/* $NetBSD: wdc.c,v 1.2 2015/07/11 10:32:45 kamil Exp $ */ /*- * Copyright (c) 2003 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by Manuel Bouyer. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include #include #include "boot.h" #include "wdvar.h" #define WDCDELAY 100 #define WDCNDELAY_RST 31000 * 10 static int __wdcwait_reset(struct wdc_channel *, int); static char *mkident(uint8_t *, int); static int wdcprobe(struct wdc_channel *); static int wdc_wait_for_ready(struct wdc_channel *); static int wdc_read_block(struct wdc_channel *, struct wdc_command *); static int wdccommand(struct wdc_channel *, struct wdc_command *); static int wdccommandext(struct wdc_channel *, struct wdc_command *); static int _wdc_exec_identify(struct wdc_channel *, int, void *); static struct wdc_channel ch; /* * Reset the controller. */ static int __wdcwait_reset(struct wdc_channel *chp, int drv_mask) { int timeout; uint8_t st0, st1; /* wait for BSY to deassert */ for (timeout = 0; timeout < WDCNDELAY_RST; timeout++) { WDC_WRITE_REG(chp, wd_sdh, WDSD_IBM); /* master */ delay(10); st0 = WDC_READ_REG(chp, wd_status); WDC_WRITE_REG(chp, wd_sdh, WDSD_IBM | 0x10); /* slave */ delay(10); st1 = WDC_READ_REG(chp, wd_status); if ((drv_mask & 0x01) == 0) { /* no master */ if ((drv_mask & 0x02) != 0 && (st1 & WDCS_BSY) == 0) { /* No master, slave is ready, it's done */ goto end; } } else if ((drv_mask & 0x02) == 0) { /* no slave */ if ((drv_mask & 0x01) != 0 && (st0 & WDCS_BSY) == 0) { /* No slave, master is ready, it's done */ goto end; } } else { /* Wait for both master and slave to be ready */ if ((st0 & WDCS_BSY) == 0 && (st1 & WDCS_BSY) == 0) { goto end; } } delay(WDCDELAY); } /* Reset timed out. Maybe it's because drv_mask was not right */ if (st0 & WDCS_BSY) drv_mask &= ~0x01; if (st1 & WDCS_BSY) drv_mask &= ~0x02; end: return drv_mask; } static char * mkident(uint8_t *src, int len) { static char local[40]; uint8_t *end; char *dst, *last; if (len > sizeof(local)) len = sizeof(local); dst = last = local; end = src + len - 1; /* reserve space for '\0' */ if (len < 2) goto out; /* skip leading white space */ while (*src != '\0' && src < end && *src == ' ') ++src; /* copy string, omitting trailing white space */ while (*src != '\0' && src < end) { *dst++ = *src; if (*src++ != ' ') last = dst; } out: *last = '\0'; return local; } /* Test to see controller with at last one attached drive is there. * Returns a bit for each possible drive found (0x01 for drive 0, * 0x02 for drive 1). * Logic: * - If a status register is at 0xff, assume there is no drive here * (ISA has pull-up resistors). Similarly if the status register has * the value we last wrote to the bus (for IDE interfaces without pullups). * If no drive at all -> return. * - reset the controller, wait for it to complete (may take up to 31s !). * If timeout -> return. */ static int wdcprobe(struct wdc_channel *chp) { uint8_t st0, st1; uint8_t drives = 0x03; uint8_t drive, cl, ch; uint8_t ident[DEV_BSIZE]; /* * Sanity check to see if the wdc channel responds at all. */ WDC_WRITE_REG(chp, wd_sdh, WDSD_IBM); delay(10); st0 = WDC_READ_REG(chp, wd_status); WDC_WRITE_REG(chp, wd_sdh, WDSD_IBM | 0x10); delay(10); st1 = WDC_READ_REG(chp, wd_status); if (st0 == 0xff || st0 == WDSD_IBM) drives &= ~0x01; if (st1 == 0xff || st1 == (WDSD_IBM | 0x10)) drives &= ~0x02; if (drives == 0) return 0; if (!