/* * linux/drivers/firmware/edd.c * Copyright (C) 2002, 2003, 2004 Dell Inc. * by Matt Domsch <Matt_Domsch@dell.com> * disk signature by Matt Domsch, Andrew Wilks, and Sandeep K. Shandilya * legacy CHS by Patrick J. LoPresti <patl@users.sourceforge.net> * * BIOS Enhanced Disk Drive Services (EDD) * conformant to T13 Committee www.t13.org * projects 1572D, 1484D, 1386D, 1226DT * * This code takes information provided by BIOS EDD calls * fn41 - Check Extensions Present and * fn48 - Get Device Parameters with EDD extensions * made in setup.S, copied to safe structures in setup.c, * and presents it in sysfs. * * Please see http://linux.dell.com/edd/results.html for * the list of BIOSs which have been reported to implement EDD. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License v2.0 as published by * the Free Software Foundation * * 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. * */ #include <linux/module.h> #include <linux/string.h> #include <linux/types.h> #include <linux/init.h> #include <linux/stat.h> #include <linux/err.h> #include <linux/ctype.h> #include <linux/slab.h> #include <linux/limits.h> #include <linux/device.h> #include <linux/pci.h> #include <linux/blkdev.h> #include <linux/edd.h> #define EDD_VERSION "0.16" #define EDD_DATE "2004-Jun-25" MODULE_AUTHOR("Matt Domsch <Matt_Domsch@Dell.com>"); MODULE_DESCRIPTION("sysfs interface to BIOS EDD information"); MODULE_LICENSE("GPL"); MODULE_VERSION(EDD_VERSION); #define left (PAGE_SIZE - (p - buf) - 1) struct edd_device { unsigned int index; unsigned int mbr_signature; struct edd_info *info; struct kobject kobj; }; struct edd_attribute { struct attribute attr; ssize_t(*show) (struct edd_device * edev, char *buf); int (*test) (struct edd_device * edev); }; /* forward declarations */ static int edd_dev_is_type(struct edd_device *edev, const char *type); static struct pci_dev *edd_get_pci_dev(struct edd_device *edev); static struct edd_device *edd_devices[EDD_MBR_SIG_MAX]; #define EDD_DEVICE_ATTR(_name,_mode,_show,_test) \ struct edd_attribute edd_attr_##_name = { \ .attr = {.name = __stringify(_name), .mode = _mode }, \ .show = _show, \ .test = _test, \ }; static int edd_has_mbr_signature(struct edd_device *edev) { return edev->index < min_t(unsigned char, edd.mbr_signature_nr, EDD_MBR_SIG_MAX); } static int edd_has_edd_info(struct edd_device *edev) { return edev->index < min_t(unsigned char, edd.edd_info_nr, EDDMAXNR); } static inline struct edd_info * edd_dev_get_info(struct edd_device *edev) { return edev->info; } static inline void edd_dev_set_info(struct edd_device *edev, int i) { edev->index = i; if (edd_has_mbr_signature(edev)) edev->mbr_signature = edd.mbr_signature[i]; if (edd_has_edd_info(edev)) edev->info = &edd.edd_info[i]; } #define to_edd_attr(_attr) container_of(_attr,struct edd_attribute,attr) #define to_edd_device(obj) container_of(obj,struct edd_device,kobj) static ssize_t edd_attr_show(struct kobject * kobj, struct attribute *attr, char *buf) { struct edd_device *dev = to_edd_device(kobj); struct edd_attribute *edd_attr = to_edd_attr(attr); ssize_t ret = -EIO; if (edd_attr->show) ret = edd_attr->show(dev, buf); return ret; } static const struct sysfs_ops edd_attr_ops = { .show = edd_attr_show, }; static ssize_t edd_show_host_bus(struct edd_device *edev, char *buf) { struct edd_info *info; char *p = buf; int i; if (!edev) return -EINVAL; info = edd_dev_get_info(edev); if (!info || !buf) return -EINVAL; for (i = 0; i < 4; i++) { if (isprint(info->params.host_bus_type[i])) { p += scnprintf(p, left, "%c", info->params.host_bus_type[i]); } else { p += scnprintf(p, left, " "); } } if (!strncmp(info->params.host_bus_type, "ISA", 3)) { p += scnprintf(p, left, "\tbase_address: %x\n", info->params.interface_path.isa.base_address); } else if (!strncmp(info->params.host_bus_type, "PCIX", 4) || !strncmp(info->params.host_bus_type, "PCI", 3)) { p += scnprintf(p, left, "\t%02x:%02x.