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[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [packages/] [redboot/] [v2_0/] [src/] [fs/] [ide.c] - Rev 631
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//========================================================================== // // ide.c // // RedBoot IDE support // //========================================================================== //####ECOSGPLCOPYRIGHTBEGIN#### // ------------------------------------------- // This file is part of eCos, the Embedded Configurable Operating System. // Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc. // Copyright (C) 2003 Gary Thomas <gary@mind.be> // // eCos 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. // // eCos 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. // // You should have received a copy of the GNU General Public License along // with eCos; if not, write to the Free Software Foundation, Inc., // 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. // // As a special exception, if other files instantiate templates or use macros // or inline functions from this file, or you compile this file and link it // with other works to produce a work based on this file, this file does not // by itself cause the resulting work to be covered by the GNU General Public // License. However the source code for this file must still be made available // in accordance with section (3) of the GNU General Public License. // // This exception does not invalidate any other reasons why a work based on // this file might be covered by the GNU General Public License. // // Alternative licenses for eCos may be arranged by contacting Red Hat, Inc. // at http://sources.redhat.com/ecos/ecos-license/ // ------------------------------------------- //####ECOSGPLCOPYRIGHTEND#### //========================================================================== //#####DESCRIPTIONBEGIN#### // // Author(s): msalter // Contributors: msalter // Date: 2001-07-14 // Purpose: // Description: // // This code is part of RedBoot (tm). // //####DESCRIPTIONEND#### // //========================================================================== #include <redboot.h> #include <cyg/hal/hal_io.h> #include <fs/disk.h> #include <fs/ide.h> static int ide_read(struct disk *d, cyg_uint32 start_sector, cyg_uint32 *buf, cyg_uint8 nr_sectors); static disk_funs_t ide_funs = { ide_read }; static struct ide_priv ide_privs[HAL_IDE_NUM_CONTROLLERS * 2]; static inline void __wait_for_ready(int ctlr) { cyg_uint8 status; do { HAL_IDE_READ_UINT8(ctlr, IDE_REG_STATUS, status); } while (status & (IDE_STAT_BSY | IDE_STAT_DRQ)); } static inline int __wait_for_drq(int ctlr) { cyg_uint8 status; CYGACC_CALL_IF_DELAY_US(10); do { HAL_IDE_READ_UINT8(ctlr, IDE_REG_STATUS, status); if (status & IDE_STAT_DRQ) return 1; } while (status & IDE_STAT_BSY); return 0; } static int ide_reset(int ctlr) { cyg_uint8 status; int delay; HAL_IDE_WRITE_CONTROL(ctlr, 6); // polled mode, reset asserted CYGACC_CALL_IF_DELAY_US(5000); HAL_IDE_WRITE_CONTROL(ctlr, 2); // polled mode, reset cleared CYGACC_CALL_IF_DELAY_US((cyg_uint32)50000); // wait 30 seconds max for not busy for (delay = 0; delay < 300; ++delay) { CYGACC_CALL_IF_DELAY_US((cyg_uint32)100000); HAL_IDE_READ_UINT8(ctlr, IDE_REG_STATUS, status); // bail out early on bogus status if ((status & (IDE_STAT_BSY|IDE_STAT_DRDY)) == (IDE_STAT_BSY|IDE_STAT_DRDY)) break; if (!