linux/drivers/s390/crypto/zcrypt_ep11misc.c
Linus Torvalds ad0bf4eb91 s390 updates for the 5.7 merge window
- Update maintainers. Niklas Schnelle takes over zpci and Vineeth Vijayan
   common io code.
 
 - Extend cpuinfo to include topology information.
 
 - Add new extended counters for IBM z15 and sampling buffer allocation
   rework in perf code.
 
 - Add control over zeroing out memory during system restart.
 
 - CCA protected key block version 2 support and other fixes/improvements
   in crypto code.
 
 - Convert to new fallthrough; annotations.
 
 - Replace zero-length arrays with flexible-arrays.
 
 - QDIO debugfs and other small improvements.
 
 - Drop 2-level paging support optimization for compat tasks. Varios
   mm cleanups.
 
 - Remove broken and unused hibernate / power management support.
 
 - Remove fake numa support which does not bring any benefits.
 
 - Exclude offline CPUs from CPU topology masks to be more consistent
   with other architectures.
 
 - Prevent last branching instruction address leaking to userspace.
 
 - Other small various fixes and improvements all over the code.
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Merge tag 's390-5.7-1' of git://git.kernel.org/pub/scm/linux/kernel/git/s390/linux

Pull s390 updates from Vasily Gorbik:

 - Update maintainers. Niklas Schnelle takes over zpci and Vineeth
   Vijayan common io code.

 - Extend cpuinfo to include topology information.

 - Add new extended counters for IBM z15 and sampling buffer allocation
   rework in perf code.

 - Add control over zeroing out memory during system restart.

 - CCA protected key block version 2 support and other
   fixes/improvements in crypto code.

 - Convert to new fallthrough; annotations.

 - Replace zero-length arrays with flexible-arrays.

 - QDIO debugfs and other small improvements.

 - Drop 2-level paging support optimization for compat tasks. Varios mm
   cleanups.

 - Remove broken and unused hibernate / power management support.

 - Remove fake numa support which does not bring any benefits.

 - Exclude offline CPUs from CPU topology masks to be more consistent
   with other architectures.

 - Prevent last branching instruction address leaking to userspace.

 - Other small various fixes and improvements all over the code.

* tag 's390-5.7-1' of git://git.kernel.org/pub/scm/linux/kernel/git/s390/linux: (57 commits)
  s390/mm: cleanup init_new_context() callback
  s390/mm: cleanup virtual memory constants usage
  s390/mm: remove page table downgrade support
  s390/qdio: set qdio_irq->cdev at allocation time
  s390/qdio: remove unused function declarations
  s390/ccwgroup: remove pm support
  s390/ap: remove power management code from ap bus and drivers
  s390/zcrypt: use kvmalloc instead of kmalloc for 256k alloc
  s390/mm: cleanup arch_get_unmapped_area() and friends
  s390/ism: remove pm support
  s390/cio: use fallthrough;
  s390/vfio: use fallthrough;
  s390/zcrypt: use fallthrough;
  s390: use fallthrough;
  s390/cpum_sf: Fix wrong page count in error message
  s390/diag: fix display of diagnose call statistics
  s390/ap: Remove ap device suspend and resume callbacks
  s390/pci: Improve handling of unset UID
  s390/pci: Fix zpci_alloc_domain() over allocation
  s390/qdio: pass ISC as parameter to chsc_sadc()
  ...
2020-04-04 09:45:50 -07:00