%d channel: %u\n", info->params.interface_path.pci.bus, info->params.interface_path.pci.slot, info->params.interface_path.pci.function, info->params.interface_path.pci.channel); } else if (!strncmp(info->params.host_bus_type, "IBND", 4) || !strncmp(info->params.host_bus_type, "XPRS", 4) || !strncmp(info->params.host_bus_type, "HTPT", 4)) { p += scnprintf(p, left, "\tTBD: %llx\n", info->params.interface_path.ibnd.reserved); } else { p += scnprintf(p, left, "\tunknown: %llx\n", info->params.interface_path.unknown.reserved); } return (p - buf); } static ssize_t edd_show_interface(struct edd_device *edev, char *buf) { struct edd_info *info; char *p = buf; int i; if (!edev) return -EINVAL; info = edd_dev_get_info(edev); if (!info || !buf) return -EINVAL; for (i = 0; i < 8; i++) { if (isprint(info->params.interface_type[i])) { p += scnprintf(p, left, "%c", info->params.interface_type[i]); } else { p += scnprintf(p, left, " "); } } if (!strncmp(info->params.interface_type, "ATAPI", 5)) { p += scnprintf(p, left, "\tdevice: %u lun: %u\n", info->params.device_path.atapi.device, info->params.device_path.atapi.lun); } else if (!strncmp(info->params.interface_type, "ATA", 3)) { p += scnprintf(p, left, "\tdevice: %u\n", info->params.device_path.ata.device); } else if (!strncmp(info->params.interface_type, "SCSI", 4)) { p += scnprintf(p, left, "\tid: %u lun: %llu\n", info->params.device_path.scsi.id, info->params.device_path.scsi.lun); } else if (!strncmp(info->params.interface_type, "USB", 3)) { p += scnprintf(p, left, "\tserial_number: %llx\n", info->params.device_path.usb.serial_number); } else if (!strncmp(info->params.interface_type, "1394", 4)) { p += scnprintf(p, left, "\teui: %llx\n", info->params.device_path.i1394.eui); } else if (!strncmp(info->params.interface_type, "FIBRE", 5)) { p += scnprintf(p, left, "\twwid: %llx lun: %llx\n", info->params.device_path.fibre.wwid, info->params.device_path.fibre.lun); } else if (!strncmp(info->params.interface_type, "I2O", 3)) { p += scnprintf(p, left, "\tidentity_tag: %llx\n", info->params.device_path.i2o.identity_tag); } else if (!strncmp(info->params.interface_type, "RAID", 4)) { p += scnprintf(p, left, "\tidentity_tag: %x\n", info->params.device_path.raid.array_number); } else if (!strncmp(info->params.interface_type, "SATA", 4)) { p += scnprintf(p, left, "\tdevice: %u\n", info->params.device_path.sata.device); } else { p += scnprintf(p, left, "\tunknown: %llx %llx\n", info->params.device_path.unknown.reserved1, info->params.device_path.unknown.reserved2); } return (p - buf); } /** * edd_show_raw_data() - copies raw data to buffer for userspace to parse * @edev: target edd_device * @buf: output buffer * * Returns: number of bytes written, or -EINVAL on failure */ static ssize_t edd_show_raw_data(struct edd_device *edev, char *buf) { struct edd_info *info; ssize_t len = sizeof (info->params); if (!edev) return -EINVAL; info = edd_dev_get_info(edev); if (!info || !buf) return -EINVAL; if (!(info->params.key == 0xBEDD || info->params.key == 0xDDBE)) len = info->params.length; /* In case of buggy BIOSs */ if (len > (sizeof(info->params))) len = sizeof(info->params); memcpy(buf, &info->params, len); return len; } static ssize_t edd_show_version(struct edd_device *edev, char *buf) { struct edd_info *info; char *p = buf; if (!edev) return -EINVAL; info = edd_dev_get_info(edev); if (!info || !buf) return -EINVAL; p += scnprintf(p, left, "0x%02x\n", info->version); return (p - buf); } static ssize_t edd_show_mbr_signature(struct edd_device *edev, char *buf) { char *p = buf; p += scnprintf(p, left, "0x%08x\n", edev->mbr_signature); return (p - buf); } static ssize_t edd_show_extensions(struct