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1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283 1284 1285 1286 1287 1288 1289 1290 | // SPDX-License-Identifier: GPL-2.0-or-later /* * Driver for the SWIM3 (Super Woz Integrated Machine 3) * floppy controller found on Power Macintoshes. * * Copyright (C) 1996 Paul Mackerras. */ /* * TODO: * handle 2 drives * handle GCR disks */ #undef DEBUG #include <linux/stddef.h> #include <linux/kernel.h> #include <linux/sched/signal.h> #include <linux/timer.h> #include <linux/delay.h> #include <linux/fd.h> #include <linux/ioctl.h> #include <linux/blk-mq.h> #include <linux/interrupt.h> #include <linux/mutex.h> #include <linux/module.h> #include <linux/spinlock.h> #include <linux/wait.h> #include <linux/major.h> #include <asm/io.h> #include <asm/dbdma.h> #include <asm/prom.h> #include <linux/uaccess.h> #include <asm/mediabay.h> #include <asm/machdep.h> #include <asm/pmac_feature.h> #define MAX_FLOPPIES 2 static DEFINE_MUTEX(swim3_mutex); static struct gendisk *disks[MAX_FLOPPIES]; enum swim_state { idle, locating, seeking, settling, do_transfer, jogging, available, revalidating, ejecting }; #define REG(x) unsigned char x; char x ## _pad[15]; /* * The names for these registers mostly represent speculation on my part. * It will be interesting to see how close they are to the names Apple uses. */ struct swim3 { REG(data); REG(timer); /* counts down at 1MHz */ REG(error); REG(mode); REG(select); /* controls CA0, CA1, CA2 and LSTRB signals */ REG(setup); REG(control); /* writing bits clears them */ REG(status); /* writing bits sets them in control */ REG(intr); REG(nseek); /* # tracks to seek */ REG(ctrack); /* current track number */ REG(csect); /* current sector number */ REG(gap3); /* size of gap 3 in track format */ REG(sector); /* sector # to read or write */ REG(nsect); /* # sectors to read or write */ REG(intr_enable); }; #define control_bic control #define control_bis status /* Bits in select register */ #define CA_MASK 7 #define LSTRB 8 /* Bits in control register */ #define DO_SEEK 0x80 #define FORMAT 0x40 #define SELECT 0x20 #define WRITE_SECTORS 0x10 #define DO_ACTION 0x08 #define DRIVE2_ENABLE 0x04 #define DRIVE_ENABLE 0x02 #define INTR_ENABLE 0x01 /* Bits in status register */ #define FIFO_1BYTE 0x80 #define FIFO_2BYTE 0x40 #define ERROR 0x20 #define DATA 0x08 #define RDDATA 0x04 #define INTR_PENDING 0x02 #define MARK_BYTE 0x01 /* Bits in intr and intr_enable registers */ #define ERROR_INTR 0x20 #define DATA_CHANGED 0x10 #define TRANSFER_DONE 0x08 #define SEEN_SECTOR 0x04 #define SEEK_DONE 0x02 #define TIMER_DONE 0x01 /* Bits in error register */ #define ERR_DATA_CRC 0x80 #define ERR_ADDR_CRC 0x40 #define ERR_OVERRUN 0x04 #define ERR_UNDERRUN 0x01 /* Bits in setup register */ #define S_SW_RESET 0x80 #define S_GCR_WRITE 0x40 #define S_IBM_DRIVE 0x20 #define S_TEST_MODE 0x10 #define S_FCLK_DIV2 0x08 #define S_GCR 0x04 #define S_COPY_PROT 0x02 #define S_INV_WDATA 0x01 /* Select values for swim3_action */ #define SEEK_POSITIVE 0 #define SEEK_NEGATIVE 4 #define STEP 1 #define MOTOR_ON 2 #define MOTOR_OFF 6 #define INDEX 3 #define EJECT 7 #define SETMFM 9 #define SETGCR 13 /* Select values for swim3_select and swim3_readbit */ #define STEP_DIR 0 #define STEPPING 1 #define MOTOR_ON 2 #define RELAX 3 /* also eject in progress */ #define READ_DATA_0 4 #define ONEMEG_DRIVE 5 #define SINGLE_SIDED 6 /* drive or diskette is 4MB type? */ #define DRIVE_PRESENT 7 #define DISK_IN 8 #define WRITE_PROT 9 #define TRACK_ZERO 10 #define TACHO 11 #define READ_DATA_1 12 #define GCR_MODE 13 #define SEEK_COMPLETE 14 #define TWOMEG_MEDIA 15 /* Definitions of values used in writing and formatting */ #define DATA_ESCAPE 0x99 #define GCR_SYNC_EXC 0x3f #define GCR_SYNC_CONV 0x80 #define GCR_FIRST_MARK 0xd5 #define GCR_SECOND_MARK 