1294 lines
31 KiB
C

// SPDX-License-Identifier: GPL-2.0+
/*
* Copyright IBM Corp. 2019
* Author(s): Harald Freudenberger <freude@linux.ibm.com>
*
* Collection of EP11 misc functions used by zcrypt and pkey
*/
#define KMSG_COMPONENT "zcrypt"
#define pr_fmt(fmt) KMSG_COMPONENT ": " fmt
#include <linux/init.h>
#include <linux/module.h>
#include <linux/slab.h>
#include <linux/random.h>
#include <asm/zcrypt.h>
#include <asm/pkey.h>
#include "ap_bus.h"
#include "zcrypt_api.h"
#include "zcrypt_debug.h"
#include "zcrypt_msgtype6.h"
#include "zcrypt_ep11misc.h"
#include "zcrypt_ccamisc.h"
#define DEBUG_DBG(...) ZCRYPT_DBF(DBF_DEBUG, ##__VA_ARGS__)
#define DEBUG_INFO(...) ZCRYPT_DBF(DBF_INFO, ##__VA_ARGS__)
#define DEBUG_WARN(...) ZCRYPT_DBF(DBF_WARN, ##__VA_ARGS__)
#define DEBUG_ERR(...) ZCRYPT_DBF(DBF_ERR, ##__VA_ARGS__)
/* default iv used here */
static const u8 def_iv[16] = { 0x00, 0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77,
0x88, 0x99, 0xaa, 0xbb, 0xcc, 0xdd, 0xee, 0xff };
/* ep11 card info cache */
struct card_list_entry {
struct list_head list;
u16 cardnr;
struct ep11_card_info info;
};
static LIST_HEAD(card_list);
static DEFINE_SPINLOCK(card_list_lock);
static int card_cache_fetch(u16 cardnr, struct ep11_card_info *ci)
{
int rc = -ENOENT;
struct card_list_entry *ptr;
spin_lock_bh(&card_list_lock);
list_for_each_entry(ptr, &card_list, list) {
if (ptr->cardnr == cardnr) {
memcpy(ci, &ptr->info, sizeof(*ci));
rc = 0;
break;
}
}
spin_unlock_bh(&card_list_lock);
return rc;
}
static void card_cache_update(u16 cardnr, const struct ep11_card_info *ci)
{
int found = 0;
struct card_list_entry *ptr;
spin_lock_bh(&card_list_lock);
list_for_each_entry(ptr, &card_list, list) {
if (ptr->cardnr == cardnr) {
memcpy(&ptr->info, ci, sizeof(*ci));
found = 1;
break;
}
}
if (!found) {
ptr = kmalloc(sizeof(*ptr), GFP_ATOMIC);
if (!ptr) {
spin_unlock_bh(&card_list_lock);
return;
}
ptr->cardnr = cardnr;
memcpy(&ptr->info, ci, sizeof(*ci));
list_add(&ptr->list, &card_list);
}
spin_unlock_bh(&card_list_lock);
}
static void card_cache_scrub(u16 cardnr)
{
struct card_list_entry *ptr;
spin_lock_bh(&card_list_lock);
list_for_each_entry(ptr, &card_list, list) {
if (ptr->cardnr == cardnr) {
list_del(&ptr->list);
kfree(ptr);
break;
}
}
spin_unlock_bh(&card_list_lock);
}
static void __exit card_cache_free(void)
{
struct card_list_entry *ptr, *pnext;
spin_lock_bh(&card_list_lock);
list_for_each_entry_safe(ptr, pnext, &card_list, list) {
list_del(&ptr->list);
kfree(ptr);
}
spin_unlock_bh(&card_list_lock);
}
/*
* Simple check if the key blob is a valid EP11 secure AES key.
*/
int ep11_check_aeskeyblob(debug_info_t *dbg, int dbflvl,
const u8 *key, int keybitsize,
int checkcpacfexport)
{
struct ep11keyblob *kb = (struct ep11keyblob *) key;
#define DBF(...) debug_sprintf_event(dbg, dbflvl, ##__VA_ARGS__)
if (kb->head.type != TOKTYPE_NON_CCA) {
if (dbg)
DBF("%s key check failed, type 0x%02x != 0x%02x\n",
__func__, (int) kb->head.type, TOKTYPE_NON_CCA);
return -EINVAL;
}
if (kb->head.version != TOKVER_EP11_AES) {
if (dbg)
DBF("%s key check failed, version 0x%02x != 0x%02x\n",
__func__, (int) kb->head.version, TOKVER_EP11_AES);
return -EINVAL;
}
if (kb->version != EP11_STRUCT_MAGIC) {
if (dbg)
DBF("%s key check failed, magic 0x%04x != 0x%04x\n",
__func__, (int) kb->version, EP11_STRUCT_MAGIC);
return -EINVAL;
}
switch (kb->head.keybitlen) {
case 128:
case 192:
case 256:
break;
default:
if (dbg)
DBF("%s key check failed, keybitlen %d invalid\n",
__func__, (int) kb->head.keybitlen);
return -EINVAL;
}
if (keybitsize > 0 && keybitsize != (int) kb->head.keybitlen) {
DBF("%s key check failed, keybitsize %d\n",
__func__, keybitsize);
return -EINVAL;
}
if (checkcpacfexport && !(kb->attr & EP11_BLOB_PKEY_EXTRACTABLE)) {
if (dbg)
DBF("%s key check failed, PKEY_EXTRACTABLE is 0\n",
__func__);
return -EINVAL;
}
#undef DBF
return 0;
}
EXPORT_SYMBOL(ep11_check_aeskeyblob);
/*
* Helper function which calls zcrypt_send_ep11_cprb with
* memory management segment adjusted to kernel space
* so that the copy_from_user called within this
* function do in fact copy from kernel space.
*/
static inline int _zcrypt_send_ep11_cprb(struct ep11_urb *urb)
{
int rc;
mm_segment_t old_fs = get_fs();
set_fs(KERNEL_DS);
