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|
// SPDX-License-Identifier: GPL-2.0
/*
* DIAG 0x320 support and certificate store handling
*
* Copyright IBM Corp. 2023
* Author(s): Anastasia Eskova <anastasia.eskova@ibm.com>
*/
#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
#include <linux/delay.h>
#include <linux/device.h>
#include <linux/fs.h>
#include <linux/init.h>
#include <linux/kernel.h>
#include <linux/key-type.h>
#include <linux/key.h>
#include <linux/keyctl.h>
#include <linux/kobject.h>
#include <linux/module.h>
#include <linux/seq_file.h>
#include <linux/slab.h>
#include <linux/sysfs.h>
#include <crypto/sha2.h>
#include <keys/user-type.h>
#include <asm/debug.h>
#include <asm/diag.h>
#include <asm/ebcdic.h>
#include <asm/sclp.h>
#define DIAG_MAX_RETRIES 10
#define VCE_FLAGS_VALID_MASK 0x80
#define ISM_LEN_DWORDS 4
#define VCSSB_LEN_BYTES 128
#define VCSSB_LEN_NO_CERTS 4
#define VCB_LEN_NO_CERTS 64
#define VC_NAME_LEN_BYTES 64
#define CERT_STORE_KEY_TYPE_NAME "cert_store_key"
#define CERT_STORE_KEYRING_NAME "cert_store"
static debug_info_t *cert_store_dbf;
static debug_info_t *cert_store_hexdump;
#define pr_dbf_msg(fmt, ...) \
debug_sprintf_event(cert_store_dbf, 3, fmt "\n", ## __VA_ARGS__)
enum diag320_subcode {
DIAG320_SUBCODES = 0,
DIAG320_STORAGE = 1,
DIAG320_CERT_BLOCK = 2,
};
enum diag320_rc {
DIAG320_RC_OK = 0x0001,
DIAG320_RC_CS_NOMATCH = 0x0306,
};
/* Verification Certificates Store Support Block (VCSSB). */
struct vcssb {
u32 vcssb_length;
u8 pad_0x04[3];
u8 version;
u8 pad_0x08[8];
u32 cs_token;
u8 pad_0x14[12];
u16 total_vc_index_count;
u16 max_vc_index_count;
u8 pad_0x24[28];
u32 max_vce_length;
u32 max_vcxe_length;
u8 pad_0x48[8];
u32 max_single_vcb_length;
u32 total_vcb_length;
u32 max_single_vcxb_length;
u32 total_vcxb_length;
u8 pad_0x60[32];
} __packed __aligned(8);
/* Verification Certificate Entry (VCE) Header. */
struct vce_header {
u32 vce_length;
u8 flags;
u8 key_type;
u16 vc_index;
u8 vc_name[VC_NAME_LEN_BYTES]; /* EBCDIC */
u8 vc_format;
u8 pad_0x49;
u16 key_id_length;
u8 pad_0x4c;
u8 vc_hash_type;
u16 vc_hash_length;
u8 pad_0x50[4];
u32 vc_length;
u8 pad_0x58[8];
u16 vc_hash_offset;
u16 vc_offset;
u8 pad_0x64[28];
} __packed __aligned(4);
/* Verification Certificate Block (VCB) Header. */
struct vcb_header {
u32 vcb_input_length;
u8 pad_0x04[4];
u16 first_vc_index;
u16 last_vc_index;
u32 pad_0x0c;
u32 cs_token;
u8 pad_0x14[12];
u32 vcb_output_length;
u8 pad_0x24[3];
u8 version;
u16 stored_vc_count;
u16 remaining_vc_count;
u8 pad_0x2c[20];
} __packed __aligned(4);
/* Verification Certificate Block (VCB). */
struct vcb {
struct vcb_header vcb_hdr;
u8 vcb_buf[];
} __packed __aligned(4);
/* Verification Certificate Entry (VCE). */
struct vce {
struct vce_header vce_hdr;
u8 cert_data_buf[];
} __packed __aligned(4);
static void cert_store_key_describe(const struct key *key, struct seq_file *m)
{
char ascii[VC_NAME_LEN_BYTES + 1];
/*
* First 64 bytes of the key description is key name in EBCDIC CP 500.
