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platform-intel.c
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platform-intel.c
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/*
* Intel(R) Matrix Storage Manager hardware and firmware support routines
*
* Copyright (C) 2008 Intel Corporation
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope 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
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin St - Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include "mdadm.h"
#include "platform-intel.h"
#include "probe_roms.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <dirent.h>
#include <fcntl.h>
#include <sys/mman.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <limits.h>
static int devpath_to_ll(const char *dev_path, const char *entry,
unsigned long long *val);
static __u16 devpath_to_vendor(const char *dev_path);
static void free_sys_dev(struct sys_dev **list)
{
while (*list) {
struct sys_dev *next = (*list)->next;
if ((*list)->path)
free((*list)->path);
free(*list);
*list = next;
}
}
struct sys_dev *find_driver_devices(const char *bus, const char *driver)
{
/* search sysfs for devices driven by 'driver' */
char path[292];
char link[256];
char *c;
DIR *driver_dir;
struct dirent *de;
struct sys_dev *head = NULL;
struct sys_dev *list = NULL;
enum sys_dev_type type;
unsigned long long dev_id;
unsigned long long class;
if (strcmp(driver, "isci") == 0)
type = SYS_DEV_SAS;
else if (strcmp(driver, "ahci") == 0)
type = SYS_DEV_SATA;
else if (strcmp(driver, "nvme") == 0)
type = SYS_DEV_NVME;
else
type = SYS_DEV_UNKNOWN;
sprintf(path, "/sys/bus/%s/drivers/%s", bus, driver);
driver_dir = opendir(path);
if (!driver_dir)
return NULL;
for (de = readdir(driver_dir); de; de = readdir(driver_dir)) {
int n;
/* is 'de' a device? check that the 'subsystem' link exists and
* that its target matches 'bus'
*/
sprintf(path, "/sys/bus/%s/drivers/%s/%s/subsystem",
bus, driver, de->d_name);
n = readlink(path, link, sizeof(link));
if (n < 0 || n >= (int)sizeof(link))
continue;
link[n] = '\0';
c = strrchr(link, '/');
if (!c)
continue;
if (strncmp(bus, c+1, strlen(bus)) != 0)
continue;
sprintf(path, "/sys/bus/%s/drivers/%s/%s",
bus, driver, de->d_name);
/* if it's not Intel device skip it. */
if (devpath_to_vendor(path) != 0x8086)
continue;
if (devpath_to_ll(path, "device", &dev_id) != 0)
continue;
if (devpath_to_ll(path, "class", &class) != 0)
continue;
/* start / add list entry */
if (!head) {
head = xmalloc(sizeof(*head));
list = head;
} else {
list->next = xmalloc(sizeof(*head));
list = list->next;
}
if (!list) {
free_sys_dev(&head);
break;
}
list->dev_id = (__u16) dev_id;
list->class = (__u32) class;
list->type = type;
list->path = realpath(path, NULL);
list->next = NULL;
if ((list->pci_id = strrchr(list->path, '/')) != NULL)
list->pci_id++;
}
closedir(driver_dir);
return head;
}
static struct sys_dev *intel_devices=NULL;