(st0 & WDCS_DRDY)) drives &= ~0x01; if (!(st1 & WDCS_DRDY)) drives &= ~0x02; if (drives == 0) return 0; /* assert SRST, wait for reset to complete */ WDC_WRITE_REG(chp, wd_sdh, WDSD_IBM); delay(10); WDC_WRITE_CTLREG(chp, wd_aux_ctlr, WDCTL_RST | WDCTL_IDS); delay(1000); WDC_WRITE_CTLREG(chp, wd_aux_ctlr, WDCTL_IDS); delay(1000); (void) WDC_READ_REG(chp, wd_error); WDC_WRITE_CTLREG(chp, wd_aux_ctlr, WDCTL_4BIT); delay(10); drives = __wdcwait_reset(chp, drives); /* if reset failed, there's nothing here */ if (drives == 0) return 0; /* * Test presence of drives. First test register signatures looking for * ATAPI devices. If it's not an ATAPI and reset said there may be * something here assume it's ATA or OLD. Ghost will be killed later in * attach routine. */ for (drive = 0; drive < 2; drive++) { if ((drives & (1 << drive)) == 0) continue; /* * ATAPI device not support... */ WDC_WRITE_REG(chp, wd_sdh, WDSD_IBM | (drive << 4)); cl = WDC_READ_REG(chp, wd_cyl_lo); ch = WDC_READ_REG(chp, wd_cyl_hi); if (cl == 0x14 && ch == 0xeb) { drives &= ~(1 << drive); continue; } if (_wdc_exec_identify(chp, drive, ident) == 0) { struct ataparams *prms = (struct ataparams *)ident; char *model; model = mkident(prms->atap_model, sizeof(prms->atap_model)); printf("/dev/disk/ide/0/%s/0: <%s>\n", (drive == 0) ? "master" : "slave", model); } else printf("/dev/disk/ide/0/%s/0: identify failed\n", (drive == 0) ? "master" : "slave"); } return drives; } /* * Wait until the device is ready. */ int wdc_wait_for_ready(struct wdc_channel *chp) { u_int timeout; for (timeout = WDC_TIMEOUT; timeout > 0; --timeout) { if ((WDC_READ_REG(chp, wd_status) & (WDCS_BSY | WDCS_DRDY)) == WDCS_DRDY) return 0; } return ENXIO; } /* * Read one block off the device. */ int wdc_read_block(struct wdc_channel *chp, struct wdc_command *wd_c) { int i; uint16_t *ptr = (uint16_t *)wd_c->data; if (ptr == NULL) return EIO; if (wd_c->r_command == WDCC_IDENTIFY) for (i = wd_c->bcount; i > 0; i -= sizeof(uint16_t)) *ptr++ = WDC_READ_DATA(chp); else for (i = wd_c->bcount; i > 0; i -= sizeof(uint16_t)) *ptr++ = WDC_READ_DATA_STREAM(chp); return 0; } /* * Send a command to the device (CHS and LBA addressing). */ int wdccommand(struct wdc_channel *chp, struct wdc_command *wd_c) { #if 0 DPRINTF(("wdccommand(%d, %d, %d, %d, %d, %d)\n", wd_c->drive, wd_c->r_command, wd_c->r_cyl, wd_c->r_head, wd_c->r_sector, wd_c->bcount)); #endif WDC_WRITE_REG(chp, wd_features, wd_c->r_features); WDC_WRITE_REG(chp, wd_seccnt, wd_c->r_count); WDC_WRITE_REG(chp, wd_sector, wd_c->r_sector); WDC_WRITE_REG(chp, wd_cyl_lo, wd_c->r_cyl); WDC_WRITE_REG(chp, wd_cyl_hi, wd_c->r_cyl >> 8); WDC_WRITE_REG(chp, wd_sdh, WDSD_IBM | (wd_c->drive << 4) | wd_c->r_head); WDC_WRITE_REG(chp, wd_command, wd_c->r_command); if (wdc_wait_for_ready(chp) != 0) return ENXIO; if (WDC_READ_REG(chp, wd_status) & WDCS_ERR) { printf("/dev/disk/ide/0/%s/0: error %x\n", (wd_c->drive == 0) ? "master" : "slave", WDC_READ_REG(chp, wd_error)); return ENXIO; } return 0; } /* * Send a command to the device (LBA48 addressing). */ int wdccommandext(struct wdc_channel *chp, struct wdc_command *wd_c) { #if 0 DPRINTF(("%s(%d, %x, %" PRId64 ", %d)\n", __func__, wd_c->drive, wd_c->r_command, wd_c->r_blkno, wd_c->r_count)); #endif /* Select drive, head, and