* Convert it to ASCII for displaying in /proc/keys.
*/
strscpy(ascii, key->description, sizeof(ascii));
EBCASC_500(ascii, VC_NAME_LEN_BYTES);
seq_puts(m, ascii);
seq_puts(m, &key->description[VC_NAME_LEN_BYTES]);
if (key_is_positive(key))
seq_printf(m, ": %u", key->datalen);
}
/*
* Certificate store key type takes over properties of
* user key but cannot be updated.
*/
static struct key_type key_type_cert_store_key = {
.name = CERT_STORE_KEY_TYPE_NAME,
.preparse = user_preparse,
.free_preparse = user_free_preparse,
.instantiate = generic_key_instantiate,
.revoke = user_revoke,
.destroy = user_destroy,
.describe = cert_store_key_describe,
.read = user_read,
};
/* Logging functions. */
static void pr_dbf_vcb(const struct vcb *b)
{
pr_dbf_msg("VCB Header:");
pr_dbf_msg("vcb_input_length: %d", b->vcb_hdr.vcb_input_length);
pr_dbf_msg("first_vc_index: %d", b->vcb_hdr.first_vc_index);
pr_dbf_msg("last_vc_index: %d", b->vcb_hdr.last_vc_index);
pr_dbf_msg("cs_token: %d", b->vcb_hdr.cs_token);
pr_dbf_msg("vcb_output_length: %d", b->vcb_hdr.vcb_output_length);
pr_dbf_msg("version: %d", b->vcb_hdr.version);
pr_dbf_msg("stored_vc_count: %d", b->vcb_hdr.stored_vc_count);
pr_dbf_msg("remaining_vc_count: %d", b->vcb_hdr.remaining_vc_count);
}
static void pr_dbf_vce(const struct vce *e)
{
unsigned char vc_name[VC_NAME_LEN_BYTES + 1];
char log_string[VC_NAME_LEN_BYTES + 40];
pr_dbf_msg("VCE Header:");
pr_dbf_msg("vce_hdr.vce_length: %d", e->vce_hdr.vce_length);
pr_dbf_msg("vce_hdr.flags: %d", e->vce_hdr.flags);
pr_dbf_msg("vce_hdr.key_type: %d", e->vce_hdr.key_type);
pr_dbf_msg("vce_hdr.vc_index: %d", e->vce_hdr.vc_index);
pr_dbf_msg("vce_hdr.vc_format: %d", e->vce_hdr.vc_format);
pr_dbf_msg("vce_hdr.key_id_length: %d", e->vce_hdr.key_id_length);
pr_dbf_msg("vce_hdr.vc_hash_type: %d", e->vce_hdr.vc_hash_type);
pr_dbf_msg("vce_hdr.vc_hash_length: %d", e->vce_hdr.vc_hash_length);
pr_dbf_msg("vce_hdr.vc_hash_offset: %d", e->vce_hdr.vc_hash_offset);
pr_dbf_msg("vce_hdr.vc_length: %d", e->vce_hdr.vc_length);
pr_dbf_msg("vce_hdr.vc_offset: %d", e->vce_hdr.vc_offset);
/* Certificate name in ASCII. */
memcpy(vc_name, e->vce_hdr.vc_name, VC_NAME_LEN_BYTES);
EBCASC_500(vc_name, VC_NAME_LEN_BYTES);
vc_name[VC_NAME_LEN_BYTES] = '\0';
snprintf(log_string, sizeof(log_string),
"index: %d vce_hdr.vc_name (ASCII): %s",
e->vce_hdr.vc_index, vc_name);
debug_text_event(cert_store_hexdump, 3, log_string);
/* Certificate data. */
debug_text_event(cert_store_hexdump, 3, "VCE: Certificate data start");
debug_event(cert_store_hexdump, 3, (u8 *)e->cert_data_buf, 128);
debug_text_event(cert_store_hexdump, 3, "VCE: Certificate data end");
debug_event(cert_store_hexdump, 3,
(u8 *)e->cert_data_buf + e->vce_hdr.vce_length - 128, 128);
}
static void pr_dbf_vcssb(const struct vcssb *s)
{
