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MokManager.c
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MokManager.c
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// SPDX-License-Identifier: BSD-2-Clause-Patent
#include "shim.h"
#include <Library/BaseCryptLib.h>
#include <openssl/x509.h>
#include <openssl/x509v3.h>
#include <openssl/asn1.h>
#include <openssl/bn.h>
#define PASSWORD_MAX 256
#define PASSWORD_MIN 1
#define SB_PASSWORD_LEN 16
#define NAME_LINE_MAX 70
#ifndef SHIM_VENDOR
#define SHIM_VENDOR L"Shim"
#endif
#define CERT_STRING L"Select an X509 certificate to enroll:\n\n"
#define HASH_STRING L"Select a file to trust:\n\n"
#define CompareMemberGuid(x, y) CompareMem(x, y, sizeof(EFI_GUID))
typedef struct {
UINT32 MokSize;
UINT8 *Mok;
EFI_GUID Type;
} __attribute__ ((packed)) MokListNode;
typedef struct {
UINT32 MokSBState;
UINT32 PWLen;
CHAR16 Password[SB_PASSWORD_LEN];
} __attribute__ ((packed)) MokSBvar;
typedef struct {
UINT32 MokDBState;
UINT32 PWLen;
CHAR16 Password[SB_PASSWORD_LEN];
} __attribute__ ((packed)) MokDBvar;
typedef struct {
UINT32 MokTMLState;
UINT32 PWLen;
CHAR16 Password[SB_PASSWORD_LEN];
} __attribute__ ((packed)) MokTMLvar;
typedef struct {
INT32 Timeout;
} __attribute__ ((packed)) MokTimeoutvar;
static EFI_STATUS get_sha1sum(void *Data, int DataSize, UINT8 * hash)
{
EFI_STATUS efi_status;
unsigned int ctxsize;
void *ctx = NULL;
ctxsize = Sha1GetContextSize();
ctx = AllocatePool(ctxsize);
if (!ctx) {
console_notify(L"Unable to allocate memory for hash context");
return EFI_OUT_OF_RESOURCES;
}
if (!Sha1Init(ctx)) {
console_notify(L"Unable to initialise hash");
efi_status = EFI_OUT_OF_RESOURCES;
goto done;
}
if (!(Sha1Update(ctx, Data, DataSize))) {
console_notify(L"Unable to generate hash");
efi_status = EFI_OUT_OF_RESOURCES;
goto done;
}
if (!(Sha1Final(ctx, hash))) {
console_notify(L"Unable to finalise hash");
efi_status = EFI_OUT_OF_RESOURCES;
goto done;
}
efi_status = EFI_SUCCESS;
done:
return efi_status;
}
static BOOLEAN is_sha2_hash(EFI_GUID Type)
{
if (CompareGuid(&Type, &EFI_CERT_SHA224_GUID) == 0)
return TRUE;
else if (CompareGuid(&Type, &EFI_CERT_SHA256_GUID) == 0)
return TRUE;
else if (CompareGuid(&Type, &EFI_CERT_SHA384_GUID) == 0)
return TRUE;
else if (CompareGuid(&Type, &EFI_CERT_SHA512_GUID) == 0)
return TRUE;
return FALSE;
}
static UINT32 sha_size(EFI_GUID Type)
{
if (CompareGuid(&Type, &EFI_CERT_SHA1_GUID) == 0)
return SHA1_DIGEST_SIZE;
else if (CompareGuid(&Type, &EFI_CERT_SHA224_GUID) == 0)
return SHA224_DIGEST_LENGTH;
else if (CompareGuid(&Type, &EFI_CERT_SHA256_GUID) == 0)
return SHA256_DIGEST_SIZE;
else if (CompareGuid(&Type, &EFI_CERT_SHA384_GUID) == 0)
return SHA384_DIGEST_LENGTH;
else if (CompareGuid(&Type, &EFI_CERT_SHA512_GUID) == 0)
return SHA512_DIGEST_LENGTH;
return 0;
}
static BOOLEAN is_valid_siglist(EFI_GUID Type, UINT32 SigSize)
{
UINT32 hash_sig_size;
if (CompareGuid (&Type, &X509_GUID) == 0 && SigSize != 0)
return TRUE;
if (!is_sha2_hash(Type))
return FALSE;
hash_sig_size = sha_size(Type) + sizeof(EFI_GUID);
if (SigSize != hash_sig_size)
return FALSE;
return TRUE;
}
static UINT32 count_keys(void *Data, UINTN DataSize)
{
EFI_SIGNATURE_LIST *CertList = Data;
UINTN dbsize = DataSize;
UINT32 MokNum = 0;
void *end = Data + DataSize;
while ((dbsize > 0) && (dbsize >= CertList->SignatureListSize)) {
/* Use ptr arithmetics to ensure bounded access. Do not allow 0
* SignatureListSize that will cause endless loop. */
if ((void *)(CertList + 1) > end
|| CertList->SignatureListSize == 0) {
console_notify
(L"Invalid MOK detected! Ignoring MOK List.");
return 0;
}
if (CertList->SignatureListSize == 0 ||
CertList->SignatureListSize <= CertList->SignatureSize) {
console_errorbox(L"Corrupted signature list");
return 0;
}
if (!is_valid_siglist
(CertList->SignatureType, CertList->SignatureSize)) {
console_errorbox(L"Invalid signature list found");
return 0;
}
MokNum++;
dbsize -= CertList->SignatureListSize;