edd_device *edev, char *buf) { struct edd_info *info; char *p = buf; if (!edev) return -EINVAL; info = edd_dev_get_info(edev); if (!info || !buf) return -EINVAL; if (info->interface_support & EDD_EXT_FIXED_DISK_ACCESS) { p += scnprintf(p, left, "Fixed disk access\n"); } if (info->interface_support & EDD_EXT_DEVICE_LOCKING_AND_EJECTING) { p += scnprintf(p, left, "Device locking and ejecting\n"); } if (info->interface_support & EDD_EXT_ENHANCED_DISK_DRIVE_SUPPORT) { p += scnprintf(p, left, "Enhanced Disk Drive support\n"); } if (info->interface_support & EDD_EXT_64BIT_EXTENSIONS) { p += scnprintf(p, left, "64-bit extensions\n"); } return (p - buf); } static ssize_t edd_show_info_flags(struct edd_device *edev, char *buf) { struct edd_info *info; char *p = buf; if (!edev) return -EINVAL; info = edd_dev_get_info(edev); if (!info || !buf) return -EINVAL; if (info->params.info_flags & EDD_INFO_DMA_BOUNDARY_ERROR_TRANSPARENT) p += scnprintf(p, left, "DMA boundary error transparent\n"); if (info->params.info_flags & EDD_INFO_GEOMETRY_VALID) p += scnprintf(p, left, "geometry valid\n"); if (info->params.info_flags & EDD_INFO_REMOVABLE) p += scnprintf(p, left, "removable\n"); if (info->params.info_flags & EDD_INFO_WRITE_VERIFY) p += scnprintf(p, left, "write verify\n"); if (info->params.info_flags & EDD_INFO_MEDIA_CHANGE_NOTIFICATION) p += scnprintf(p, left, "media change notification\n"); if (info->params.info_flags & EDD_INFO_LOCKABLE) p += scnprintf(p, left, "lockable\n"); if (info->params.info_flags & EDD_INFO_NO_MEDIA_PRESENT) p += scnprintf(p, left, "no media present\n"); if (info->params.info_flags & EDD_INFO_USE_INT13_FN50) p += scnprintf(p, left, "use int13 fn50\n"); return (p - buf); } static ssize_t edd_show_legacy_max_cylinder(struct edd_device *edev, char *buf) { struct edd_info *info; char *p = buf; if (!edev) return -EINVAL; info = edd_dev_get_info(edev); if (!info || !buf) return -EINVAL; p += snprintf(p, left, "%u\n", info->legacy_max_cylinder); return (p - buf); } static ssize_t edd_show_legacy_max_head(struct edd_device *edev, char *buf) { struct edd_info *info; char *p = buf; if (!edev) return -EINVAL; info = edd_dev_get_info(edev); if (!info || !buf) return -EINVAL; p += snprintf(p, left, "%u\n", info->legacy_max_head); return (p - buf); } static ssize_t edd_show_legacy_sectors_per_track(struct edd_device *edev, char *buf) { struct edd_info *info; char *p = buf; if (!edev) return -EINVAL; info = edd_dev_get_info(edev); if (!info || !buf) return -EINVAL; p += snprintf(p, left, "%u\n", info->legacy_sectors_per_track); return (p - buf); } static ssize_t edd_show_default_cylinders(struct edd_device *edev, char *buf) { struct edd_info *info; char *p = buf; if (!edev) return -EINVAL; info = edd_dev_get_info(edev); if (!info || !buf) return -EINVAL; p += scnprintf(p, left, "%u\n", info->params.num_default_cylinders); return (p - buf); } static ssize_t edd_show_default_heads(struct edd_device *edev, char *buf) { struct edd_info *info; char *p = buf; if (!edev) return -EINVAL; info = edd_dev_get_info(edev); if (!info || !buf) return -EINVAL; p += scnprintf(p, left, "%u\n", info->params.num_default_heads); return (p - buf); } static ssize_t edd_show_default_sectors_per_track(struct edd_device *edev, char *buf) { struct edd_info *info; char *p = buf; if (!edev) return -EINVAL; info = edd_dev_get_info(edev); if (!info || !buf) return -EINVAL; p += scnprintf(p, left, "%u\n", info->params.sectors_per_track); return (p - buf); } static ssize_t edd_show_sectors(struct edd_device *edev, char *buf) { struct edd_info *info; char *p = buf; if (!edev) return -EINVAL; info = edd_dev_get_info(edev); if (!info || !buf) return -EINVAL; p += scnprintf(p, left, "%llu\n", info->params.number_of_sectors); return (p - buf); } /* * Some device instances may