rc = zcrypt_send_ep11_cprb(urb);
set_fs(old_fs);
return rc;
}
/*
* Allocate and prepare ep11 cprb plus additional payload.
*/
static inline struct ep11_cprb *alloc_cprb(size_t payload_len)
{
size_t len = sizeof(struct ep11_cprb) + payload_len;
struct ep11_cprb *cprb;
cprb = kmalloc(len, GFP_KERNEL);
if (!cprb)
return NULL;
memset(cprb, 0, len);
cprb->cprb_len = sizeof(struct ep11_cprb);
cprb->cprb_ver_id = 0x04;
memcpy(cprb->func_id, "T4", 2);
cprb->ret_code = 0xFFFFFFFF;
cprb->payload_len = payload_len;
return cprb;
}
/*
* Some helper functions related to ASN1 encoding.
* Limited to length info <= 2 byte.
*/
#define ASN1TAGLEN(x) (2 + (x) + ((x) > 127 ? 1 : 0) + ((x) > 255 ? 1 : 0))
static int asn1tag_write(u8 *ptr, u8 tag, const u8 *pvalue, u16 valuelen)
{
ptr[0] = tag;
if (valuelen > 255) {
ptr[1] = 0x82;
*((u16 *)(ptr + 2)) = valuelen;
memcpy(ptr + 4, pvalue, valuelen);
return 4 + valuelen;
}
if (valuelen > 127) {
ptr[1] = 0x81;
ptr[2] = (u8) valuelen;
memcpy(ptr + 3, pvalue, valuelen);
return 3 + valuelen;
}
ptr[1] = (u8) valuelen;
memcpy(ptr + 2, pvalue, valuelen);
return 2 + valuelen;
}
/* EP11 payload > 127 bytes starts with this struct */
struct pl_head {
u8 tag;
u8 lenfmt;
u16 len;
u8 func_tag;
u8 func_len;
u32 func;
u8 dom_tag;
u8 dom_len;
u32 dom;
} __packed;
/* prep ep11 payload head helper function */
static inline void prep_head(struct pl_head *h,
size_t pl_size, int api, int func)
{
h->tag = 0x30;
h->lenfmt = 0x82;
h->len = pl_size - 4;
h->func_tag = 0x04;
h->func_len = sizeof(u32);
h->func = (api << 16) + func;
h->dom_tag = 0x04;
h->dom_len = sizeof(u32);
}
/* prep urb helper function */
static inline void prep_urb(struct ep11_urb *u,
struct ep11_target_dev *t, int nt,
struct ep11_cprb *req, size_t req_len,
struct ep11_cprb *rep, size_t rep_len)
{
u->targets = (u8 __user *) t;
u->targets_num = nt;
u->req = (u8 __user *) req;
u->req_len = req_len;
u->resp = (u8 __user *) rep;
u->resp_len = rep_len;
}
/* Check ep11 reply payload, return 0 or suggested errno value. */
static int check_reply_pl(const u8 *pl, const char *func)
{
int len;
u32 ret;
/* start tag */
if (*pl++ != 0x30) {
DEBUG_ERR("%s reply start tag mismatch\n", func);
return -EIO;
}
/* payload length format */
if (*pl < 127) {
len = *pl;
pl++;
} else if (*pl == 0x81) {
pl++;
len = *pl;
pl++;
} else if (*pl == 0x82) {
pl++;
len = *((u16 *)pl);
pl += 2;
} else {
DEBUG_ERR("%s reply start tag lenfmt mismatch 0x%02hhx\n",
func, *pl);
return -EIO;
}
/* len should cover at least 3 fields with 32 bit value each */
if (len < 3 * 6) {
DEBUG_ERR("%s reply length %d too small\n", func, len);
return -EIO;
}
/* function tag, length and value */
if (pl[0] != 0x04 || pl[1] != 0x04) {
DEBUG_ERR("%s function tag or length mismatch\n", func);
return -EIO;
}
pl += 6;
/* dom tag, length and value */
if (pl[0] != 0x04 || pl[1] != 0x04) {
DEBUG_ERR("%s dom tag or length mismatch\n", func);
return -EIO;
}
pl += 6;
/* return value tag, length and value */
if (pl[0] != 0x04 || pl[1] != 0x04) {
DEBUG_ERR("%s return value tag or length mismatch\n", func);
return -EIO;
}
pl += 2;
ret = *((u32 *)pl);
if (ret != 0) {
DEBUG_ERR("%s return value 0x%04x != 0\n", func, ret);
return -EIO;
}
return 0;
}
/*
* Helper function which does an ep11 query with given query type.
*/
static int ep11_query_info(u16 cardnr, u16 domain, u32 query_type,
size_t buflen, u8 *buf)
{
struct ep11_info_req_pl {
struct pl_head head;
u8 query_type_tag;
u8 query_type_len;
u32 query_type;
u8 query_subtype_tag;
u8 query_subtype_len;
u32 query_subtype;
} __packed * req_pl;
struct ep11_info_rep_pl {
struct pl_head head;
u8 rc_tag;
u8 rc_len;
u32 rc;
u8 data_tag;
u8 data_lenfmt;
u16 data_len;
} __packed * rep_pl;
struct ep11_cprb *req = NULL, *rep = NULL;
struct ep11_target_dev target;
struct ep11_urb *urb = NULL;
int api = 1, rc = -ENOMEM;
/* request cprb and payload */
req = alloc_cprb(sizeof(struct ep11_info_req_pl));
if (!req)
goto out;
req_pl = (struct ep11_info_req_pl *) (((u8 *) req) + sizeof(*req));
prep_head(&req_pl->head, sizeof(*req_pl), api, 38); /* get xcp info */
req_pl->query_type_tag = 0x04;
req_pl->query_type_len = sizeof(u32);
req_pl->query_type = query_type;
req_pl->query_subtype_tag = 0x04;
req_pl->query_subtype_len = sizeof(u32);