static time_t valid_time = 0;
struct sys_dev *device_by_id(__u16 device_id)
{
struct sys_dev *iter;
for (iter = intel_devices; iter != NULL; iter = iter->next)
if (iter->dev_id == device_id)
return iter;
return NULL;
}
static int devpath_to_ll(const char *dev_path, const char *entry, unsigned long long *val)
{
char path[strlen(dev_path) + strlen(entry) + 2];
int fd;
int n;
sprintf(path, "%s/%s", dev_path, entry);
fd = open(path, O_RDONLY);
if (fd < 0)
return -1;
n = sysfs_fd_get_ll(fd, val);
close(fd);
return n;
}
static __u16 devpath_to_vendor(const char *dev_path)
{
char path[strlen(dev_path) + strlen("/vendor") + 1];
char vendor[7];
int fd;
__u16 id = 0xffff;
int n;
sprintf(path, "%s/vendor", dev_path);
fd = open(path, O_RDONLY);
if (fd < 0)
return 0xffff;
n = read(fd, vendor, sizeof(vendor));
if (n == sizeof(vendor)) {
vendor[n - 1] = '\0';
id = strtoul(vendor, NULL, 16);
}
close(fd);
return id;
}
struct sys_dev *find_intel_devices(void)
{
struct sys_dev *ahci, *isci, *nvme;
if (valid_time > time(0) - 10)
return intel_devices;
if (intel_devices)
free_sys_dev(&intel_devices);
isci = find_driver_devices("pci", "isci");
ahci = find_driver_devices("pci", "ahci");
nvme = find_driver_devices("pci", "nvme");
if (!isci && !ahci) {
ahci = nvme;
} else if (!ahci) {
ahci = isci;
struct sys_dev *elem = ahci;
while (elem->next)
elem = elem->next;
elem->next = nvme;
} else {
struct sys_dev *elem = ahci;
while (elem->next)
elem = elem->next;
elem->next = isci;
while (elem->next)
elem = elem->next;
elem->next = nvme;
}
intel_devices = ahci;
valid_time = time(0);
return intel_devices;
}
/*
* PCI Expansion ROM Data Structure Format */
struct pciExpDataStructFormat {
__u8 ver[4];
__u16 vendorID;
__u16 deviceID;
__u16 devListOffset;
} __attribute__ ((packed));
static struct orom_entry oroms[SYS_DEV_MAX];
const struct orom_entry *get_oroms(void)
{
return (const struct orom_entry *)&oroms;
}
const struct imsm_orom *get_orom_by_device_id(__u16 dev_id)
{
int i;
struct devid_list *list;
for (i = 0; i < SYS_DEV_MAX; i++) {
for (list = oroms[i].devid_list; list; list = list->next) {
if (list->devid == dev_id)
return &oroms[i].orom;
}
}
return NULL;
}
static const struct imsm_orom *add_orom(const struct imsm_orom *orom)
{
int i;
for (i = 0; i < SYS_DEV_MAX; i++) {
if (&oroms[i].orom == orom)
return orom;
if (oroms[i].orom.signature[0] == 0) {
oroms[i].orom = *orom;
return &oroms[i].orom;
}
}
return NULL;
}
static void add_orom_device_id(const struct imsm_orom *orom, __u16 dev_id)
{
int i;
struct devid_list *list;
struct devid_list *prev = NULL;
for (i = 0; i < SYS_DEV_MAX; i++) {
if (&oroms[i].orom == orom) {
for (list = oroms[i].devid_list; list; prev = list, list = list->next) {
if (list->devid == dev_id)
return;
}
list = xmalloc(sizeof(struct devid_list));
list->devid = dev_id;
list->next = NULL;
if (prev == NULL)
oroms[i].devid_list = list;
else
prev->next = list;
return;
}
}
}
