need at all for that cache stuff, * because the hardware does bus snooping (fine!). */ dma_cache_maintenance( addr, count, dir ); if (count == 0) printk(KERN_NOTICE "SCSI warning: DMA programmed for 0 bytes !\n"); if (IS_A_TT()) { tt_scsi_dma.dma_ctrl = dir; SCSI_DMA_WRITE_P( dma_addr, addr ); SCSI_DMA_WRITE_P( dma_cnt, count ); tt_scsi_dma.dma_ctrl = dir | 2; } else { /* ! IS_A_TT */ /* set address */ SCSI_DMA_SETADR( addr ); /* toggle direction bit to clear FIFO and set DMA direction */ dir <<= 8; st_dma.dma_mode_status = 0x90 | dir; st_dma.dma_mode_status = 0x90 | (dir ^ 0x100); st_dma.dma_mode_status = 0x90 | dir; udelay(40); /* On writes, round up the transfer length to the next multiple of 512 * (see also comment at atari_dma_xfer_len()). */ st_dma.fdc_acces_seccount = (count + (dir ? 511 : 0)) >> 9; udelay(40); st_dma.dma_mode_status = 0x10 | dir; udelay(40); /* need not restore value of dir, only boolean value is tested */ atari_dma_active = 1; } return( count ); } static long atari_scsi_dma_residual( struct Scsi_Host *instance ) { return( atari_dma_residual ); } #define CMD_SURELY_BLOCK_MODE 0 #define CMD_SURELY_BYTE_MODE 1 #define CMD_MODE_UNKNOWN 2 static int falcon_classify_cmd( Scsi_Cmnd *cmd ) { unsigned char opcode = cmd->cmnd[0]; if (opcode == READ_DEFECT_DATA || opcode == READ_LONG || opcode == READ_BUFFER) return( CMD_SURELY_BYTE_MODE ); else if (opcode == READ_6 || opcode == READ_10 || opcode == 0xa8 /* READ_12 */ || opcode == READ_REVERSE || opcode == RECOVER_BUFFERED_DATA) { /* In case of a sequential-access target (tape), special care is * needed here: The transfer is block-mode only if the 'fixed' bit is * set! */ if (cmd->device->type == TYPE_TAPE && !(cmd->cmnd[1] & 1)) return( CMD_SURELY_BYTE_MODE ); else return( CMD_SURELY_BLOCK_MODE ); } else return( CMD_MODE_UNKNOWN ); } /* This function calculates the number of bytes that can be transferred via * DMA. On the TT, this is arbitrary, but on the Falcon we have to use the * ST-DMA chip. There are only multiples of 512 bytes possible and max. * 255*512 bytes :-( This means also, that defining READ_OVERRUNS is not * possible on the Falcon, since that would require to program the DMA for * n*512 - atari_read_overrun bytes. But it seems that the Falcon doesn't have * the overrun problem, so this question is academic :-) */ static unsigned long atari_dma_xfer_len( unsigned long wanted_len, Scsi_Cmnd *cmd, int write_flag ) { unsigned long possible_len, limit; #ifndef CONFIG_TT_DMA_EMUL if (MACH_IS_HADES) /* Hades has no SCSI DMA at all :-( Always force use of PIO */ return( 0 ); #endif if (IS_A_TT()) /* TT SCSI DMA can transfer arbitrary #bytes */ return( wanted_len ); /* ST DMA chip is stupid -- only multiples of 512 bytes! (and max. * 255*512 bytes, but this should be enough) * * ++roman: Aaargl! Another Falcon-SCSI problem... There are some commands * that return a number of bytes which cannot be known beforehand. In this * case, the given transfer length is an "allocation length". Now it * can happen that this allocation length is a multiple of 512 bytes and * the DMA is used. But if not n*512 bytes really arrive, some input data * will be lost in the ST-DMA's FIFO :-( Thus, we have to distinguish * between commands that do block transfers and those that do byte * transfers. But this isn't easy... there are lots of vendor specific * commands, and the user can issue any command via the * SCSI_IOCTL_SEND_COMMAND. * * The solution: We classify SCSI commands in 1) surely block-mode cmd.s, * 2) surely byte-mode cmd.s and 3) cmd.s with unknown mode. In case 1) * and 3), the thing to do is obvious: allow any number of blocks via DMA * or none. In case 2), we apply some heuristic: Byte mode is assumed if * the transfer (allocation) length is < 1024, hoping that no cmd. not * explicitly known as byte mode have such big allocation lengths... * BTW, all the discussion above applies only to reads. DMA writes are * unproblematic anyways, since the targets aborts the transfer after * receiving a sufficient number of bytes. * * Another point: If the transfer is from/to an non-ST-RAM address, we * use the dribble buffer and thus can do only STRAM_BUFFER_SIZE bytes. */ if (write_flag) { /* Write operation can always use the DMA, but the transfer size must * be rounded up to the next multiple of 512 (atari_dma_setup() does * this). */ possible_len = wanted_len; } else { /* Read operations: if the wanted transfer length is not a multiple of * 512, we cannot use DMA, since the ST-DMA cannot split transfers * (no interrupt on DMA finished!) */ if (wanted_len & 0x1ff) possible_len = 0; else { /* Now classify the command (see above) and decide whether it is * allowed to do DMA at all */ switch( falcon_classify_cmd( cmd )) { case CMD_SURELY_BLOCK_MODE: possible_len = wanted_len; break; case CMD_SURELY_BYTE_MODE: possible_len = 0; /* DMA prohibited */ break; case CMD_MODE_UNKNOWN: default: /* For unknown commands assume block transfers if the transfer * size/allocation length is >= 1024 */ possible_len = (wanted_len < 1024) ? 0 : wanted_len; break; } } } /* Last step: apply the hard limit on DMA transfers */ limit = (atari_dma_buffer && !STRAM_ADDR( VTOP(cmd->SCp.ptr) )) ? STRAM_BUFFER_SIZE : 255*512; if (possible_len > limit) possible_len = limit; if (possible_len != wanted_len) DMA_PRINTK("Sorry, must cut DMA transfer size to %ld bytes " "instead of %ld\n", possible_len, wanted_len); return( possible_len ); } #endif /* REAL_DMA */ /* NCR5380 register access functions * * There are separate functions for TT and Falcon, because the access * methods are quite different. The calling macros NCR5380_read and * NCR5380_write call these functions via function pointers. */ static unsigned char atari_scsi_tt_reg_read( unsigned char reg ) { return( tt_scsi_regp[reg * 2] ); } static void atari_scsi_tt_reg_write( unsigned char reg, unsigned char value ) { tt_scsi_regp[reg * 2] = value; } static unsigned char atari_scsi_falcon_reg_read( unsigned char reg ) { dma_wd.dma_mode_status= (u_short)(0x88 + reg); return( (u_char)dma_wd.fdc_acces_seccount ); } static void atari_scsi_falcon_reg_write( unsigned char reg, unsigned char value ) { dma_wd.dma_mode_status = (u_short)(0x88 + reg); dma_wd.fdc_acces_seccount = (u_short)value; } #include "atari_NCR5380.c" #ifdef MODULE Scsi_Host_Template driver_template = ATARI_SCSI; #include "scsi_module.c" #endif |