/* reply cprb and payload */
rep = alloc_cprb(sizeof(struct ep11_info_rep_pl) + buflen);
if (!rep)
goto out;
rep_pl = (struct ep11_info_rep_pl *) (((u8 *) rep) + sizeof(*rep));
/* urb and target */
urb = kmalloc(sizeof(struct ep11_urb), GFP_KERNEL);
if (!urb)
goto out;
target.ap_id = cardnr;
target.dom_id = domain;
prep_urb(urb, &target, 1,
req, sizeof(*req) + sizeof(*req_pl),
rep, sizeof(*rep) + sizeof(*rep_pl) + buflen);
rc = _zcrypt_send_ep11_cprb(urb);
if (rc) {
DEBUG_ERR(
"%s zcrypt_send_ep11_cprb(card=%d dom=%d) failed, rc=%d\n",
__func__, (int) cardnr, (int) domain, rc);
goto out;
}
rc = check_reply_pl((u8 *)rep_pl, __func__);
if (rc)
goto out;
if (rep_pl->data_tag != 0x04 || rep_pl->data_lenfmt != 0x82) {
DEBUG_ERR("%s unknown reply data format\n", __func__);
rc = -EIO;
goto out;
}
if (rep_pl->data_len > buflen) {
DEBUG_ERR("%s mismatch between reply data len and buffer len\n",
__func__);
rc = -ENOSPC;
goto out;
}
memcpy(buf, ((u8 *) rep_pl) + sizeof(*rep_pl), rep_pl->data_len);
out:
kfree(req);
kfree(rep);
kfree(urb);
return rc;
}
/*
* Provide information about an EP11 card.
*/
int ep11_get_card_info(u16 card, struct ep11_card_info *info, int verify)
{
int rc;
struct ep11_module_query_info {
u32 API_ord_nr;
u32 firmware_id;
u8 FW_major_vers;
u8 FW_minor_vers;
u8 CSP_major_vers;
u8 CSP_minor_vers;
u8 fwid[32];
u8 xcp_config_hash[32];
u8 CSP_config_hash[32];
u8 serial[16];
u8 module_date_time[16];
u64 op_mode;
u32 PKCS11_flags;
u32 ext_flags;
u32 domains;
u32 sym_state_bytes;
u32 digest_state_bytes;
u32 pin_blob_bytes;
u32 SPKI_bytes;
u32 priv_key_blob_bytes;
u32 sym_blob_bytes;
u32 max_payload_bytes;
u32 CP_profile_bytes;
u32 max_CP_index;
} __packed * pmqi = NULL;
rc = card_cache_fetch(card, info);
if (rc || verify) {
pmqi = kmalloc(sizeof(*pmqi), GFP_KERNEL);
if (!pmqi)
return -ENOMEM;
rc = ep11_query_info(card, AUTOSEL_DOM,
0x01 /* module info query */,
sizeof(*pmqi), (u8 *) pmqi);
if (rc) {
if (rc == -ENODEV)
card_cache_scrub(card);
goto out;
}
memset(info, 0, sizeof(*info));
info->API_ord_nr = pmqi->API_ord_nr;
info->FW_version =
(pmqi->FW_major_vers << 8) + pmqi->FW_minor_vers;
memcpy(info->serial, pmqi->serial, sizeof(info->serial));
info->op_mode = pmqi->op_mode;
card_cache_update(card, info);
}
out:
kfree(pmqi);
return rc;
}
EXPORT_SYMBOL(ep11_get_card_info);
/*
* Provide information about a domain within an EP11 card.
*/
int ep11_get_domain_info(u16 card, u16 domain, struct ep11_domain_info *info)
{
int rc;
struct ep11_domain_query_info {
u32 dom_index;
u8 cur_WK_VP[32];
u8 new_WK_VP[32];
u32 dom_flags;
u64 op_mode;
} __packed * p_dom_info;
p_dom_info = kmalloc(sizeof(*p_dom_info), GFP_KERNEL);
if (!p_dom_info)
return -ENOMEM;
rc = ep11_query_info(card, domain, 0x03 /* domain info query */,
sizeof(*p_dom_info), (u8 *) p_dom_info);
if (rc)
goto out;
memset(info, 0, sizeof(*info));
info->cur_wk_state = '0';
info->new_wk_state = '0';
if (p_dom_info->dom_flags & 0x10 /* left imprint mode */) {
if (p_dom_info->dom_flags & 0x02 /* cur wk valid */) {
info->cur_wk_state = '1';
memcpy(info->cur_wkvp, p_dom_info->cur_WK_VP, 32);
}
if (p_dom_info->dom_flags & 0x04 /* new wk present */
|| p_dom_info->dom_flags & 0x08 /* new wk committed */) {
info->new_wk_state =
p_dom_info->dom_flags & 0x08 ? '2' : '1';
memcpy(info->new_wkvp, p_dom_info->new_WK_VP, 32);
}
}
info->op_mode = p_dom_info->op_mode;
out:
kfree(p_dom_info);
return rc;
}
EXPORT_SYMBOL(ep11_get_domain_info);
/*
* Default EP11 AES key generate attributes, used when no keygenflags given:
* XCP_BLOB_ENCRYPT | XCP_BLOB_DECRYPT | XCP_BLOB_PROTKEY_EXTRACTABLE
*/
#define KEY_ATTR_DEFAULTS 0x00200c00
int ep11_genaeskey(u16 card, u16 domain, u32 keybitsize, u32 keygenflags,
u8 *keybuf, size_t *keybufsize)
{
struct keygen_req_pl {
struct pl_head head;
u8 var_tag;
u8 var_len;
u32 var;
u8 keybytes_tag;
u8 keybytes_len;
u32 keybytes;
u8 mech_tag;
u8 mech_len;
u32 mech;
u8 attr_tag;
u8 attr_len;
u32 attr_header;
u32 attr_bool_mask;
u32 attr_bool_bits;
u32 attr_val_len_type;
u32 attr_val_len_value;
u8 pin_tag;
u8 pin_len;
} __packed * req_pl;
struct keygen_rep_pl {
struct pl_head head;
u8 rc_tag;
u8 rc_len;
u32 rc;
u8 data_tag;
u8 data_lenfmt;
u16 data_len;
u8 data[512];
} __packed * rep_pl;