not have all the above attributes, * or the attribute values may be meaningless (i.e. if * the device is < EDD 3.0, it won't have host_bus and interface * information), so don't bother making files for them. Likewise * if the default_{cylinders,heads,sectors_per_track} values * are zero, the BIOS doesn't provide sane values, don't bother * creating files for them either. */ static int edd_has_legacy_max_cylinder(struct edd_device *edev) { struct edd_info *info; if (!edev) return 0; info = edd_dev_get_info(edev); if (!info) return 0; return info->legacy_max_cylinder > 0; } static int edd_has_legacy_max_head(struct edd_device *edev) { struct edd_info *info; if (!edev) return 0; info = edd_dev_get_info(edev); if (!info) return 0; return info->legacy_max_head > 0; } static int edd_has_legacy_sectors_per_track(struct edd_device *edev) { struct edd_info *info; if (!edev) return 0; info = edd_dev_get_info(edev); if (!info) return 0; return info->legacy_sectors_per_track > 0; } static int edd_has_default_cylinders(struct edd_device *edev) { struct edd_info *info; if (!edev) return 0; info = edd_dev_get_info(edev); if (!info) return 0; return info->params.num_default_cylinders > 0; } static int edd_has_default_heads(struct edd_device *edev) { struct edd_info *info; if (!edev) return 0; info = edd_dev_get_info(edev); if (!info) return 0; return info->params.num_default_heads > 0; } static int edd_has_default_sectors_per_track(struct edd_device *edev) { struct edd_info *info; if (!edev) return 0; info = edd_dev_get_info(edev); if (!info) return 0; return info->params.sectors_per_track > 0; } static int edd_has_edd30(struct edd_device *edev) { struct edd_info *info; int i, nonzero_path = 0; char c; if (!edev) return 0; info = edd_dev_get_info(edev); if (!info) return 0; if (!(info->params.key == 0xBEDD || info->params.key == 0xDDBE)) { return 0; } for (i = 30; i <= 73; i++) { c = *(((uint8_t *) info) + i + 4); if (c) { nonzero_path++; break; } } if (!nonzero_path) { return 0; } return 1; } static EDD_DEVICE_ATTR(raw_data, 0444, edd_show_raw_data, edd_has_edd_info); static EDD_DEVICE_ATTR(version, 0444, edd_show_version, edd_has_edd_info); static EDD_DEVICE_ATTR(extensions, 0444, edd_show_extensions, edd_has_edd_info); static EDD_DEVICE_ATTR(info_flags, 0444, edd_show_info_flags, edd_has_edd_info); static EDD_DEVICE_ATTR(sectors, 0444, edd_show_sectors, edd_has_edd_info); static EDD_DEVICE_ATTR(legacy_max_cylinder, 0444, edd_show_legacy_max_cylinder, edd_has_legacy_max_cylinder); static EDD_DEVICE_ATTR(legacy_max_head, 0444, edd_show_legacy_max_head, edd_has_legacy_max_head); static EDD_DEVICE_ATTR(legacy_sectors_per_track, 0444, edd_show_legacy_sectors_per_track, edd_has_legacy_sectors_per_track); static EDD_DEVICE_ATTR(default_cylinders, 0444, edd_show_default_cylinders, edd_has_default_cylinders); static EDD_DEVICE_ATTR(default_heads, 0444, edd_show_default_heads, edd_has_default_heads); static EDD_DEVICE_ATTR(default_sectors_per_track, 0444, edd_show_default_sectors_per_track, edd_has_default_sectors_per_track); static EDD_DEVICE_ATTR(interface, 0444, edd_show_interface, edd_has_edd30); static EDD_DEVICE_ATTR(host_bus, 0444, edd_show_host_bus, edd_has_edd30); static EDD_DEVICE_ATTR(mbr_signature, 0444, edd_show_mbr_signature, edd_has_mbr_signature); /* These are default attributes that are added for every edd * device discovered. There are none. */ static struct attribute * def_attrs[] = { NULL, }; /* These attributes are conditional and only added for some devices. */ static struct edd_attribute * edd_attrs[] = { &edd_attr_raw_data, &edd_attr_version, &edd_attr_extensions, &edd_attr_info_flags, &edd_attr_sectors, &edd_attr_legacy_max_cylinder, &edd_attr_legacy_max_head, &edd_attr_legacy_sectors_per_track, &edd_attr_default_cylinders, &edd_attr_default_heads, &edd_attr_default_sectors_per_track, &edd_attr_interface, &edd_attr_host_bus, &edd_attr_mbr_signature, NULL, }; /** * edd_release - free edd structure * @kobj: kobject of edd structure * * This is called when the refcount of the edd structure * reaches 0. This should happen right after we unregister, * but just in case, we use the release callback anyway. */ static void edd_release(struct kobject * kobj) { struct edd_device * dev = to_edd_device(kobj); kfree(dev); } static struct kobj_type edd_ktype = { .release = edd_release, .sysfs_ops = &edd_attr_ops, .default_attrs = def_attrs, }; static struct kset *edd_kset; /** * edd_dev_is_type() - is this EDD device a 'type' device? * @edev: target edd_device * @type: a host bus or interface identifier string per the EDD spec * * Returns 1 (TRUE) if it is a 'type' device, 0 otherwise. */ static int edd_dev_is_type(struct edd_device *edev, const char *type) { struct edd_info *info; if (!edev) return 0; info = edd_dev_get_info(edev); if (type && info) { if (!strncmp(info->params.host_bus_type, type, strlen(type)) || !strncmp(info->params.interface_type, type, strlen(type))) return 1; } return 0; } /** * edd_get_pci_dev() - finds pci_dev that matches edev * @edev: edd_device * * Returns pci_dev if found, or NULL */ static struct pci_dev * edd_get_pci_dev(struct edd_device *edev) { struct edd_info *info = edd_dev_get_info(edev); if (edd_dev_is_type(edev, "PCI")) { return pci_get_bus_and_slot(info->params.interface_path.pci.bus, PCI_DEVFN(info->params.interface_path.pci.slot, info->params.interface_path.pci. function)); } return NULL; } static int edd_create_symlink_to_pcidev(struct edd_device *edev) { struct pci_dev *pci_dev = edd_get_pci_dev(edev); int ret; if (!pci_dev) return 1; ret = sysfs_create_link(&edev->kobj,&pci_dev->dev.kobj,"pci_dev"); pci_dev_put(pci_dev); return ret; } static inline void edd_device_unregister(struct edd_device *edev) { kobject_put(&edev->kobj); } static void edd_populate_dir(struct edd_device * edev) { struct edd_attribute * attr; int error = 0; int i; for (i = 0; (attr = edd_attrs[i]) && !error; i++) { if (!attr->test || (attr->test && attr->test(edev))) error = sysfs_create_file(&edev->kobj,&attr->attr); } if (!error) { edd_create_symlink_to_pcidev(edev); } } static int edd_device_register(struct edd_device *edev, int i) { int error; if (!edev) return 1; edd_dev_set_info(edev, i); edev->kobj.kset = edd_kset; error = kobject_init_and_add(&edev->kobj, &edd_ktype, NULL, "int13_dev%02x", 0x80 + i); if (!error) { edd_populate_dir(edev); kobject_uevent(&edev->kobj, KOBJ_ADD); } return error; } static inline int edd_num_devices(void) { return max_t(unsigned char, min_t(unsigned char, EDD_MBR_SIG_MAX, edd.mbr_signature_nr), min_t(unsigned char, EDDMAXNR, edd.edd_info_nr)); } /** * edd_init() - creates sysfs tree of EDD data */ static int __init edd_init(void) { int i; int rc=0; struct edd_device *edev; printk(KERN_INFO "BIOS EDD facility v%s %s, %d devices found\n", EDD_VERSION, EDD_DATE, edd_num_devices()); if (!edd_num_devices()) { printk(KERN_INFO "EDD information not available.\n"); return -ENODEV; } edd_kset = kset_create_and_add("edd", NULL, firmware_kobj); if (!edd_kset) return -ENOMEM; for (i = 0; i < edd_num_devices(); i++) { edev = kzalloc(sizeof (*edev), GFP_KERNEL); if (!edev) { rc = -ENOMEM; goto out; } rc = edd_device_register(edev, i); if (rc) { kfree(edev); goto out; } edd_devices[i] = edev; } return 0; out: while (--i >= 0) edd_device_unregister(edd_devices[i]); kset_unregister(edd_kset); return rc; } static void __exit edd_exit(void) { int i; struct edd_device *edev; for (i = 0; i < edd_num_devices(); i++) { if ((edev = edd_devices[i])) edd_device_unregister(edev); } kset_unregister(edd_kset); } late_initcall(edd_init); module_exit(edd_exit);