static int scan(const void *start, const void *end, const void *data)
{
int offset;
const struct imsm_orom *imsm_mem = NULL;
int len = (end - start);
struct pciExpDataStructFormat *ptr= (struct pciExpDataStructFormat *)data;
if (data + 0x18 > end) {
dprintf("cannot find pciExpDataStruct \n");
return 0;
}
dprintf("ptr->vendorID: %lx __le16_to_cpu(ptr->deviceID): %lx \n",
(ulong) __le16_to_cpu(ptr->vendorID),
(ulong) __le16_to_cpu(ptr->deviceID));
if (__le16_to_cpu(ptr->vendorID) != 0x8086)
return 0;
for (offset = 0; offset < len; offset += 4) {
const void *mem = start + offset;
if ((memcmp(mem, IMSM_OROM_SIGNATURE, 4) == 0)) {
imsm_mem = mem;
break;
}
}
if (!imsm_mem)
return 0;
const struct imsm_orom *orom = add_orom(imsm_mem);
if (ptr->devListOffset) {
const __u16 *dev_list = (void *)ptr + ptr->devListOffset;
int i;
for (i = 0; dev_list[i] != 0; i++)
add_orom_device_id(orom, dev_list[i]);
} else {
add_orom_device_id(orom, __le16_to_cpu(ptr->deviceID));
}
return 0;
}
const struct imsm_orom *imsm_platform_test(struct sys_dev *hba)
{
struct imsm_orom orom = {
.signature = IMSM_OROM_SIGNATURE,
.rlc = IMSM_OROM_RLC_RAID0 | IMSM_OROM_RLC_RAID1 |
IMSM_OROM_RLC_RAID10 | IMSM_OROM_RLC_RAID5,
.sss = IMSM_OROM_SSS_4kB | IMSM_OROM_SSS_8kB |
IMSM_OROM_SSS_16kB | IMSM_OROM_SSS_32kB |
IMSM_OROM_SSS_64kB | IMSM_OROM_SSS_128kB |
IMSM_OROM_SSS_256kB | IMSM_OROM_SSS_512kB |
IMSM_OROM_SSS_1MB | IMSM_OROM_SSS_2MB,
.dpa = IMSM_OROM_DISKS_PER_ARRAY,
.tds = IMSM_OROM_TOTAL_DISKS,
.vpa = IMSM_OROM_VOLUMES_PER_ARRAY,
.vphba = IMSM_OROM_VOLUMES_PER_HBA
};
orom.attr = orom.rlc | IMSM_OROM_ATTR_ChecksumVerify;
if (check_env("IMSM_TEST_OROM_NORAID5")) {
orom.rlc = IMSM_OROM_RLC_RAID0 | IMSM_OROM_RLC_RAID1 |
IMSM_OROM_RLC_RAID10;
}
if (check_env("IMSM_TEST_AHCI_EFI_NORAID5") && (hba->type == SYS_DEV_SAS)) {
orom.rlc = IMSM_OROM_RLC_RAID0 | IMSM_OROM_RLC_RAID1 |
IMSM_OROM_RLC_RAID10;
}
if (check_env("IMSM_TEST_SCU_EFI_NORAID5") && (hba->type == SYS_DEV_SATA)) {
orom.rlc = IMSM_OROM_RLC_RAID0 | IMSM_OROM_RLC_RAID1 |
IMSM_OROM_RLC_RAID10;
}
const struct imsm_orom *ret = add_orom(&orom);
add_orom_device_id(ret, hba->dev_id);
return ret;
}
static const struct imsm_orom *find_imsm_hba_orom(struct sys_dev *hba)
{
unsigned long align;
if (check_env("IMSM_TEST_OROM"))
return imsm_platform_test(hba);
/* return empty OROM capabilities in EFI test mode */
if (check_env("IMSM_TEST_AHCI_EFI") || check_env("IMSM_TEST_SCU_EFI"))
return NULL;
find_intel_devices();
if (intel_devices == NULL)
return NULL;
/* scan option-rom memory looking for an imsm signature */
if (check_env("IMSM_SAFE_OROM_SCAN"))
align = 2048;
else
align = 512;
if (probe_roms_init(align) != 0)
return NULL;
probe_roms();
/* ignore return value - True is returned if both adapater roms are found */
scan_adapter_roms(scan);
probe_roms_exit();
return get_orom_by_device_id(hba->dev_id);
}
#define GUID_STR_MAX 37 /* according to GUID format:
* xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx" */
#define EFI_GUID(a, b, c, d0, d1, d2, d3, d4, d5, d6, d7) \
((struct efi_guid) \
{{ (a) & 0xff, ((a) >> 8) & 0xff, ((a) >> 16) & 0xff, ((a) >> 24) & 0xff, \
(b) & 0xff, ((b) >> 8) & 0xff, \
(c) & 0xff, ((c) >> 8) & 0xff, \
(d0), (d1), (d2), (d3), (d4), (d5), (d6), (d7) }})
#define SYS_EFI_VAR_PATH "/sys/firmware/efi/vars"
#define SYS_EFIVARS_PATH "/sys/firmware/efi/efivars"
#define SCU_PROP "RstScuV"
#define AHCI_PROP "RstSataV"
#define AHCI_SSATA_PROP "RstsSatV"
#define AHCI_CSATA_PROP "RstCSatV"
#define VENDOR_GUID \
EFI_GUID(0x193dfefa, 0xa445, 0x4302, 0x99, 0xd8, 0xef, 0x3a, 0xad, 0x1a, 0x04, 0xc6)
#define PCI_CLASS_RAID_CNTRL 0x010400
static int read_efi_var(void *buffer, ssize_t buf_size, char *variable_name, struct efi_guid guid)
{
char path[PATH_MAX];
char buf[GUID_STR_MAX];
int fd;
ssize_t n;
snprintf(path, PATH_MAX, "%s/%s-%s", SYS_EFIVARS_PATH, variable_name, guid_str(buf, guid));
fd = open(path, O_RDONLY);
if (fd < 0)
return 1;
/* read the variable attributes and ignore it */
n = read(fd, buf, sizeof(__u32));
if (n < 0) {
close(fd);
return 1;
}
/* read the variable data */
n = read(fd, buffer, buf_size);
close(fd);
if (n < buf_size)
return 1;
return 0;
}
static int read_efi_variable(void *buffer, ssize_t buf_size, char *variable_name, struct efi_guid guid)
{
char path[PATH_MAX];
char buf[GUID_STR_MAX];
int dfd;
ssize_t n, var_data_len;
/* Try to read the variable using the new efivarfs interface first.
* If that fails, fall back to the old sysfs-efivars interface. */
if (!read_efi_var(buffer, buf_size, variable_name, guid))
return 0;
snprintf(path, PATH_MAX, "%s/%s-%s/size", SYS_EFI_VAR_PATH, variable_name, guid_str(buf, guid));
dprintf("EFI VAR: path=%s\n", path);
/* get size of variable data */
dfd = open(path, O_RDONLY);
if (dfd < 0)
return 1;
n = read(dfd, &buf, sizeof(buf));
close(dfd);
if (n < 0)
return 1;
buf[n] = '\0';
errno = 0;
var_data_len = strtoul(buf, NULL, 16);
if ((errno == ERANGE && (var_data_len == LONG_MAX))
|| (errno != 0 && var_data_len == 0))
return 1;
/* get data */
snprintf(path, PATH_MAX, "%s/%s-%s/data", SYS_EFI_VAR_PATH, variable_name, guid_str(buf, guid));
dprintf("EFI VAR: path=%s\n", path);
dfd = open(path, O_RDONLY);
if (dfd < 0)
return 1;
n = read(dfd, buffer, buf_size);
close(dfd);
if (n != var_data_len || n < buf_size) {
return 1;
}
return 0;
}
const struct imsm_orom *find_imsm_efi(struct sys_dev *hba)
{
struct imsm_orom orom;
const struct imsm_orom *ret;
int err;
if (check_env("IMSM_TEST_AHCI_EFI") || check_env("IMSM_TEST_SCU_EFI"))
return imsm_platform_test(hba);
/* OROM test is set, return that there is no EFI capabilities */
if (check_env("IMSM_TEST_OROM"))
return NULL;
if (hba->type == SYS_DEV_SATA && hba->class != PCI_CLASS_RAID_CNTRL)
return NULL;
err = read_efi_variable(&orom, sizeof(orom), hba->type == SYS_DEV_SAS ? SCU_PROP : AHCI_PROP, VENDOR_GUID);
/* try to read variable for second AHCI controller */