struct ep11_cprb *req = NULL, *rep = NULL;
struct ep11_target_dev target;
struct ep11_urb *urb = NULL;
struct ep11keyblob *kb;
int api, rc = -ENOMEM;
switch (keybitsize) {
case 128:
case 192:
case 256:
break;
default:
DEBUG_ERR(
"%s unknown/unsupported keybitsize %d\n",
__func__, keybitsize);
rc = -EINVAL;
goto out;
}
/* request cprb and payload */
req = alloc_cprb(sizeof(struct keygen_req_pl));
if (!req)
goto out;
req_pl = (struct keygen_req_pl *) (((u8 *) req) + sizeof(*req));
api = (!keygenflags || keygenflags & 0x00200000) ? 4 : 1;
prep_head(&req_pl->head, sizeof(*req_pl), api, 21); /* GenerateKey */
req_pl->var_tag = 0x04;
req_pl->var_len = sizeof(u32);
req_pl->keybytes_tag = 0x04;
req_pl->keybytes_len = sizeof(u32);
req_pl->keybytes = keybitsize / 8;
req_pl->mech_tag = 0x04;
req_pl->mech_len = sizeof(u32);
req_pl->mech = 0x00001080; /* CKM_AES_KEY_GEN */
req_pl->attr_tag = 0x04;
req_pl->attr_len = 5 * sizeof(u32);
req_pl->attr_header = 0x10010000;
req_pl->attr_bool_mask = keygenflags ? keygenflags : KEY_ATTR_DEFAULTS;
req_pl->attr_bool_bits = keygenflags ? keygenflags : KEY_ATTR_DEFAULTS;
req_pl->attr_val_len_type = 0x00000161; /* CKA_VALUE_LEN */
req_pl->attr_val_len_value = keybitsize / 8;
req_pl->pin_tag = 0x04;
/* reply cprb and payload */
rep = alloc_cprb(sizeof(struct keygen_rep_pl));
if (!rep)
goto out;
rep_pl = (struct keygen_rep_pl *) (((u8 *) rep) + sizeof(*rep));
/* urb and target */
urb = kmalloc(sizeof(struct ep11_urb), GFP_KERNEL);
if (!urb)
goto out;
target.ap_id = card;
target.dom_id = domain;
prep_urb(urb, &target, 1,
req, sizeof(*req) + sizeof(*req_pl),
rep, sizeof(*rep) + sizeof(*rep_pl));
rc = _zcrypt_send_ep11_cprb(urb);
if (rc) {
DEBUG_ERR(
"%s zcrypt_send_ep11_cprb(card=%d dom=%d) failed, rc=%d\n",
__func__, (int) card, (int) domain, rc);
goto out;
}
rc = check_reply_pl((u8 *)rep_pl, __func__);
if (rc)
goto out;
if (rep_pl->data_tag != 0x04 || rep_pl->data_lenfmt != 0x82) {
DEBUG_ERR("%s unknown reply data format\n", __func__);
rc = -EIO;
goto out;
}
if (rep_pl->data_len > *keybufsize) {
DEBUG_ERR("%s mismatch reply data len / key buffer len\n",
__func__);
rc = -ENOSPC;
goto out;
}
/* copy key blob and set header values */
memcpy(keybuf, rep_pl->data, rep_pl->data_len);
*keybufsize = rep_pl->data_len;
kb = (struct ep11keyblob *) keybuf;
kb->head.type = TOKTYPE_NON_CCA;
kb->head.len = rep_pl->data_len;
kb->head.version = TOKVER_EP11_AES;
kb->head.keybitlen = keybitsize;
out:
kfree(req);
kfree(rep);
kfree(urb);
return rc;
}
EXPORT_SYMBOL(ep11_genaeskey);
static int ep11_cryptsingle(u16 card, u16 domain,
u16 mode, u32 mech, const u8 *iv,
const u8 *key, size_t keysize,
const u8 *inbuf, size_t inbufsize,
u8 *outbuf, size_t *outbufsize)
{
struct crypt_req_pl {
struct pl_head head;
u8 var_tag;
u8 var_len;
u32 var;
u8 mech_tag;
u8 mech_len;
u32 mech;
/*
* maybe followed by iv data
* followed by key tag + key blob
* followed by plaintext tag + plaintext
*/
} __packed * req_pl;
struct crypt_rep_pl {
struct pl_head head;
u8 rc_tag;
u8 rc_len;
u32 rc;
u8 data_tag;
u8 data_lenfmt;
/* data follows */
} __packed * rep_pl;
struct ep11_cprb *req = NULL, *rep = NULL;
struct ep11_target_dev target;
struct ep11_urb *urb = NULL;
size_t req_pl_size, rep_pl_size;
int n, api = 1, rc = -ENOMEM;
u8 *p;
/* the simple asn1 coding used has length limits */
if (keysize > 0xFFFF || inbufsize > 0xFFFF)
return -EINVAL;
/* request cprb and payload */
req_pl_size = sizeof(struct crypt_req_pl) + (iv ? 16 : 0)
+ ASN1TAGLEN(keysize) + ASN1TAGLEN(inbufsize);
req = alloc_cprb(req_pl_size);
if (!req)
goto out;
req_pl = (struct crypt_req_pl *) (((u8 *) req) + sizeof(*req));
prep_head(&req_pl->head, req_pl_size, api, (mode ? 20 : 19));
req_pl->var_tag = 0x04;
req_pl->var_len = sizeof(u32);
/* mech is mech + mech params (iv here) */
req_pl->mech_tag = 0x04;
req_pl->mech_len = sizeof(u32) + (iv ? 16 : 0);
req_pl->mech = (mech ? mech : 0x00001085); /* CKM_AES_CBC_PAD */
p = ((u8 *) req_pl) + sizeof(*req_pl);
if (iv) {
memcpy(p, iv, 16);
p += 16;
}
/* key and input data */
p += asn1tag_write(p, 0x04, key, keysize);
p += asn1tag_write(p, 0x04, inbuf, inbufsize);
/* reply cprb and payload, assume out data size <= in data size + 32 */