debug_text_event(cert_store_hexdump, 3, "DIAG320 Subcode1");
debug_event(cert_store_hexdump, 3, (u8 *)s, VCSSB_LEN_BYTES);
pr_dbf_msg("VCSSB:");
pr_dbf_msg("vcssb_length: %u", s->vcssb_length);
pr_dbf_msg("version: %u", s->version);
pr_dbf_msg("cs_token: %u", s->cs_token);
pr_dbf_msg("total_vc_index_count: %u", s->total_vc_index_count);
pr_dbf_msg("max_vc_index_count: %u", s->max_vc_index_count);
pr_dbf_msg("max_vce_length: %u", s->max_vce_length);
pr_dbf_msg("max_vcxe_length: %u", s->max_vce_length);
pr_dbf_msg("max_single_vcb_length: %u", s->max_single_vcb_length);
pr_dbf_msg("total_vcb_length: %u", s->total_vcb_length);
pr_dbf_msg("max_single_vcxb_length: %u", s->max_single_vcxb_length);
pr_dbf_msg("total_vcxb_length: %u", s->total_vcxb_length);
}
static int __diag320(unsigned long subcode, void *addr)
{
union register_pair rp = { .even = (unsigned long)addr, };
asm volatile(
" diag %[rp],%[subcode],0x320\n"
"0: nopr %%r7\n"
EX_TABLE(0b, 0b)
: [rp] "+d" (rp.pair)
: [subcode] "d" (subcode)
: "cc", "memory");
return rp.odd;
}
static int diag320(unsigned long subcode, void *addr)
{
diag_stat_inc(DIAG_STAT_X320);
return __diag320(subcode, addr);
}
/*
* Calculate SHA256 hash of the VCE certificate and compare it to hash stored in
* VCE. Return -EINVAL if hashes don't match.
*/
static int check_certificate_hash(const struct vce *vce)
{
u8 hash[SHA256_DIGEST_SIZE];
u16 vc_hash_length;
u8 *vce_hash;
vce_hash = (u8 *)vce + vce->vce_hdr.vc_hash_offset;
vc_hash_length = vce->vce_hdr.vc_hash_length;
sha256((u8 *)vce + vce->vce_hdr.vc_offset, vce->vce_hdr.vc_length, hash);
if (memcmp(vce_hash, hash, vc_hash_length) == 0)
return 0;
pr_dbf_msg("SHA256 hash of received certificate does not match");
debug_text_event(cert_store_hexdump, 3, "VCE hash:");
debug_event(cert_store_hexdump, 3, vce_hash, SHA256_DIGEST_SIZE);
debug_text_event(cert_store_hexdump, 3, "Calculated hash:");
debug_event(cert_store_hexdump, 3, hash, SHA256_DIGEST_SIZE);
return -EINVAL;
}
static int check_certificate_valid(const struct vce *vce)
{
if (!(vce->vce_hdr.flags & VCE_FLAGS_VALID_MASK)) {
pr_dbf_msg("Certificate entry is invalid");
return -EINVAL;
}
if (vce->vce_hdr.vc_format != 1) {
pr_dbf_msg("Certificate format is not supported");
return -EINVAL;
}
if (vce->vce_hdr.vc_hash_type != 1) {
pr_dbf_msg("Hash type is not supported");
return -EINVAL;
}
return check_certificate_hash(vce);
}
static struct key *get_user_session_keyring(void)
{
key_ref_t us_keyring_ref;
us_keyring_ref = lookup_user_key(KEY_SPEC_USER_SESSION_KEYRING,
KEY_LOOKUP_CREATE, KEY_NEED_LINK);
if (IS_ERR(us_keyring_ref)) {
pr_dbf_msg("Couldn't get user session keyring: %ld",
PTR_ERR(us_keyring_ref));
return ERR_PTR(-ENOKEY);
}
key_ref_put(us_keyring_ref);
return key_ref_to_ptr(us_keyring_ref);
}
/* Invalidate all keys from cert_store keyring. */