0xaa #define GCR_ADDR_MARK "\xd5\xaa\x00" #define GCR_DATA_MARK "\xd5\xaa\x0b" #define GCR_SLIP_BYTE "\x27\xaa" #define GCR_SELF_SYNC "\x3f\xbf\x1e\x34\x3c\x3f" #define DATA_99 "\x99\x99" #define MFM_ADDR_MARK "\x99\xa1\x99\xa1\x99\xa1\x99\xfe" #define MFM_INDEX_MARK "\x99\xc2\x99\xc2\x99\xc2\x99\xfc" #define MFM_GAP_LEN 12 struct floppy_state { enum swim_state state; struct swim3 __iomem *swim3; /* hardware registers */ struct dbdma_regs __iomem *dma; /* DMA controller registers */ int swim3_intr; /* interrupt number for SWIM3 */ int dma_intr; /* interrupt number for DMA channel */ int cur_cyl; /* cylinder head is on, or -1 */ int cur_sector; /* last sector we saw go past */ int req_cyl; /* the cylinder for the current r/w request */ int head; /* head number ditto */ int req_sector; /* sector number ditto */ int scount; /* # sectors we're transferring at present */ int retries; int settle_time; int secpercyl; /* disk geometry information */ int secpertrack; int total_secs; int write_prot; /* 1 if write-protected, 0 if not, -1 dunno */ struct dbdma_cmd *dma_cmd; int ref_count; int expect_cyl; struct timer_list timeout; int timeout_pending; int ejected; wait_queue_head_t wait; int wanted; struct macio_dev *mdev; char dbdma_cmd_space[5 * sizeof(struct dbdma_cmd)]; int index; struct request *cur_req; struct blk_mq_tag_set tag_set; }; #define swim3_err(fmt, arg...) dev_err(&fs->mdev->ofdev.dev, "[fd%d] " fmt, fs->index, arg) #define swim3_warn(fmt, arg...) dev_warn(&fs->mdev->ofdev.dev, "[fd%d] " fmt, fs->index, arg) #define swim3_info(fmt, arg...) dev_info(&fs->mdev->ofdev.dev, "[fd%d] " fmt, fs->index, arg) #ifdef DEBUG #define swim3_dbg(fmt, arg...) dev_dbg(&fs->mdev->ofdev.dev, "[fd%d] " fmt, fs->index, arg) #else #define swim3_dbg(fmt, arg...) do { } while(0) #endif static struct floppy_state floppy_states[MAX_FLOPPIES]; static int floppy_count = 0; static DEFINE_SPINLOCK(swim3_lock); static unsigned short write_preamble[] = { 0x4e4e, 0x4e4e, 0x4e4e, 0x4e4e, 0x4e4e, /* gap field */ 0, 0, 0, 0, 0, 0, /* sync field */ 0x99a1, 0x99a1, 0x99a1, 0x99fb, /* data address mark */ 0x990f /* no escape for 512 bytes */ }; static unsigned short write_postamble[] = { 0x9904, /* insert CRC */ 0x4e4e, 0x4e4e, 0x9908, /* stop writing */ 0, 0, 0, 0, 0, 0 }; static void seek_track(struct floppy_state *fs, int n); static void act(struct floppy_state *fs); static void scan_timeout(struct timer_list *t); static void seek_timeout(struct timer_list *t); static void settle_timeout(struct timer_list *t); static void xfer_timeout(struct timer_list *t); static irqreturn_t swim3_interrupt(int irq, void *dev_id); /*static void fd_dma_interrupt(int irq, void *dev_id);*/ static int grab_drive(struct floppy_state *fs, enum swim_state state, int interruptible); static void release_drive(struct floppy_state *fs); static int fd_eject(struct floppy_state *fs); static int floppy_ioctl(struct block_device *bdev, blk_mode_t mode, unsigned int cmd, unsigned long param); static int floppy_open(struct gendisk *disk, blk_mode_t mode); static unsigned int floppy_check_events(struct gendisk *disk, unsigned int clearing); static int floppy_revalidate(struct gendisk *disk); static bool swim3_end_request(struct floppy_state *fs, blk_status_t err, unsigned int nr_bytes) { struct request *req = fs->cur_req; swim3_dbg(" end request, err=%d nr_bytes=%d, cur_req=%p\n", err, nr_bytes, req); if (err) nr_bytes = blk_rq_cur_bytes(req); if (blk_update_request(req, err, nr_bytes)) return true; __blk_mq_end_request(req, err); fs->cur_req = NULL; return false; } static void swim3_select(struct floppy_state *fs, int sel) { struct swim3 __iomem *sw = fs->swim3; out_8(&sw->select, RELAX); if (sel & 8) out_8(&sw->control_bis, SELECT); else out_8(&sw->control_bic, SELECT); out_8(&sw->select, sel & CA_MASK); } static