(status & IDE_STAT_BSY)) return 1; } return 0; } static int ide_ident(int ctlr, int dev, int is_packet_dev, cyg_uint16 *buf) { int i; HAL_IDE_WRITE_UINT8(ctlr, IDE_REG_DEVICE, dev << 4); HAL_IDE_WRITE_UINT8(ctlr, IDE_REG_COMMAND, is_packet_dev ? 0xA1 : 0xEC); CYGACC_CALL_IF_DELAY_US((cyg_uint32)50000); if (!__wait_for_drq(ctlr)) return 0; for (i = 0; i < (SECTOR_SIZE / sizeof(cyg_uint16)); i++, buf++) HAL_IDE_READ_UINT16(ctlr, IDE_REG_DATA, *buf); return 1; } static int ide_read_sectors(int ctlr, int dev, cyg_uint32 start, cyg_uint8 count, cyg_uint16 *buf) { int i, j; cyg_uint16 *p; HAL_IDE_WRITE_UINT8(ctlr, IDE_REG_COUNT, count); HAL_IDE_WRITE_UINT8(ctlr, IDE_REG_LBALOW, start & 0xff); HAL_IDE_WRITE_UINT8(ctlr, IDE_REG_LBAMID, (start >> 8) & 0xff); HAL_IDE_WRITE_UINT8(ctlr, IDE_REG_LBAHI, (start >> 16) & 0xff); HAL_IDE_WRITE_UINT8(ctlr, IDE_REG_DEVICE, ((start >> 24) & 0xf) | (dev << 4) | 0x40); HAL_IDE_WRITE_UINT8(ctlr, IDE_REG_COMMAND, 0x20); for(p = buf, i = 0; i < count; i++) { if (!__wait_for_drq(ctlr)) { diag_printf("%s: NO DRQ for ide%d, device %d.\n", __FUNCTION__, ctlr, dev); return 0; } for (j = 0; j < (SECTOR_SIZE / sizeof(cyg_uint16)); j++, p++) HAL_IDE_READ_UINT16(ctlr, IDE_REG_DATA, *p); } return 1; } // max number of sectors to xfer during a single packet command #define MAX_CD_XFER 16 static inline int send_packet_command(int ctlr, int dev, cyg_uint16 len, cyg_uint16 *pkt, int pktlen) { int i; cyg_uint8 status, reason; HAL_IDE_WRITE_UINT8(ctlr, IDE_REG_FEATURES, 0); HAL_IDE_WRITE_UINT8(ctlr, IDE_REG_COUNT, 0); HAL_IDE_WRITE_UINT8(ctlr, IDE_REG_LBALOW, 0); HAL_IDE_WRITE_UINT8(ctlr, IDE_REG_LBAMID, len & 0xff); HAL_IDE_WRITE_UINT8(ctlr, IDE_REG_LBAHI, (len >> 8) & 0xff); HAL_IDE_WRITE_UINT8(ctlr, IDE_REG_DEVICE, dev << 4); HAL_IDE_WRITE_UINT8(ctlr, IDE_REG_COMMAND, 0xA0); if (!__wait_for_drq(ctlr)) { diag_printf("%s: NO DRQ for ide%d, device %d.\n", __FUNCTION__, ctlr, dev); return 0; } // send packet for (i = 0; i < (pktlen/sizeof(cyg_uint16)); i++) HAL_IDE_WRITE_UINT16(ctlr, IDE_REG_DATA, pkt[i]); // wait for not busy transferring packet do { HAL_IDE_READ_UINT8(ctlr, IDE_REG_STATUS, status); HAL_IDE_READ_UINT8(ctlr, IDE_REG_REASON, reason); if ((status & (IDE_STAT_BSY | IDE_STAT_DRQ)) == IDE_STAT_DRQ) if (reason & IDE_REASON_COD) continue; // still wanting packet data (should timeout here) } while (status & IDE_STAT_BSY); return 1; } #define READ_COUNT(x) \ { unsigned char tmp; \ HAL_IDE_READ_UINT8(ctlr, IDE_REG_LBAMID, tmp); \ (x) = tmp; \ HAL_IDE_READ_UINT8(ctlr, IDE_REG_LBAHI, tmp); \ (x) = cdcount |= (tmp << 8); \ } // Read the sense data static int request_sense(int ctlr, int dev, cyg_uint16 count, cyg_uint16 *buf) { int i; cyg_uint16 cdcount, pkt[6]; unsigned char status, *cpkt = (unsigned char *)pkt; // Fill in REQUEST SENSE packet command block memset(cpkt, 0, sizeof(pkt)); cpkt[0] = 0x03; cpkt[4] = 254; // allocation length if (!send_packet_command(ctlr, dev, count, pkt, sizeof(pkt))) return 0; HAL_IDE_READ_UINT8(ctlr, IDE_REG_STATUS, status); if (!