static int invalidate_keyring_keys(struct key *keyring)
{
unsigned long num_keys, key_index;
size_t keyring_payload_len;
key_serial_t *key_array;
struct key *current_key;
int rc;
keyring_payload_len = key_type_keyring.read(keyring, NULL, 0);
num_keys = keyring_payload_len / sizeof(key_serial_t);
key_array = kcalloc(num_keys, sizeof(key_serial_t), GFP_KERNEL);
if (!key_array)
return -ENOMEM;
rc = key_type_keyring.read(keyring, (char *)key_array, keyring_payload_len);
if (rc != keyring_payload_len) {
pr_dbf_msg("Couldn't read keyring payload");
goto out;
}
for (key_index = 0; key_index < num_keys; key_index++) {
current_key = key_lookup(key_array[key_index]);
pr_dbf_msg("Invalidating key %08x", current_key->serial);
key_invalidate(current_key);
key_put(current_key);
rc = key_unlink(keyring, current_key);
if (rc) {
pr_dbf_msg("Couldn't unlink key %08x: %d", current_key->serial, rc);
break;
}
}
out:
kfree(key_array);
return rc;
}
static struct key *find_cs_keyring(void)
{
key_ref_t cs_keyring_ref;
struct key *cs_keyring;
cs_keyring_ref = keyring_search(make_key_ref(get_user_session_keyring(), true),
&key_type_keyring, CERT_STORE_KEYRING_NAME,
false);
if (!IS_ERR(cs_keyring_ref)) {
cs_keyring = key_ref_to_ptr(cs_keyring_ref);
key_ref_put(cs_keyring_ref);
goto found;
}
/* Search default locations: thread, process, session keyrings */
cs_keyring = request_key(&key_type_keyring, CERT_STORE_KEYRING_NAME, NULL);
if (IS_ERR(cs_keyring))
return NULL;
key_put(cs_keyring);
found:
return cs_keyring;
}
static void cleanup_cs_keys(void)
{
struct key *cs_keyring;
cs_keyring = find_cs_keyring();
if (!cs_keyring)
return;
pr_dbf_msg("Found cert_store keyring. Purging...");
/*
* Remove cert_store_key_type in case invalidation
* of old cert_store keys failed (= severe error).
*/
if (invalidate_keyring_keys(cs_keyring))
unregister_key_type(&key_type_cert_store_key);
keyring_clear(cs_keyring);
key_invalidate(cs_keyring);
key_put(cs_keyring);
key_unlink(get_user_session_keyring(), cs_keyring);
}
static struct key *create_cs_keyring(void)
{
static struct key *cs_keyring;
/* Cleanup previous cs_keyring and all associated keys if any. */
cleanup_cs_keys();
cs_keyring = keyring_alloc(CERT_STORE_KEYRING_NAME, GLOBAL_ROOT_UID,
GLOBAL_ROOT_GID, current_cred(),
(KEY_POS_ALL & ~KEY_POS_SETATTR) | KEY_USR_VIEW | KEY_USR_READ,
KEY_ALLOC_NOT_IN_QUOTA | KEY_ALLOC_SET_KEEP,
NULL, get_user_session_keyring());
if (IS_ERR(cs_keyring)) {
pr_dbf_msg("Can't allocate cert_store keyring");
return NULL;
}
pr_dbf_msg("Successfully allocated cert_store keyring: %08x", cs_keyring->serial);
/*
* In case a previous clean-up ran into an
* error and unregistered key type.
*/
register_key_type(&key_type_cert_store_key);
return cs_keyring;
}
/*
* Allocate memory and create key description in format
* [key name in EBCDIC]:[VCE index]:[CS token].