addressing mode. */ WDC_WRITE_REG(chp, wd_sdh, (wd_c->drive << 4) | WDSD_LBA); /* previous */ WDC_WRITE_REG(chp, wd_features, 0); WDC_WRITE_REG(chp, wd_seccnt, wd_c->r_count >> 8); WDC_WRITE_REG(chp, wd_lba_hi, wd_c->r_blkno >> 40); WDC_WRITE_REG(chp, wd_lba_mi, wd_c->r_blkno >> 32); WDC_WRITE_REG(chp, wd_lba_lo, wd_c->r_blkno >> 24); /* current */ WDC_WRITE_REG(chp, wd_features, 0); WDC_WRITE_REG(chp, wd_seccnt, wd_c->r_count); WDC_WRITE_REG(chp, wd_lba_hi, wd_c->r_blkno >> 16); WDC_WRITE_REG(chp, wd_lba_mi, wd_c->r_blkno >> 8); WDC_WRITE_REG(chp, wd_lba_lo, wd_c->r_blkno); /* Send command. */ WDC_WRITE_REG(chp, wd_command, wd_c->r_command); if (wdc_wait_for_ready(chp) != 0) return ENXIO; if (WDC_READ_REG(chp, wd_status) & WDCS_ERR) { printf("/dev/disk/ide/0/%s/0: error %x\n", (wd_c->drive == 0) ? "master" : "slave", WDC_READ_REG(chp, wd_error)); return ENXIO; } return 0; } static int _wdc_exec_identify(struct wdc_channel *chp, int drive, void *data) { struct wdc_command wd_c; int error; memset(&wd_c, 0, sizeof(wd_c)); wd_c.drive = drive; wd_c.r_command = WDCC_IDENTIFY; wd_c.bcount = DEV_BSIZE; wd_c.data = data; if ((error = wdccommand(chp, &wd_c)) != 0) return error; return wdc_read_block(chp, &wd_c); } /* * Initialize the device. */ int wdc_init(int addr) { struct wdc_channel tmp; int i; memset(&ch, 0, sizeof(ch)); /* set up cmd/ctl registers */ tmp.c_cmdbase = addr; #define WDC_ISA_AUXREG_OFFSET 0x206 tmp.c_ctlbase = addr + WDC_ISA_AUXREG_OFFSET; tmp.c_data = addr + wd_data; for (i = 0; i < WDC_NPORTS; i++) tmp.c_cmdreg[i] = tmp.c_cmdbase + i; /* set up shadow registers */ tmp.c_cmdreg[wd_status] = tmp.c_cmdreg[wd_command]; tmp.c_cmdreg[wd_features] = tmp.c_cmdreg[wd_precomp]; if (wdcprobe(&tmp) == 0) return ENXIO; ch = tmp; return 0; } /* * Issue 'device identify' command. */ int wdc_exec_identify(struct wd_softc *wd, void *data) { struct wdc_channel *chp; if (wd->sc_ctlr != 0) return ENOTSUP; if (ch.c_cmdbase == 0) return ENOENT; chp = &ch; return _wdc_exec_identify(chp, wd->sc_unit, data); } /* * Issue 'read' command. */ int wdc_exec_read(struct wd_softc *wd, uint8_t cmd, daddr_t blkno, void *data) { struct wdc_command wd_c; struct wdc_channel *chp; int error; bool lba, lba48; if (wd->sc_ctlr != 0) return ENOTSUP; if (ch.c_cmdbase == 0) return ENOENT; chp = &ch; memset(&wd_c, 0, sizeof(wd_c)); lba = false; lba48 = false; wd_c.data = data; wd_c.r_count = 1; wd_c.r_features = 0; wd_c.drive = wd->sc_unit; wd_c.bcount = wd->sc_label.d_secsize; if ((wd->sc_flags & WDF_LBA48) != 0 && blkno > wd->sc_capacity28) lba48 = true; else if ((wd->sc_flags & WDF_LBA) != 0) lba = true; if (lba48) { /* LBA48 */ wd_c.r_command = atacmd_to48(cmd); wd_c.r_blkno = blkno; } else if (lba) { /* LBA */ wd_c.r_command = cmd; wd_c.r_sector = (blkno >> 0) & 0xff; wd_c.r_cyl = (blkno >> 8) & 0xffff; wd_c.r_head = (blkno >> 24) & 0x0f; wd_c.r_head |= WDSD_LBA; } else { /* CHS */ wd_c.r_command = cmd; wd_c.r_sector = blkno % wd->sc_label.d_nsectors; wd_c.r_sector++; /* Sectors begin with 1, not 0. */ blkno /= wd->sc_label.d_nsectors; wd_c.r_head = blkno % wd->sc_label.d_ntracks; blkno /= wd->sc_label.d_ntracks; wd_c.r_cyl = blkno; wd_c.r_head |= WDSD_CHS; } if (lba48) error = wdccommandext(chp, &wd_c); else error = wdccommand(chp, &wd_c); if (error != 0) return error; return wdc_read_block(chp, &wd_c); }