(status & IDE_STAT_DRQ)) { if (status & IDE_STAT_SERVICE) { unsigned char reason; HAL_IDE_READ_UINT8(ctlr, IDE_REG_REASON, reason); diag_printf("%s: SERVICE request for ide%d, device %d, status[%02x], reason[%02x].\n", __FUNCTION__, ctlr, dev, status, reason); } return 0; } READ_COUNT(cdcount); if (cdcount != count) diag_printf("%s: ide%d, dev%d: his cnt[%d] our count[%d].\n", __FUNCTION__, ctlr, dev, cdcount, count); for(i = 0; i < (cdcount / sizeof(*buf)); i++, buf++) HAL_IDE_READ_UINT16(ctlr, IDE_REG_DATA, *buf); // wait for not busy transferring data do { HAL_IDE_READ_UINT8(ctlr, IDE_REG_STATUS, status); } while ((status & (IDE_STAT_BSY | IDE_STAT_DRQ)) == IDE_STAT_DRQ); return cdcount; } // Interpret the sense data static int handle_sense(int ctlr, int dev, cyg_uint8 count, cyg_uint16 *buf) { #if 0 unsigned char *p = (char *)buf; diag_printf("%s: %d bytes:\n", __FUNCTION__, count); diag_printf("sense key[%02x] additional sense[%02x]\n", p[2], p[12]); #endif return 1; } static int do_packet_read(int ctlr, int dev, cyg_uint32 start, cyg_uint8 count, cyg_uint16 *buf) { int i, retry_cnt; cyg_uint16 cdcount, pkt[6], sense[127]; unsigned char status, *cpkt = (unsigned char *)pkt; // get count number of whole cdrom sectors while (count) { retry_cnt = 3; i = (count > MAX_CD_XFER) ? MAX_CD_XFER : count; retry: // Fill in READ(10) packet command block memset(cpkt, 0, sizeof(pkt)); cpkt[0] = 0x28; // READ(10) cpkt[2] = (start >> 24) & 0xff; cpkt[3] = (start >> 16) & 0xff; cpkt[4] = (start >> 8) & 0xff; cpkt[5] = (start >> 0) & 0xff; cpkt[7] = (i >> 8) & 0xff; cpkt[8] = i & 0xff; if (!send_packet_command(ctlr, dev, i * CDROM_SECTOR_SIZE, pkt, sizeof(pkt))) return 0; HAL_IDE_READ_UINT8(ctlr, IDE_REG_STATUS, status); if (!(status & IDE_STAT_DRQ)) { if (status & IDE_STAT_SERVICE) { unsigned char reason; int sense_count; HAL_IDE_READ_UINT8(ctlr, IDE_REG_REASON, reason); #if 1 diag_printf("%s: SERVICE request for ide%d, device %d, status[%02x], reason[%02x].\n", __FUNCTION__, ctlr, dev, status, reason); #endif sense_count = request_sense(ctlr, dev, sizeof(sense), sense); if (sense_count) { handle_sense(ctlr, dev, sense_count, sense); if (retry_cnt--) goto retry; } } return 0; } count -= i; start += i; READ_COUNT(cdcount); if (cdcount != (i * CDROM_SECTOR_SIZE)) diag_printf("%s: ide%d, dev%d: his cnt[%d] our count[%d].\n", __FUNCTION__, ctlr, dev, cdcount, i * CDROM_SECTOR_SIZE); for(i = 0; i < (cdcount / sizeof(*buf)); i++, buf++) HAL_IDE_READ_UINT16(ctlr, IDE_REG_DATA, *buf); // wait for not busy transferring data do { HAL_IDE_READ_UINT8(ctlr, IDE_REG_STATUS, status); } while ((status & (IDE_STAT_BSY | IDE_STAT_DRQ)) == IDE_STAT_DRQ); } return 1; } static int ide_packet_read_sectors(int ctlr, int dev, cyg_uint32 start, cyg_uint8 count, cyg_uint16 *buf) { int i, extra; cyg_uint32 cdstart; static cyg_uint16 cdsec_buf[CDROM_SECTOR_SIZE/sizeof(cyg_uint16)]; cdstart = (start + SECTORS_PER_CDROM_SECTOR-1) / SECTORS_PER_CDROM_SECTOR; // align to cdrom sector boundary. if (start % SECTORS_PER_CDROM_SECTOR) { if (!ide_packet_read_sectors(ctlr, dev, cdstart * SECTORS_PER_CDROM_SECTOR, SECTORS_PER_CDROM_SECTOR, cdsec_buf)) return 0; i = SECTORS_PER_CDROM_SECTOR - (start % SECTORS_PER_CDROM_SECTOR); if (i > count) i = count; memcpy(buf, cdsec_buf + ((start % CDROM_SECTOR_SIZE) * SECTOR_SIZE), i * SECTOR_SIZE); count -= i; buf += (i * SECTOR_SIZE) / sizeof(*buf); ++cdstart; } extra = count % SECTORS_PER_CDROM_SECTOR; count /= SECTORS_PER_CDROM_SECTOR; if (count) { if (!do_packet_read(ctlr, dev, cdstart, count, buf)) return 0; buf += count * SECTORS_PER_CDROM_SECTOR * SECTOR_SIZE; } if (extra) { // read cdrom sector if (!ide_packet_read_sectors(ctlr, dev, cdstart * SECTORS_PER_CDROM_SECTOR, extra, cdsec_buf)) return 0; memcpy(buf, cdsec_buf, extra * SECTOR_SIZE); } return 1; } static int ide_read(struct disk *d, cyg_uint32 start_sec, cyg_uint32 *buf, cyg_uint8 nr_secs) { struct ide_priv *p = (struct ide_priv *)(d->private); if (p->flags & IDE_DEV_PACKET) return ide_packet_read_sectors(p->controller, p->drive, start_sec, nr_secs, (cyg_uint16 *)buf); return ide_read_sectors(p->controller, p->drive, start_sec, nr_secs, (cyg_uint16 *)buf); } static void ide_init(void) { cyg_uint32 buf[SECTOR_SIZE/sizeof(cyg_uint32)], u32; cyg_uint16 u16; cyg_uint8 u8; int i, j; disk_t disk; struct ide_priv *priv; #define DEV_INIT_VAL ((j << 4) | 0xA0) HAL_IDE_INIT(); CYGACC_CALL_IF_DELAY_US(5); priv = ide_privs; for (i = 0; i < HAL_IDE_NUM_CONTROLLERS; i++) { // soft reset the devices on this controller if (!ide_reset(i)) continue; // 2 devices per controller for (j = 0; j < 2; j++, priv++) { priv->controller = i; priv->drive = j; priv->flags = 0; // This is reminiscent of a memory test. We write a value // to a certain location (device register), then write a // different value somewhere else so that the first value // is not hanging on the bus, then we read back the first // value to see if the write was succesful. // HAL_IDE_WRITE_UINT8(i, IDE_REG_DEVICE, DEV_INIT_VAL); HAL_IDE_WRITE_UINT8(i, IDE_REG_FEATURES, 0); CYGACC_CALL_IF_DELAY_US(50000); HAL_IDE_READ_UINT8(i, IDE_REG_DEVICE, u8); if (u8 != DEV_INIT_VAL) { diag_printf("IDE failed to identify unit %d - wrote: %x, read: %x\n", i, DEV_INIT_VAL, u8); continue; } // device present priv->flags |= IDE_DEV_PRESENT; if (ide_ident(i, j, 0, (cyg_uint16 *)buf) <= 0) { if (ide_ident(i, j, 1, (cyg_uint16 *)buf) <= 0) { priv->flags = 0; continue; // can't identify device } else { u16 = *(cyg_uint16 *)((char *)buf + IDE_DEVID_GENCONFIG); if (((u16 >> 8) & 0x1f) != 5) { diag_printf("Non-CDROM ATAPI device #%d - skipped\n", i); continue; } priv->flags |= IDE_DEV_PACKET; } } memset(&disk, 0, sizeof(disk)); disk.funs = &ide_funs; disk.private = priv; disk.kind = DISK_IDE_HD; // until proven otherwise if (priv->flags & IDE_DEV_PACKET) { u16 = *(cyg_uint16 *)((char *)buf + IDE_DEVID_GENCONFIG); if (((u16 >> 8) & 0x1f) == 5) disk.kind = DISK_IDE_CDROM; } else { u32 = *(cyg_uint32 *)((char *)buf + IDE_DEVID_LBA_CAPACITY); disk.nr_sectors = u32; } if (!disk_register(&disk)) return; } } } RedBoot_init(ide_init, RedBoot_INIT_FIRST);
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