* Return a pointer to key description or NULL if memory
* allocation failed. Memory should be freed by caller.
*/
static char *get_key_description(struct vcssb *vcssb, const struct vce *vce)
{
size_t len, name_len;
u32 cs_token;
char *desc;
cs_token = vcssb->cs_token;
/* Description string contains "%64s:%04u:%08u\0". */
name_len = sizeof(vce->vce_hdr.vc_name);
len = name_len + 1 + 4 + 1 + 8 + 1;
desc = kmalloc(len, GFP_KERNEL);
if (!desc)
return NULL;
memcpy(desc, vce->vce_hdr.vc_name, name_len);
sprintf(desc + name_len, ":%04u:%08u", vce->vce_hdr.vc_index, cs_token);
return desc;
}
/*
* Create a key of type "cert_store_key" using the data from VCE for key
* payload and key description. Link the key to "cert_store" keyring.
*/
static int create_key_from_vce(struct vcssb *vcssb, struct vce *vce,
struct key *keyring)
{
key_ref_t newkey;
char *desc;
int rc;
desc = get_key_description(vcssb, vce);
if (!desc)
return -ENOMEM;
newkey = key_create_or_update(
make_key_ref(keyring, true), CERT_STORE_KEY_TYPE_NAME,
desc, (u8 *)vce + vce->vce_hdr.vc_offset,
vce->vce_hdr.vc_length,
(KEY_POS_ALL & ~KEY_POS_SETATTR) | KEY_USR_VIEW | KEY_USR_READ,
KEY_ALLOC_NOT_IN_QUOTA);
rc = PTR_ERR_OR_ZERO(newkey);
if (rc) {
pr_dbf_msg("Couldn't create a key from Certificate Entry (%d)", rc);
rc = -ENOKEY;
goto out;
}
key_ref_put(newkey);
out:
kfree(desc);
return rc;
}
/* Get Verification Certificate Storage Size block with DIAG320 subcode2. */
static int get_vcssb(struct vcssb *vcssb)
{
int diag320_rc;
memset(vcssb, 0, sizeof(*vcssb));
vcssb->vcssb_length = VCSSB_LEN_BYTES;
diag320_rc = diag320(DIAG320_STORAGE, vcssb);
pr_dbf_vcssb(vcssb);
if (diag320_rc != DIAG320_RC_OK) {
pr_dbf_msg("Diag 320 Subcode 1 returned bad RC: %04x", diag320_rc);
return -EIO;
}
if (vcssb->vcssb_length == VCSSB_LEN_NO_CERTS) {
pr_dbf_msg("No certificates available for current configuration");
return -ENOKEY;
}
return 0;
}
static u32 get_4k_mult_vcb_size(struct vcssb *vcssb)
{
return round_up(vcssb->max_single_vcb_length, PAGE_SIZE);
}
/* Fill input fields of single-entry VCB that will be read by LPAR. */
static void fill_vcb_input(struct vcssb *vcssb, struct vcb *vcb, u16 index)
{
memset(vcb, 0, sizeof(*vcb));
vcb->vcb_hdr.vcb_input_length = get_4k_mult_vcb_size(vcssb);
vcb->vcb_hdr.cs_token = vcssb->cs_token;
/* Request single entry. */
vcb->vcb_hdr.first_vc_index = index;
vcb->vcb_hdr.last_vc_index = index;
}
static void extract_vce_from_sevcb(struct vcb *vcb, struct vce *vce)
{
struct vce *extracted_vce;
extracted_vce = (struct vce *)vcb->vcb_buf;
memcpy(vce, vcb->vcb_buf, extracted_vce->vce_hdr.vce_length);
pr_dbf_vce(vce);
}
static int get_sevcb(struct vcssb *vcssb, u16 index, struct vcb *vcb)
{
int rc, diag320_rc;
fill_vcb_input(vcssb, vcb, index);
diag320_rc = diag320(DIAG320_CERT_BLOCK, vcb);
pr_dbf_msg("Diag 320 Subcode2 RC %2x", diag320_rc);
pr_dbf_vcb(vcb);
switch (diag320_rc) {
case DIAG320_RC_OK:
rc = 0;
if (vcb->vcb_hdr.vcb_output_length == VCB_LEN_NO_CERTS) {
pr_dbf_msg("No certificate entry for index %u", index);
rc = -ENOKEY;
} else if (vcb->vcb_hdr.remaining_vc_count != 0) {
/* Retry on insufficient space. */
pr_dbf_msg("Couldn't get all requested certificates");
rc = -EAGAIN;
}
break;
case DIAG320_RC_CS_NOMATCH:
pr_dbf_msg("Certificate Store token mismatch");
rc = -EAGAIN;
break;
default:
pr_dbf_msg("Diag 320 Subcode2 returned bad rc (0x%4x)", diag320_rc);
rc = -EINVAL;
break;
}
return rc;
}
/*
* Allocate memory for single-entry VCB, get VCB via DIAG320 subcode 2 call,
* extract VCE and create a key from its' certificate.