rep_pl_size = sizeof(struct crypt_rep_pl) + ASN1TAGLEN(inbufsize + 32);
rep = alloc_cprb(rep_pl_size);
if (!rep)
goto out;
rep_pl = (struct crypt_rep_pl *) (((u8 *) rep) + sizeof(*rep));
/* urb and target */
urb = kmalloc(sizeof(struct ep11_urb), GFP_KERNEL);
if (!urb)
goto out;
target.ap_id = card;
target.dom_id = domain;
prep_urb(urb, &target, 1,
req, sizeof(*req) + req_pl_size,
rep, sizeof(*rep) + rep_pl_size);
rc = _zcrypt_send_ep11_cprb(urb);
if (rc) {
DEBUG_ERR(
"%s zcrypt_send_ep11_cprb(card=%d dom=%d) failed, rc=%d\n",
__func__, (int) card, (int) domain, rc);
goto out;
}
rc = check_reply_pl((u8 *)rep_pl, __func__);
if (rc)
goto out;
if (rep_pl->data_tag != 0x04) {
DEBUG_ERR("%s unknown reply data format\n", __func__);
rc = -EIO;
goto out;
}
p = ((u8 *) rep_pl) + sizeof(*rep_pl);
if (rep_pl->data_lenfmt <= 127)
n = rep_pl->data_lenfmt;
else if (rep_pl->data_lenfmt == 0x81)
n = *p++;
else if (rep_pl->data_lenfmt == 0x82) {
n = *((u16 *) p);
p += 2;
} else {
DEBUG_ERR("%s unknown reply data length format 0x%02hhx\n",
__func__, rep_pl->data_lenfmt);
rc = -EIO;
goto out;
}
if (n > *outbufsize) {
DEBUG_ERR("%s mismatch reply data len %d / output buffer %zu\n",
__func__, n, *outbufsize);
rc = -ENOSPC;
goto out;
}
memcpy(outbuf, p, n);
*outbufsize = n;
out:
kfree(req);
kfree(rep);
kfree(urb);
return rc;
}
static int ep11_unwrapkey(u16 card, u16 domain,
const u8 *kek, size_t keksize,
const u8 *enckey, size_t enckeysize,
u32 mech, const u8 *iv,
u32 keybitsize, u32 keygenflags,
u8 *keybuf, size_t *keybufsize)
{
struct uw_req_pl {
struct pl_head head;
u8 attr_tag;
u8 attr_len;
u32 attr_header;
u32 attr_bool_mask;
u32 attr_bool_bits;
u32 attr_key_type;
u32 attr_key_type_value;
u32 attr_val_len;
u32 attr_val_len_value;
u8 mech_tag;
u8 mech_len;
u32 mech;
/*
* maybe followed by iv data
* followed by kek tag + kek blob
* followed by empty mac tag
* followed by empty pin tag
* followed by encryted key tag + bytes
*/
} __packed * req_pl;
struct uw_rep_pl {
struct pl_head head;
u8 rc_tag;
u8 rc_len;
u32 rc;
u8 data_tag;
u8 data_lenfmt;
u16 data_len;
u8 data[512];
} __packed * rep_pl;
struct ep11_cprb *req = NULL, *rep = NULL;
struct ep11_target_dev target;
struct ep11_urb *urb = NULL;
struct ep11keyblob *kb;
size_t req_pl_size;
int api, rc = -ENOMEM;
u8 *p;
/* request cprb and payload */
req_pl_size = sizeof(struct uw_req_pl) + (iv ? 16 : 0)
+ ASN1TAGLEN(keksize) + 4 + ASN1TAGLEN(enckeysize);
req = alloc_cprb(req_pl_size);
if (!req)
goto out;
req_pl = (struct uw_req_pl *) (((u8 *) req) + sizeof(*req));
api = (!keygenflags || keygenflags & 0x00200000) ? 4 : 1;
prep_head(&req_pl->head, req_pl_size, api, 34); /* UnwrapKey */
req_pl->attr_tag = 0x04;
req_pl->attr_len = 7 * sizeof(u32);
req_pl->attr_header = 0x10020000;
req_pl->attr_bool_mask = keygenflags ? keygenflags : KEY_ATTR_DEFAULTS;
req_pl->attr_bool_bits = keygenflags ? keygenflags : KEY_ATTR_DEFAULTS;
req_pl->attr_key_type = 0x00000100; /* CKA_KEY_TYPE */
req_pl->attr_key_type_value = 0x0000001f; /* CKK_AES */
req_pl->attr_val_len = 0x00000161; /* CKA_VALUE_LEN */
req_pl->attr_val_len_value = keybitsize / 8;
/* mech is mech + mech params (iv here) */
req_pl->mech_tag = 0x04;
req_pl->mech_len = sizeof(u32) + (iv ? 16 : 0);
req_pl->mech = (mech ? mech : 0x00001085); /* CKM_AES_CBC_PAD */
p = ((u8 *) req_pl) + sizeof(*req_pl);
if (iv) {
memcpy(p, iv, 16);
p += 16;
}
/* kek */
p += asn1tag_write(p, 0x04, kek, keksize);
/* empty mac key tag */
*p++ = 0x04;
*p++ = 0;
/* empty pin tag */
*p++ = 0x04;
*p++ = 0;
/* encrypted key value tag and bytes */
p += asn1tag_write(p, 0x04, enckey, enckeysize);
/* reply cprb and payload */
rep = alloc_cprb(sizeof(struct uw_rep_pl));
if (!rep)
goto out;
rep_pl = (struct uw_rep_pl *) (((u8 *) rep) + sizeof(*rep));
/* urb and target */
urb = kmalloc(sizeof(struct ep11_urb), GFP_KERNEL);
if (!urb)
goto out;
target.ap_id = card;
target.dom_id = domain;
prep_urb(urb, &target, 1,
req, sizeof(*req) + req_pl_size,
rep, sizeof(*rep) + sizeof(*rep_pl));
rc = _zcrypt_send_ep11_cprb(urb);
if (rc) {
DEBUG_ERR(
"%s zcrypt_send_ep11_cprb(card=%d dom=%d) failed, rc=%d\n",
__func__, (int) card, (int) domain, rc);
goto out;
}
rc = check_reply_pl((u8 *)rep_pl, __func__);
if (rc)
goto out;
if (rep_pl->data_tag != 0x04 || rep_pl->data_lenfmt != 0x82) {