void swim3_action(struct floppy_state *fs, int action) { struct swim3 __iomem *sw = fs->swim3; swim3_select(fs, action); udelay(1); out_8(&sw->select, sw->select | LSTRB); udelay(2); out_8(&sw->select, sw->select & ~LSTRB); udelay(1); } static int swim3_readbit(struct floppy_state *fs, int bit) { struct swim3 __iomem *sw = fs->swim3; int stat; swim3_select(fs, bit); udelay(1); stat = in_8(&sw->status); return (stat & DATA) == 0; } static blk_status_t swim3_queue_rq(struct blk_mq_hw_ctx *hctx, const struct blk_mq_queue_data *bd) { struct floppy_state *fs = hctx->queue->queuedata; struct request *req = bd->rq; unsigned long x; spin_lock_irq(&swim3_lock); if (fs->cur_req || fs->state != idle) { spin_unlock_irq(&swim3_lock); return BLK_STS_DEV_RESOURCE; } blk_mq_start_request(req); fs->cur_req = req; if (fs->mdev->media_bay && check_media_bay(fs->mdev->media_bay) != MB_FD) { swim3_dbg("%s", " media bay absent, dropping req\n"); swim3_end_request(fs, BLK_STS_IOERR, 0); goto out; } if (fs->ejected) { swim3_dbg("%s", " disk ejected\n"); swim3_end_request(fs, BLK_STS_IOERR, 0); goto out; } if (rq_data_dir(req) == WRITE) { if (fs->write_prot < 0) fs->write_prot = swim3_readbit(fs, WRITE_PROT); if (fs->write_prot) { swim3_dbg("%s", " try to write, disk write protected\n"); swim3_end_request(fs, BLK_STS_IOERR, 0); goto out; } } /* * Do not remove the cast. blk_rq_pos(req) is now a sector_t and can be * 64 bits, but it will never go past 32 bits for this driver anyway, so * we can safely cast it down and not have to do a 64/32 division */ fs->req_cyl = ((long)blk_rq_pos(req)) / fs->secpercyl; x = ((long)blk_rq_pos(req)) % fs->secpercyl; fs->head = x / fs->secpertrack; fs->req_sector = x % fs->secpertrack + 1; fs->state = do_transfer; fs->retries = 0; act(fs); out: spin_unlock_irq(&swim3_lock); return BLK_STS_OK; } static void set_timeout(struct floppy_state *fs, int nticks, void (*proc)(struct timer_list *t)) { if (fs->timeout_pending) del_timer(&fs->timeout); fs->timeout.expires = jiffies + nticks; fs->timeout.function = proc; add_timer(&fs->timeout); fs->timeout_pending = 1; } static inline void scan_track(struct floppy_state *fs) { struct swim3 __iomem *sw = fs->swim3; swim3_select(fs, READ_DATA_0); in_8(&sw->intr); /* clear SEEN_SECTOR bit */ in_8(&sw->error); out_8(&sw->intr_enable, SEEN_SECTOR); out_8(&sw->control_bis, DO_ACTION); /* enable intr when track found */ set_timeout(fs, HZ, scan_timeout); /* enable timeout */ } static inline void seek_track(struct floppy_state *fs, int n) { struct swim3 __iomem *sw = fs->swim3; if (n >= 0) { swim3_action(fs, SEEK_POSITIVE); sw->nseek = n; } else { swim3_action(fs, SEEK_NEGATIVE); sw->nseek = -n; } fs->expect_cyl = (fs->cur_cyl >= 0)? fs->cur_cyl + n: -1; swim3_select(fs, STEP); in_8(&sw->error); /* enable intr when seek finished */ out_8(&sw->intr_enable, SEEK_DONE); out_8(&sw->control_bis, DO_SEEK); set_timeout(fs, 3*HZ, seek_timeout); /* enable timeout */ fs->settle_time = 0; } /* * XXX: this is a horrible hack, but at least allows ppc32 to get * out of defining virt_to_bus, and this driver out of using the * deprecated block layer bounce buffering for highmem addresses * for no good reason. */ static unsigned long swim3_phys_to_bus(phys_addr_t paddr) { return paddr + PCI_DRAM_OFFSET; } static phys_addr_t swim3_bio_phys(struct bio *bio) { return page_to_phys(bio_page(bio)) + bio_offset(bio); } static inline void init_dma(struct dbdma_cmd *cp, int cmd, phys_addr_t paddr, int count) { cp->req_count = cpu_to_le16(count); cp->command = cpu_to_le16(cmd); cp->phy_addr = cpu_to_le32(swim3_phys_to_bus(paddr)); cp->xfer_status = 0; } static inline void setup_transfer(struct floppy_state *fs) { int n; struct swim3 __iomem *sw = fs->swim3; struct dbdma_cmd *cp = fs->dma_cmd; struct dbdma_regs __iomem *dr = fs->dma; struct request *req = fs->cur_req; if (blk_rq_cur_sectors(req) <= 0) { swim3_warn("%s", "Transfer 0 sectors ?