*/
static int create_key_from_sevcb(struct vcssb *vcssb, u16 index,
struct key *keyring)
{
struct vcb *vcb;
struct vce *vce;
int rc;
rc = -ENOMEM;
vcb = vmalloc(get_4k_mult_vcb_size(vcssb));
vce = vmalloc(vcssb->max_single_vcb_length - sizeof(vcb->vcb_hdr));
if (!vcb || !vce)
goto out;
rc = get_sevcb(vcssb, index, vcb);
if (rc)
goto out;
extract_vce_from_sevcb(vcb, vce);
rc = check_certificate_valid(vce);
if (rc)
goto out;
rc = create_key_from_vce(vcssb, vce, keyring);
if (rc)
goto out;
pr_dbf_msg("Successfully created key from Certificate Entry %d", index);
out:
vfree(vce);
vfree(vcb);
return rc;
}
/*
* Request a single-entry VCB for each VCE available for the partition.
* Create a key from it and link it to cert_store keyring. If no keys
* could be created (i.e. VCEs were invalid) return -ENOKEY.
*/
static int add_certificates_to_keyring(struct vcssb *vcssb, struct key *keyring)
{
int rc, index, count, added;
count = 0;
added = 0;
/* Certificate Store entries indices start with 1 and have no gaps. */
for (index = 1; index < vcssb->total_vc_index_count + 1; index++) {
pr_dbf_msg("Creating key from VCE %u", index);
rc = create_key_from_sevcb(vcssb, index, keyring);
count++;
if (rc == -EAGAIN)
return rc;
if (rc)
pr_dbf_msg("Creating key from VCE %u failed (%d)", index, rc);
else
added++;
}
if (added == 0) {
pr_dbf_msg("Processed %d entries. No keys created", count);
return -ENOKEY;
}
pr_info("Added %d of %d keys to cert_store keyring", added, count);
/*
* Do not allow to link more keys to certificate store keyring after all
* the VCEs were processed.
*/
rc = keyring_restrict(make_key_ref(keyring, true), NULL, NULL);
if (rc)
pr_dbf_msg("Failed to set restriction to cert_store keyring (%d)", rc);
return 0;
}
/*
* Check which DIAG320 subcodes are installed.
* Return -ENOENT if subcodes 1 or 2 are not available.
*/
static int query_diag320_subcodes(void)
{
unsigned long ism[ISM_LEN_DWORDS];
int rc;
rc = diag320(0, ism);
if (rc != DIAG320_RC_OK) {
pr_dbf_msg("DIAG320 subcode query returned %04x", rc);
return -ENOENT;
}
debug_text_event(cert_store_hexdump, 3, "DIAG320 Subcode 0");
debug_event(cert_store_hexdump, 3, ism, sizeof(ism));
if (!test_bit_inv(1, ism) || !test_bit_inv(2, ism)) {
pr_dbf_msg("Not all required DIAG320 subcodes are installed");
return -ENOENT;
}
return 0;
}
/*
* Check if Certificate Store is supported by the firmware and DIAG320 subcodes
* 1 and 2 are installed. Create cert_store keyring and link all certificates
* available for the current partition to it as "cert_store_key" type
* keys. On refresh or error invalidate cert_store keyring and destroy
* all keys of "cert_store_key" type.