if (err && hba->type == SYS_DEV_SATA)
err = read_efi_variable(&orom, sizeof(orom), AHCI_SSATA_PROP, VENDOR_GUID);
/* try to read variable for combined AHCI controllers */
if (err && hba->type == SYS_DEV_SATA) {
static const struct imsm_orom *csata;
err = read_efi_variable(&orom, sizeof(orom), AHCI_CSATA_PROP, VENDOR_GUID);
if (!err) {
if (!csata)
csata = add_orom(&orom);
add_orom_device_id(csata, hba->dev_id);
return csata;
}
}
if (err)
return NULL;
ret = add_orom(&orom);
add_orom_device_id(ret, hba->dev_id);
return ret;
}
const struct imsm_orom *find_imsm_nvme(struct sys_dev *hba)
{
static const struct imsm_orom *nvme_orom;
if (hba->type != SYS_DEV_NVME)
return NULL;
if (!nvme_orom) {
struct imsm_orom nvme_orom_compat = {
.signature = IMSM_NVME_OROM_COMPAT_SIGNATURE,
.rlc = IMSM_OROM_RLC_RAID0 | IMSM_OROM_RLC_RAID1 |
IMSM_OROM_RLC_RAID10 | IMSM_OROM_RLC_RAID5,
.sss = IMSM_OROM_SSS_4kB | IMSM_OROM_SSS_8kB |
IMSM_OROM_SSS_16kB | IMSM_OROM_SSS_32kB |
IMSM_OROM_SSS_64kB | IMSM_OROM_SSS_128kB,
.dpa = IMSM_OROM_DISKS_PER_ARRAY_NVME,
.tds = IMSM_OROM_TOTAL_DISKS_NVME,
.vpa = IMSM_OROM_VOLUMES_PER_ARRAY,
.vphba = IMSM_OROM_TOTAL_DISKS_NVME / 2 * IMSM_OROM_VOLUMES_PER_ARRAY,
.attr = IMSM_OROM_ATTR_2TB | IMSM_OROM_ATTR_2TB_DISK,
.driver_features = IMSM_OROM_CAPABILITIES_EnterpriseSystem
};
nvme_orom = add_orom(&nvme_orom_compat);
}
add_orom_device_id(nvme_orom, hba->dev_id);
return nvme_orom;
}
const struct imsm_orom *find_imsm_capability(struct sys_dev *hba)
{
const struct imsm_orom *cap = get_orom_by_device_id(hba->dev_id);
if (cap)
return cap;
if (hba->type == SYS_DEV_NVME)
return find_imsm_nvme(hba);
if ((cap = find_imsm_efi(hba)) != NULL)
return cap;
if ((cap = find_imsm_hba_orom(hba)) != NULL)
return cap;
return NULL;
}
char *devt_to_devpath(dev_t dev)
{
char device[46];
sprintf(device, "/sys/dev/block/%d:%d/device", major(dev), minor(dev));
return realpath(device, NULL);
}
char *diskfd_to_devpath(int fd)
{
/* return the device path for a disk, return NULL on error or fd
* refers to a partition
*/
struct stat st;
if (fstat(fd, &st) != 0)
return NULL;
if (!S_ISBLK(st.st_mode))
return NULL;
return devt_to_devpath(st.st_rdev);
}
int path_attached_to_hba(const char *disk_path, const char *hba_path)
{
int rc;
if (check_env("IMSM_TEST_AHCI_DEV") ||
check_env("IMSM_TEST_SCU_DEV")) {
return 1;
}
if (!disk_path || !hba_path)
return 0;
dprintf("hba: %s - disk: %s\n", hba_path, disk_path);
if (strncmp(disk_path, hba_path, strlen(hba_path)) == 0)
rc = 1;
else
rc = 0;
return rc;
}
int devt_attached_to_hba(dev_t dev, const char *hba_path)
{
char *disk_path = devt_to_devpath(dev);
int rc = path_attached_to_hba(disk_path, hba_path);
if (disk_path)
free(disk_path);
return rc;
}
int disk_attached_to_hba(int fd, const char *hba_path)
{
char *disk_path = diskfd_to_devpath(fd);
int rc = path_attached_to_hba(disk_path, hba_path);
if (disk_path)
free(disk_path);
return rc;
}