DEBUG_ERR("%s unknown reply data format\n", __func__);
rc = -EIO;
goto out;
}
if (rep_pl->data_len > *keybufsize) {
DEBUG_ERR("%s mismatch reply data len / key buffer len\n",
__func__);
rc = -ENOSPC;
goto out;
}
/* copy key blob and set header values */
memcpy(keybuf, rep_pl->data, rep_pl->data_len);
*keybufsize = rep_pl->data_len;
kb = (struct ep11keyblob *) keybuf;
kb->head.type = TOKTYPE_NON_CCA;
kb->head.len = rep_pl->data_len;
kb->head.version = TOKVER_EP11_AES;
kb->head.keybitlen = keybitsize;
out:
kfree(req);
kfree(rep);
kfree(urb);
return rc;
}
static int ep11_wrapkey(u16 card, u16 domain,
const u8 *key, size_t keysize,
u32 mech, const u8 *iv,
u8 *databuf, size_t *datasize)
{
struct wk_req_pl {
struct pl_head head;
u8 var_tag;
u8 var_len;
u32 var;
u8 mech_tag;
u8 mech_len;
u32 mech;
/*
* followed by iv data
* followed by key tag + key blob
* followed by dummy kek param
* followed by dummy mac param
*/
} __packed * req_pl;
struct wk_rep_pl {
struct pl_head head;
u8 rc_tag;
u8 rc_len;
u32 rc;
u8 data_tag;
u8 data_lenfmt;
u16 data_len;
u8 data[512];
} __packed * rep_pl;
struct ep11_cprb *req = NULL, *rep = NULL;
struct ep11_target_dev target;
struct ep11_urb *urb = NULL;
struct ep11keyblob *kb;
size_t req_pl_size;
int api, rc = -ENOMEM;
u8 *p;
/* request cprb and payload */
req_pl_size = sizeof(struct wk_req_pl) + (iv ? 16 : 0)
+ ASN1TAGLEN(keysize) + 4;
req = alloc_cprb(req_pl_size);
if (!req)
goto out;
if (!mech || mech == 0x80060001)
req->flags |= 0x20; /* CPACF_WRAP needs special bit */
req_pl = (struct wk_req_pl *) (((u8 *) req) + sizeof(*req));
api = (!mech || mech == 0x80060001) ? 4 : 1; /* CKM_IBM_CPACF_WRAP */
prep_head(&req_pl->head, req_pl_size, api, 33); /* WrapKey */
req_pl->var_tag = 0x04;
req_pl->var_len = sizeof(u32);
/* mech is mech + mech params (iv here) */
req_pl->mech_tag = 0x04;
req_pl->mech_len = sizeof(u32) + (iv ? 16 : 0);
req_pl->mech = (mech ? mech : 0x80060001); /* CKM_IBM_CPACF_WRAP */
p = ((u8 *) req_pl) + sizeof(*req_pl);
if (iv) {
memcpy(p, iv, 16);
p += 16;
}
/* key blob */
p += asn1tag_write(p, 0x04, key, keysize);
/* maybe the key argument needs the head data cleaned out */
kb = (struct ep11keyblob *)(p - keysize);
if (kb->head.version == TOKVER_EP11_AES)
memset(&kb->head, 0, sizeof(kb->head));
/* empty kek tag */
*p++ = 0x04;
*p++ = 0;
/* empty mac tag */
*p++ = 0x04;
*p++ = 0;
/* reply cprb and payload */
rep = alloc_cprb(sizeof(struct wk_rep_pl));
if (!rep)
goto out;
rep_pl = (struct wk_rep_pl *) (((u8 *) rep) + sizeof(*rep));
/* urb and target */
urb = kmalloc(sizeof(struct ep11_urb), GFP_KERNEL);
if (!urb)
goto out;
target.ap_id = card;
target.dom_id = domain;
prep_urb(urb, &target, 1,
req, sizeof(*req) + req_pl_size,
rep, sizeof(*rep) + sizeof(*rep_pl));
rc = _zcrypt_send_ep11_cprb(urb);
if (rc) {
DEBUG_ERR(
"%s zcrypt_send_ep11_cprb(card=%d dom=%d) failed, rc=%d\n",
__func__, (int) card, (int) domain, rc);
goto out;
}
rc = check_reply_pl((u8 *)rep_pl, __func__);
if (rc)
goto out;
if (rep_pl->data_tag != 0x04 || rep_pl->data_lenfmt != 0x82) {
DEBUG_ERR("%s unknown reply data format\n", __func__);
rc = -EIO;
goto out;
}
if (rep_pl->data_len > *datasize) {
DEBUG_ERR("%s mismatch reply data len / data buffer len\n",
__func__);
rc = -ENOSPC;
goto out;
}
/* copy the data from the cprb to the data buffer */
memcpy(databuf, rep_pl->data, rep_pl->data_len);
*datasize = rep_pl->data_len;
out:
kfree(req);
kfree(rep);
kfree(urb);
return rc;
}
int ep11_clr2keyblob(u16 card, u16 domain, u32 keybitsize, u32 keygenflags,
const u8 *clrkey, u8 *keybuf, size_t *keybufsize)
{
int rc;
struct ep11keyblob *kb;
u8 encbuf[64], *kek = NULL;
size_t clrkeylen, keklen, encbuflen = sizeof(encbuf);
if (keybitsize == 128 || keybitsize == 192 || keybitsize == 256)
clrkeylen = keybitsize / 8;
else {
DEBUG_ERR(
"%s unknown/unsupported keybitsize %d\n",
__func__, keybitsize);
return -EINVAL;
}
/* allocate memory for the temp kek */
keklen = MAXEP11AESKEYBLOBSIZE;
kek = kmalloc(keklen, GFP_ATOMIC);
if (!kek) {
rc = -ENOMEM;
goto out;
}
/* Step 1: generate AES 256 bit random kek key */
rc = ep11_genaeskey(card, domain, 256,
0x00006c00, /* EN/DECRYPT, WRAP/UNWRAP */
kek, &keklen);
if (rc) {
DEBUG_ERR(
"%s generate kek key failed, rc=%d\n",