\n"); return; } if (rq_data_dir(req) == WRITE) n = 1; else { n = fs->secpertrack - fs->req_sector + 1; if (n > blk_rq_cur_sectors(req)) n = blk_rq_cur_sectors(req); } swim3_dbg(" setup xfer at sect %d (of %d) head %d for %d\n", fs->req_sector, fs->secpertrack, fs->head, n); fs->scount = n; swim3_select(fs, fs->head? READ_DATA_1: READ_DATA_0); out_8(&sw->sector, fs->req_sector); out_8(&sw->nsect, n); out_8(&sw->gap3, 0); out_le32(&dr->cmdptr, swim3_phys_to_bus(virt_to_phys(cp))); if (rq_data_dir(req) == WRITE) { /* Set up 3 dma commands: write preamble, data, postamble */ init_dma(cp, OUTPUT_MORE, virt_to_phys(write_preamble), sizeof(write_preamble)); ++cp; init_dma(cp, OUTPUT_MORE, swim3_bio_phys(req->bio), 512); ++cp; init_dma(cp, OUTPUT_LAST, virt_to_phys(write_postamble), sizeof(write_postamble)); } else { init_dma(cp, INPUT_LAST, swim3_bio_phys(req->bio), n * 512); } ++cp; out_le16(&cp->command, DBDMA_STOP); out_8(&sw->control_bic, DO_ACTION | WRITE_SECTORS); in_8(&sw->error); out_8(&sw->control_bic, DO_ACTION | WRITE_SECTORS); if (rq_data_dir(req) == WRITE) out_8(&sw->control_bis, WRITE_SECTORS); in_8(&sw->intr); out_le32(&dr->control, (RUN << 16) | RUN); /* enable intr when transfer complete */ out_8(&sw->intr_enable, TRANSFER_DONE); out_8(&sw->control_bis, DO_ACTION); set_timeout(fs, 2*HZ, xfer_timeout); /* enable timeout */ } static void act(struct floppy_state *fs) { for (;;) { swim3_dbg(" act loop, state=%d, req_cyl=%d, cur_cyl=%d\n", fs->state, fs->req_cyl, fs->cur_cyl); switch (fs->state) { case idle: return; /* XXX shouldn't get here */ case locating: if (swim3_readbit(fs, TRACK_ZERO)) { swim3_dbg("%s", " locate track 0\n"); fs->cur_cyl = 0; if (fs->req_cyl == 0) fs->state = do_transfer; else fs->state = seeking; break; } scan_track(fs); return; case seeking: if (fs->cur_cyl < 0) { fs->expect_cyl = -1; fs->state = locating; break; } if (fs->req_cyl == fs->cur_cyl) { swim3_warn("%s", "Whoops, seeking 0\n"); fs->state = do_transfer; break; } seek_track(fs, fs->req_cyl - fs->cur_cyl); return; case settling: /* check for SEEK_COMPLETE after 30ms */ fs->settle_time = (HZ + 32) / 33; set_timeout(fs, fs->settle_time, settle_timeout); return; case do_transfer: if (fs->cur_cyl != fs->req_cyl) { if (fs->retries > 5) { swim3_err("Wrong cylinder in transfer, want: %d got %d\n", fs->req_cyl, fs->cur_cyl); swim3_end_request(fs, BLK_STS_IOERR, 0); fs->state = idle; return; } fs->state = seeking; break; } setup_transfer(fs); return; case jogging: seek_track(fs, -5); return; default: swim3_err("Unknown state %d\n", fs->state); return; } } } static void scan_timeout(struct timer_list *t) { struct floppy_state *fs = from_timer(fs, t, timeout); struct swim3 __iomem *sw = fs->swim3; unsigned long flags; swim3_dbg("* scan timeout, state=%d\n", fs->state); spin_lock_irqsave(&swim3_lock, flags); fs->timeout_pending = 0; out_8(&sw->control_bic, DO_ACTION | WRITE_SECTORS); out_8(&sw->select, RELAX); out_8(&sw->intr_enable, 0); fs->cur_cyl = -1; if (fs->retries > 5) { swim3_end_request(fs, BLK_STS_IOERR, 0); fs->state = idle; } else { fs->state = jogging; act(fs); } spin_unlock_irqrestore(&swim3_lock, flags); } static void seek_timeout(struct timer_list *t) { struct floppy_state *fs = from_timer(fs, t, timeout); struct swim3 __iomem *sw = fs->swim3; unsigned long flags; swim3_dbg("* seek timeout, state=%d\n", fs->state); spin_lock_irqsave(&swim3_lock, flags); fs->timeout_pending = 0; out_8(&sw->control_bic, DO_SEEK); out_8(&sw->select, RELAX); out_8(&sw->intr_enable, 0); swim3_err("%s", "Seek timeout\n"); swim3_end_request(fs, BLK_STS_IOERR, 0); fs->state = idle; spin_unlock_irqrestore(&swim3_lock, flags); } static void settle_timeout(struct timer_list *t) { struct floppy_state *fs = from_timer(fs, t, timeout); struct swim3 __iomem *sw = fs->swim3; unsigned long flags; swim3_dbg("* settle timeout, state=%d\n", fs->state); spin_lock_irqsave(&swim3_lock, flags); fs->timeout_pending = 0; if (swim3_readbit(fs, SEEK_COMPLETE)) { out_8(&sw->select, RELAX); fs->state = locating; act(fs); goto unlock; } out_8(&sw->select, RELAX); if (fs->settle_time < 2*HZ) { ++fs->settle_time; set_timeout(fs, 1, settle_timeout); goto unlock; } swim3_err("%s", "Seek settle timeout\n"); swim3_end_request(fs, BLK_STS_IOERR, 0); fs->state = idle; unlock: spin_unlock_irqrestore(&swim3_lock, flags); } static void xfer_timeout(struct timer_list *t) { struct floppy_state *fs = from_timer(fs, t, timeout); struct swim3 __iomem *sw = fs->swim3; struct dbdma_regs __iomem *dr = fs->dma; unsigned long flags; int n; swim3_dbg("* xfer timeout, state=%d\n", fs->state); spin_lock_irqsave(&swim3_lock, flags); fs->timeout_pending = 0; out_le32(&dr->control, RUN << 16); /* We must wait a bit for dbdma to stop */ for (n = 0; (in_le32(&dr->status) & ACTIVE) && n < 1000; n++) udelay(1); out_8(&sw->intr_enable, 0); out_8(&sw->control_bic, WRITE_SECTORS | DO_ACTION); out_8(&sw->select, RELAX); swim3_err("Timeout %sing sector %ld\n", (rq_data_dir(fs->cur_req)==WRITE? "writ": "read"), (long)blk_rq_pos(fs->cur_req)); swim3_end_request(fs, BLK_STS_IOERR, 0); fs->state = idle; spin_unlock_irqrestore(&swim3_lock, flags); } static irqreturn_t swim3_interrupt(int irq, void *dev_id) { struct floppy_state *fs = (struct floppy_state *) dev_id; struct swim3 __iomem *sw = fs->swim3; int intr, err, n; int stat, resid; struct dbdma_regs __iomem *dr; struct dbdma_cmd *cp; unsigned long flags; struct request *req = fs->cur_req; swim3_dbg("* interrupt, state=%d\n", fs->state); spin_lock_irqsave(&swim3_lock, flags); intr = in_8(&sw->intr); err = (intr & ERROR_INTR)? in_8(&sw->error): 0; if ((intr & ERROR_INTR) && fs->state != do_transfer) swim3_err("Non-transfer error interrupt: state=%d, dir=%x, intr=%x, err=%x\n", fs->state, rq_data_dir(req), intr, err); switch (fs->state) { case locating: if (intr & SEEN_SECTOR) { out_8(&sw->control_bic, DO_ACTION | WRITE_SECTORS); out_8(&sw->select, RELAX); out_8(&sw->intr_enable, 0); del_timer(&fs->timeout); fs->timeout_pending = 0; if (sw->ctrack == 0xff) { swim3_err("%s", "Seen sector but cyl=ff?\n"); fs->cur_cyl = -1; if (fs->retries > 5) { swim3_end_request(fs, BLK_STS_IOERR, 0); fs->state = idle; } else { fs->state = jogging; act(fs); } break; } fs->cur_cyl = sw->ctrack; fs->cur_sector = sw->csect; if (fs->expect_cyl != -1 && fs->expect_cyl != fs->cur_cyl) swim3_err("Expected cyl %d, got %d\n", fs->expect_cyl, fs->cur_cyl); fs->state = do_transfer; act(fs); } break; case seeking: case jogging: if (sw->nseek == 0) { out_8(&sw->control_bic, DO_SEEK); out_8(&sw->select, RELAX); out_8(&sw->intr_enable, 0); del_timer(&fs->timeout); fs->timeout_pending = 0; if (fs->state == seeking) ++fs->retries; fs->state = settling; act(fs); } break; case settling: out_8(&sw->intr_enable, 0); del_timer(&fs->timeout); fs->timeout_pending = 0; act(fs); break; case do_transfer: if ((intr & (ERROR_INTR | TRANSFER_DONE)) == 0) break; out_8(&sw->intr_enable, 0); out_8(&sw->control_bic, WRITE_SECTORS | DO_ACTION); out_8(&sw->select, RELAX); del_timer(&fs->timeout); fs->timeout_pending = 0; dr = fs->dma; cp = fs->dma_cmd; if (rq_data_dir(req) == WRITE) ++cp; /* * Check that the main data transfer has finished. * On writing, the swim3 sometimes doesn't use * up all the bytes of the postamble, so we can still * see DMA active here. That doesn't matter as long * as all the sector data has been transferred. */ if ((intr & ERROR_INTR) == 0 && cp->xfer_status == 0) { /* wait a little while for DMA to complete */ for (n = 0; n < 100; ++n) { if (cp->xfer_status != 0) break; udelay(1); barrier(); } } /* turn off DMA */ out_le32(&dr->control, (RUN | PAUSE) << 16); stat = le16_to_cpu(cp->xfer_status); resid = le16_to_cpu(cp->res_count); if (intr & ERROR_INTR) { n = fs->scount - 1 - resid / 512; if (n > 0) { blk_update_request(req, 0, n << 9); fs->req_sector += n; } if (fs->retries < 5) { ++fs->retries; act(fs); } else { swim3_err("Error %sing block %ld (err=%x)\n", rq_data_dir(req) == WRITE? "writ": "read", (long)blk_rq_pos(req), err); swim3_end_request(fs, BLK_STS_IOERR, 0); fs->state = idle; } } else { if ((stat & ACTIVE) == 0 || resid != 0) { /* musta been an error */ swim3_err("fd dma error: stat=%x resid=%d\n", stat, resid); swim3_err(" state=%d, dir=%x, intr=%x, err=%x\n", fs->state, rq_data_dir(req), intr, err); swim3_end_request(fs, BLK_STS_IOERR, 0); fs->state = idle; break; } fs->retries = 0; if (swim3_end_request(fs, 0, fs->scount << 9)) { fs->req_sector += fs->scount; if (fs->req_sector > fs->secpertrack) { fs->req_sector -= fs->secpertrack; if (++fs->head > 1) { fs->head = 0; ++fs->req_cyl; } } act(fs); } else fs->state = idle; } break; default: swim3_err("Don't know what to do in state %d\n", fs->state); } spin_unlock_irqrestore(&swim3_lock, flags); return IRQ_HANDLED; } /* static void fd_dma_interrupt(int irq, void *dev_id) { } */ /* Called under the mutex to grab exclusive access to a drive */ static int grab_drive(struct floppy_state *fs, enum swim_state state, int interruptible) { unsigned long flags; swim3_dbg("%s", "-> grab drive\n"); spin_lock_irqsave(&swim3_lock, flags); if (fs->state != idle && fs->state != available) { ++fs->wanted; /* this will enable irqs in order to sleep */ if (!interruptible) wait_event_lock_irq(fs->wait, fs->state == available, swim3_lock); else if (wait_event_interruptible_lock_irq(fs->wait, fs->state == available, swim3_lock)) { --fs->wanted; spin_unlock_irqrestore(&swim3_lock, flags); return -EINTR; } --fs->wanted; } fs->state = state; spin_unlock_irqrestore(&swim3_lock, flags); return 0; } static void release_drive(struct floppy_state *fs) { struct request_queue *q = disks[fs->index]->queue; unsigned long flags; swim3_dbg("%s", "-> release drive\n"); spin_lock_irqsave(&swim3_lock, flags); fs->state = idle; spin_unlock_irqrestore(&swim3_lock, flags); blk_mq_freeze_queue(q); blk_mq_quiesce_queue(q); blk_mq_unquiesce_queue(q); blk_mq_unfreeze_queue(q); } static int fd_eject(struct floppy_state *fs) { int err, n; err = grab_drive(fs, ejecting, 1); if (err) return err; swim3_action(fs, EJECT); for (n = 20; n > 0; --n) { if (signal_pending(current)) { err = -EINTR; break; } swim3_select(fs, RELAX); schedule_timeout_interruptible(1); if (swim3_readbit(fs, DISK_IN) == 0) break; } swim3_select(fs, RELAX); udelay(150); fs->ejected = 1; release_drive(fs); return err; } static struct floppy_struct floppy_type = { 2880,18,2,80,0,0x1B,0x00,0xCF,0x6C,NULL }; /* 7 1.44MB 3.5" */ static int floppy_locked_ioctl(struct block_device *bdev, blk_mode_t mode, unsigned int cmd, unsigned long param) { struct floppy_state *fs = bdev->bd_disk->private_data; int err; if ((cmd & 0x80) && !capable(CAP_SYS_ADMIN)) return -EPERM; if (fs->mdev->media_bay && check_media_bay(fs->mdev->media_bay) != MB_FD) return -ENXIO; switch (cmd) { case FDEJECT: if (fs->ref_count != 1) return -EBUSY; err = fd_eject(fs); return err; case FDGETPRM: if (copy_to_user((void __user *) param, &floppy_type, sizeof(struct floppy_struct))) return -EFAULT; return 0; } return -ENOTTY; } static int floppy_ioctl(struct block_device *bdev, blk_mode_t mode, unsigned int cmd, unsigned long param) { int ret; mutex_lock(&swim3_mutex); ret = floppy_locked_ioctl(bdev, mode, cmd, param); mutex_unlock(&swim3_mutex); return ret; } static int floppy_open(struct gendisk *disk, blk_mode_t mode) { struct floppy_state *fs = disk->private_data; struct swim3 __iomem *sw = fs->swim3; int n, err = 0; if (fs->ref_count == 0) { if (fs->mdev->media_bay && check_media_bay(fs->mdev->media_bay) != MB_FD) return -ENXIO; out_8(&sw->setup, S_IBM_DRIVE | S_FCLK_DIV2); out_8(&sw->control_bic, 0xff); out_8(&sw->mode, 0x95); udelay(10); out_8(&sw->intr_enable, 0); out_8(&sw->control_bis, DRIVE_ENABLE | INTR_ENABLE); swim3_action(fs, MOTOR_ON); fs->write_prot = -1; fs->cur_cyl = -1; for (n = 0; n < 2 * HZ; ++n) { if (n >= HZ/30 && swim3_readbit(fs, SEEK_COMPLETE)) break; if (signal_pending(current)) { err = -EINTR; break; } swim3_select(fs, RELAX); schedule_timeout_interruptible(1); } if (err == 0 && (swim3_readbit(fs, SEEK_COMPLETE) == 0 || swim3_readbit(fs, DISK_IN) == 0)) err = -ENXIO; swim3_action(fs, SETMFM); swim3_select(fs, RELAX); } else if (fs->ref_count == -1 || mode & BLK_OPEN_EXCL) return -EBUSY; if (err == 0 && !(mode & BLK_OPEN_NDELAY) && (mode & (BLK_OPEN_READ | BLK_OPEN_WRITE))) { if (disk_check_media_change(disk)) floppy_revalidate(disk); if (fs->ejected) err = -ENXIO; } if (err == 0 && (mode & BLK_OPEN_WRITE)) { if (fs->write_prot < 0) fs->write_prot = swim3_readbit(fs, WRITE_PROT); if (fs->write_prot) err = -EROFS; } if (err) { if (fs->ref_count == 0) { swim3_action(fs, MOTOR_OFF); out_8(&sw->control_bic, DRIVE_ENABLE | INTR_ENABLE); swim3_select(fs, RELAX); } return err; } if (mode & BLK_OPEN_EXCL) fs->ref_count = -1; else ++fs->ref_count; return 0; } static int floppy_unlocked_open(struct gendisk *disk, blk_mode_t mode) { int ret; mutex_lock(&swim3_mutex); ret = floppy_open(disk, mode); mutex_unlock(&swim3_mutex); return ret; } static void floppy_release(struct gendisk *disk) { struct floppy_state *fs = disk->private_data; struct swim3 __iomem *sw = fs->swim3; mutex_lock(&swim3_mutex); if (fs->ref_count > 0) --fs->ref_count; else if (fs->ref_count == -1) fs->ref_count = 0; if (fs->ref_count == 0) { swim3_action(fs, MOTOR_OFF); out_8(&sw->control_bic, 0xff); swim3_select(fs, RELAX); } mutex_unlock(&swim3_mutex); } static unsigned int floppy_check_events(struct gendisk *disk, unsigned int clearing) { struct floppy_state *fs = disk->private_data; return fs->ejected ? DISK_EVENT_MEDIA_CHANGE : 0; } static int floppy_revalidate(struct gendisk *disk) { struct floppy_state *fs = disk->private_data; struct swim3 __iomem *sw; int ret, n; if (fs->mdev->media_bay && check_media_bay(fs->mdev->media_bay) != MB_FD) return -ENXIO; sw = fs->swim3; grab_drive(fs, revalidating, 0); out_8(&sw->intr_enable, 0); out_8(&sw->control_bis, DRIVE_ENABLE); swim3_action(fs, MOTOR_ON); /* necessary? */ fs->write_prot = -1; fs->cur_cyl = -1; mdelay(1); for (n = HZ; n > 0; --n) { if (swim3_readbit(fs, SEEK_COMPLETE)) break; if (signal_pending(current)) break; swim3_select(fs, RELAX); schedule_timeout_interruptible(1); } ret = swim3_readbit(fs, SEEK_COMPLETE) == 0 || swim3_readbit(fs, DISK_IN) == 0; if (ret) swim3_action(fs, MOTOR_OFF); else { fs->ejected = 0; swim3_action(fs, SETMFM); } swim3_select(fs, RELAX); release_drive(fs); return ret; } static const struct block_device_operations floppy_fops = { .open = floppy_unlocked_open, .release = floppy_release, .ioctl = floppy_ioctl, .check_events = floppy_check_events, }; static const struct blk_mq_ops swim3_mq_ops = { .queue_rq = swim3_queue_rq, }; static void swim3_mb_event(struct macio_dev* mdev, int mb_state) { struct floppy_state *fs = macio_get_drvdata(mdev); struct swim3 __iomem *sw; if (!fs) return; sw = fs->swim3; if (mb_state != MB_FD) return; /* Clear state */ out_8(&sw->intr_enable, 0); in_8(&sw->intr); in_8(&sw->error); } static int swim3_add_device(struct macio_dev *mdev, int index) { struct device_node *swim = mdev->ofdev.dev.of_node; struct floppy_state *fs = &floppy_states[index]; int rc = -EBUSY; fs->mdev = mdev; fs->index = index; /* Check & Request resources */ if (macio_resource_count(mdev) < 2) { swim3_err("%s", "No address in device-tree\n"); return -ENXIO; } if (macio_irq_count(mdev) < 1) { swim3_err("%s", "No interrupt in device-tree\n"); return -ENXIO; } if (macio_request_resource(mdev, 0, "swim3 (mmio)")) { swim3_err("%s", "Can't request mmio resource\n"); return -EBUSY; } if (macio_request_resource(mdev, 1, "swim3 (dma)")) { swim3_err("%s", "Can't request dma resource\n"); macio_release_resource(mdev, 0); return -EBUSY; } dev_set_drvdata(&mdev->ofdev.dev, fs); if (mdev->media_bay == NULL) pmac_call_feature(PMAC_FTR_SWIM3_ENABLE, swim, 0, 1); fs->state = idle; fs->swim3 = (struct swim3 __iomem *) ioremap(macio_resource_start(mdev, 0), 0x200); if (fs->swim3 == NULL) { swim3_err("%s", "Couldn't map mmio registers\n"); rc = -ENOMEM; goto out_release; } fs->dma = (struct dbdma_regs __iomem *) ioremap(macio_resource_start(mdev, 1), 0x200); if (fs->dma == NULL) { swim3_err("%s", "Couldn't map dma registers\n"); iounmap(fs->swim3); rc = -ENOMEM; goto out_release; } fs->swim3_intr = macio_irq(mdev, 0); fs->dma_intr = macio_irq(mdev, 1); fs->cur_cyl = -1; fs->cur_sector = -1; fs->secpercyl = 36; fs->secpertrack = 18; fs->total_secs = 2880; init_waitqueue_head(&fs->wait); fs->dma_cmd = (struct dbdma_cmd *) DBDMA_ALIGN(fs->dbdma_cmd_space); memset(fs->dma_cmd, 0, 2 * sizeof(struct dbdma_cmd)); fs->dma_cmd[1].command = cpu_to_le16(DBDMA_STOP); if (mdev->media_bay == NULL || check_media_bay(mdev->media_bay) == MB_FD) swim3_mb_event(mdev, MB_FD); if (request_irq(fs->swim3_intr, swim3_interrupt, 0, "SWIM3", fs)) { swim3_err("%s", "Couldn't request interrupt\n"); pmac_call_feature(PMAC_FTR_SWIM3_ENABLE, swim, 0, 0); goto out_unmap; } timer_setup(&fs->timeout, NULL, 0); swim3_info("SWIM3 floppy controller %s\n", mdev->media_bay ? "in media bay" : ""); return 0; out_unmap: iounmap(fs->dma); iounmap(fs->swim3); out_release: macio_release_resource(mdev, 0); macio_release_resource(mdev, 1); return rc; } static int swim3_attach(struct macio_dev *mdev, const struct of_device_id *match) { struct floppy_state *fs; struct gendisk *disk; int rc; if (floppy_count >= MAX_FLOPPIES) return -ENXIO; if (floppy_count == 0) { rc = register_blkdev(FLOPPY_MAJOR, "fd"); if (rc) return rc; } fs = &floppy_states[floppy_count]; memset(fs, 0, sizeof(*fs)); rc = blk_mq_alloc_sq_tag_set(&fs->tag_set, &swim3_mq_ops, 2, BLK_MQ_F_SHOULD_MERGE); if (rc) goto out_unregister; disk = blk_mq_alloc_disk(&fs->tag_set, fs); if (IS_ERR(disk)) { rc = PTR_ERR(disk); goto out_free_tag_set; } rc = swim3_add_device(mdev, floppy_count); if (rc) goto out_cleanup_disk; disk->major = FLOPPY_MAJOR; disk->first_minor = floppy_count; disk->minors = 1; disk->fops = &floppy_fops; disk->private_data = fs; disk->events = DISK_EVENT_MEDIA_CHANGE; disk->flags |= GENHD_FL_REMOVABLE | GENHD_FL_NO_PART; sprintf(disk->disk_name, "fd%d", floppy_count); set_capacity(disk, 2880); rc = add_disk(disk); if (rc) goto out_cleanup_disk; disks[floppy_count++] = disk; return 0; out_cleanup_disk: put_disk(disk); out_free_tag_set: blk_mq_free_tag_set(&fs->tag_set); out_unregister: if (floppy_count == 0) unregister_blkdev(FLOPPY_MAJOR, "fd"); return rc; } static const struct of_device_id swim3_match[] = { { .name = "swim3", }, { .compatible = "ohare-swim3" }, { .compatible = "swim3" }, { /* end of list */ } }; static struct macio_driver swim3_driver = { .driver = { .name = "swim3", .of_match_table = swim3_match, }, .probe = swim3_attach, #ifdef CONFIG_PMAC_MEDIABAY .mediabay_event = swim3_mb_event, #endif #if 0 .suspend = swim3_suspend, .resume = swim3_resume, #endif }; static int swim3_init(void) { macio_register_driver(&swim3_driver); return 0; } module_init(swim3_init) MODULE_LICENSE("GPL"); MODULE_AUTHOR("Paul Mackerras"); MODULE_ALIAS_BLOCKDEV_MAJOR(FLOPPY_MAJOR); |