*/
static int fill_cs_keyring(void)
{
struct key *cs_keyring;
struct vcssb *vcssb;
int rc;
rc = -ENOMEM;
vcssb = kmalloc(VCSSB_LEN_BYTES, GFP_KERNEL);
if (!vcssb)
goto cleanup_keys;
rc = -ENOENT;
if (!sclp.has_diag320) {
pr_dbf_msg("Certificate Store is not supported");
goto cleanup_keys;
}
rc = query_diag320_subcodes();
if (rc)
goto cleanup_keys;
rc = get_vcssb(vcssb);
if (rc)
goto cleanup_keys;
rc = -ENOMEM;
cs_keyring = create_cs_keyring();
if (!cs_keyring)
goto cleanup_keys;
rc = add_certificates_to_keyring(vcssb, cs_keyring);
if (rc)
goto cleanup_cs_keyring;
goto out;
cleanup_cs_keyring:
key_put(cs_keyring);
cleanup_keys:
cleanup_cs_keys();
out:
kfree(vcssb);
return rc;
}
static DEFINE_MUTEX(cs_refresh_lock);
static int cs_status_val = -1;
static ssize_t cs_status_show(struct kobject *kobj,
struct kobj_attribute *attr, char *buf)
{
if (cs_status_val == -1)
return sysfs_emit(buf, "uninitialized\n");
else if (cs_status_val == 0)
return sysfs_emit(buf, "ok\n");
return sysfs_emit(buf, "failed (%d)\n", cs_status_val);
}
static struct kobj_attribute cs_status_attr = __ATTR_RO(cs_status);
static ssize_t refresh_store(struct kobject *kobj, struct kobj_attribute *attr,
const char *buf, size_t count)
{
int rc, retries;
pr_dbf_msg("Refresh certificate store information requested");
rc = mutex_lock_interruptible(&cs_refresh_lock);
if (rc)
return rc;
for (retries = 0; retries < DIAG_MAX_RETRIES; retries++) {
/* Request certificates from certificate store. */
rc = fill_cs_keyring();
if (rc)
pr_dbf_msg("Failed to refresh certificate store information (%d)", rc);
if (rc != -EAGAIN)
break;
}
cs_status_val = rc;
mutex_unlock(&cs_refresh_lock);
return rc ?: count;
}
static struct kobj_attribute refresh_attr = __ATTR_WO(refresh);
static const struct attribute *cert_store_attrs[] __initconst = {
&cs_status_attr.attr,
&refresh_attr.attr,
NULL,
};
static struct kobject *cert_store_kobj;
static int __init cert_store_init(void)
{
int rc = -ENOMEM;
cert_store_dbf = debug_register("cert_store_msg", 10, 1, 64);
if (!cert_store_dbf)
goto cleanup_dbf;
cert_store_hexdump = debug_register("cert_store_hexdump", 3, 1, 128);
if (!cert_store_hexdump)
goto cleanup_dbf;
debug_register_view(cert_store_hexdump, &debug_hex_ascii_view);
debug_register_view(cert_store_dbf, &debug_sprintf_view);
/* Create directory /sys/firmware/cert_store. */
cert_store_kobj = kobject_create_and_add("cert_store", firmware_kobj);
if (!cert_store_kobj)
goto cleanup_dbf;
rc = sysfs_create_files(cert_store_kobj, cert_store_attrs);
if (rc)
goto cleanup_kobj;
register_key_type(&key_type_cert_store_key);
return rc;
cleanup_kobj:
kobject_put(cert_store_kobj);
cleanup_dbf:
debug_unregister(cert_store_dbf);
debug_unregister(cert_store_hexdump);
return rc;
}
device_initcall(cert_store_init);
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