__func__, rc);
goto out;
}
kb = (struct ep11keyblob *) kek;
memset(&kb->head, 0, sizeof(kb->head));
/* Step 2: encrypt clear key value with the kek key */
rc = ep11_cryptsingle(card, domain, 0, 0, def_iv, kek, keklen,
clrkey, clrkeylen, encbuf, &encbuflen);
if (rc) {
DEBUG_ERR(
"%s encrypting key value with kek key failed, rc=%d\n",
__func__, rc);
goto out;
}
/* Step 3: import the encrypted key value as a new key */
rc = ep11_unwrapkey(card, domain, kek, keklen,
encbuf, encbuflen, 0, def_iv,
keybitsize, 0, keybuf, keybufsize);
if (rc) {
DEBUG_ERR(
"%s importing key value as new key failed,, rc=%d\n",
__func__, rc);
goto out;
}
out:
kfree(kek);
return rc;
}
EXPORT_SYMBOL(ep11_clr2keyblob);
int ep11_key2protkey(u16 card, u16 dom, const u8 *key, size_t keylen,
u8 *protkey, u32 *protkeylen, u32 *protkeytype)
{
int rc = -EIO;
u8 *wkbuf = NULL;
size_t wkbuflen = 256;
struct wk_info {
u16 version;
u8 res1[16];
u32 pkeytype;
u32 pkeybitsize;
u64 pkeysize;
u8 res2[8];
u8 pkey[0];
} __packed * wki;
/* alloc temp working buffer */
wkbuf = kmalloc(wkbuflen, GFP_ATOMIC);
if (!wkbuf)
return -ENOMEM;
/* ep11 secure key -> protected key + info */
rc = ep11_wrapkey(card, dom, key, keylen,
0, def_iv, wkbuf, &wkbuflen);
if (rc) {
DEBUG_ERR(
"%s rewrapping ep11 key to pkey failed, rc=%d\n",
__func__, rc);
goto out;
}
wki = (struct wk_info *) wkbuf;
/* check struct version and pkey type */
if (wki->version != 1 || wki->pkeytype != 1) {
DEBUG_ERR("%s wk info version %d or pkeytype %d mismatch.\n",
__func__, (int) wki->version, (int) wki->pkeytype);
rc = -EIO;
goto out;
}
/* copy the tanslated protected key */
switch (wki->pkeysize) {
case 16+32:
/* AES 128 protected key */
if (protkeytype)
*protkeytype = PKEY_KEYTYPE_AES_128;
break;
case 24+32:
/* AES 192 protected key */
if (protkeytype)
*protkeytype = PKEY_KEYTYPE_AES_192;
break;
case 32+32:
/* AES 256 protected key */
if (protkeytype)
*protkeytype = PKEY_KEYTYPE_AES_256;
break;
default:
DEBUG_ERR("%s unknown/unsupported pkeysize %d\n",
__func__, (int) wki->pkeysize);
rc = -EIO;
goto out;
}
memcpy(protkey, wki->pkey, wki->pkeysize);
if (protkeylen)
*protkeylen = (u32) wki->pkeysize;
rc = 0;
out:
kfree(wkbuf);
return rc;
}
EXPORT_SYMBOL(ep11_key2protkey);
int ep11_findcard2(u32 **apqns, u32 *nr_apqns, u16 cardnr, u16 domain,
int minhwtype, int minapi, const u8 *wkvp)
{
struct zcrypt_device_status_ext *device_status;
u32 *_apqns = NULL, _nr_apqns = 0;
int i, card, dom, rc = -ENOMEM;
struct ep11_domain_info edi;
struct ep11_card_info eci;
/* fetch status of all crypto cards */
device_status = kvmalloc_array(MAX_ZDEV_ENTRIES_EXT,
sizeof(struct zcrypt_device_status_ext),
GFP_KERNEL);
if (!device_status)
return -ENOMEM;
zcrypt_device_status_mask_ext(device_status);
/* allocate 1k space for up to 256 apqns */
_apqns = kmalloc_array(256, sizeof(u32), GFP_KERNEL);
if (!_apqns) {
kvfree(device_status);
return -ENOMEM;
}
/* walk through all the crypto apqnss */
for (i = 0; i < MAX_ZDEV_ENTRIES_EXT; i++) {
card = AP_QID_CARD(device_status[i].qid);
dom = AP_QID_QUEUE(device_status[i].qid);
/* check online state */
if (!device_status[i].online)
continue;
/* check for ep11 functions */
if (!(device_status[i].functions & 0x01))
continue;
/* check cardnr */
if (cardnr != 0xFFFF && card != cardnr)
continue;
/* check domain */
if (domain != 0xFFFF && dom != domain)
continue;
/* check min hardware type */
if (minhwtype && device_status[i].hwtype < minhwtype)
continue;
/* check min api version if given */
if (minapi > 0) {
if (ep11_get_card_info(card, &eci, 0))
continue;
if (minapi > eci.API_ord_nr)
continue;
}
/* check wkvp if given */
if (wkvp) {
if (ep11_get_domain_info(card, dom, &edi))
continue;
if (edi.cur_wk_state != '1')
continue;
if (memcmp(wkvp, edi.cur_wkvp, 16))
continue;
}
/* apqn passed all filtering criterons, add to the array */
if (_nr_apqns < 256)
_apqns[_nr_apqns++] = (((u16)card) << 16) | ((u16) dom);
}
/* nothing found ? */
if (!_nr_apqns) {
kfree(_apqns);
rc = -ENODEV;
} else {
/* no re-allocation, simple return the _apqns array */
*apqns = _apqns;
*nr_apqns = _nr_apqns;
rc = 0;
}
kvfree(device_status);
return rc;
}
EXPORT_SYMBOL(ep11_findcard2);
void __exit zcrypt_ep11misc_exit(void)
{
card_cache_free();
}