CertList = (EFI_SIGNATURE_LIST *) ((UINT8 *) CertList +
CertList->SignatureListSize);
}
return MokNum;
}
static MokListNode *build_mok_list(UINT32 num, void *Data, UINTN DataSize)
{
MokListNode *list;
EFI_SIGNATURE_LIST *CertList = Data;
EFI_SIGNATURE_DATA *Cert;
UINTN dbsize = DataSize;
UINTN count = 0;
void *end = Data + DataSize;
list = AllocatePool(sizeof(MokListNode) * num);
if (!list) {
console_notify(L"Unable to allocate MOK list");
return NULL;
}
while ((dbsize > 0) && (dbsize >= CertList->SignatureListSize)) {
/* CertList out of bounds? */
if ((void *)(CertList + 1) > end
|| CertList->SignatureListSize == 0) {
FreePool(list);
return NULL;
}
/* Omit the signature check here since we already did it
in count_keys() */
Cert = (EFI_SIGNATURE_DATA *) (((UINT8 *) CertList) +
sizeof(EFI_SIGNATURE_LIST) +
CertList->SignatureHeaderSize);
/* Cert out of bounds? */
if ((void *)(Cert + 1) > end
|| CertList->SignatureSize <= sizeof(EFI_GUID)) {
FreePool(list);
return NULL;
}
list[count].Type = CertList->SignatureType;
if (CompareGuid (&CertList->SignatureType, &X509_GUID) == 0) {
list[count].MokSize = CertList->SignatureSize -
sizeof(EFI_GUID);
list[count].Mok = (void *)Cert->SignatureData;
} else {
list[count].MokSize = CertList->SignatureListSize -
sizeof(EFI_SIGNATURE_LIST);
list[count].Mok = (void *)Cert;
}
/* MOK out of bounds? */
if (list[count].MokSize > (unsigned long)end -
(unsigned long)list[count].Mok) {
FreePool(list);
return NULL;
}
count++;
dbsize -= CertList->SignatureListSize;
CertList = (EFI_SIGNATURE_LIST *) ((UINT8 *) CertList +
CertList->SignatureListSize);
}
return list;
}
typedef struct {
int nid;
CHAR16 *name;
} NidName;
static NidName nidname[] = {
{NID_commonName, L"CN"},
{NID_organizationName, L"O"},
{NID_countryName, L"C"},
{NID_stateOrProvinceName, L"ST"},
{NID_localityName, L"L"},
{-1, NULL}
};
static CHAR16 *get_x509_name(X509_NAME * X509Name)
{
CHAR16 name[NAME_LINE_MAX + 1];
CHAR16 part[NAME_LINE_MAX + 1];
char str[NAME_LINE_MAX];
int i, len, rest, first;
name[0] = '\0';
rest = NAME_LINE_MAX;
first = 1;
for (i = 0; nidname[i].name != NULL; i++) {
int add;
len = X509_NAME_get_text_by_NID(X509Name, nidname[i].nid,
str, NAME_LINE_MAX);
if (len <= 0)
continue;
if (first)
add = len + (int)StrLen(nidname[i].name) + 1;
else
add = len + (int)StrLen(nidname[i].name) + 3;
if (add > rest)
continue;
if (first) {
SPrint(part, NAME_LINE_MAX * sizeof(CHAR16), L"%s=%a",
nidname[i].name, str);
} else {
SPrint(part, NAME_LINE_MAX * sizeof(CHAR16), L", %s=%a",
nidname[i].name, str);
}
StrCat(name, part);
rest -= add;
first = 0;
}
if (rest >= 0 && rest < NAME_LINE_MAX)
return PoolPrint(L"%s", name);
return NULL;
}
static CHAR16 *get_x509_time(ASN1_TIME * time)
{
BIO *bio = BIO_new(BIO_s_mem());
char str[30];
int len;
ASN1_TIME_print(bio, time);
len = BIO_read(bio, str, 29);
if (len < 0)
len = 0;
str[len] = '\0';
BIO_free(bio);
return PoolPrint(L"%a", str);
}
static void show_x509_info(X509 * X509Cert, UINT8 * hash)
{
ASN1_INTEGER *serial;
BIGNUM *bnser;
unsigned char hexbuf[30];
X509_NAME *X509Name;
ASN1_TIME *time;
CHAR16 *issuer = NULL;
CHAR16 *subject = NULL;
CHAR16 *from = NULL;
CHAR16 *until = NULL;
EXTENDED_KEY_USAGE *extusage;
POOL_PRINT hash_string1;
POOL_PRINT hash_string2;
POOL_PRINT serial_string;
int fields = 0;
CHAR16 **text;
int i = 0;
ZeroMem(&hash_string1, sizeof(hash_string1));
ZeroMem(&hash_string2, sizeof(hash_string2));
ZeroMem(&serial_string, sizeof(serial_string));
serial = X509_get_serialNumber(X509Cert);
if (serial) {
int i, n;
bnser = ASN1_INTEGER_to_BN(serial, NULL);
n = BN_bn2bin(bnser, hexbuf);
for (i = 0; i < n; i++) {
CatPrint(&serial_string, L"%02x:", hexbuf[i]);
}
BN_free(bnser);
}
if (serial_string.str)
fields++;
X509Name = X509_get_issuer_name(X509Cert);
if (X509Name) {
issuer = get_x509_name(X509Name);
if (issuer)
fields++;
}
X509Name = X509_get_subject_name(X509Cert);
if (X509Name) {
subject = get_x509_name(X509Name);
if (subject)
fields++;
}
time = X509_get_notBefore(X509Cert);
if (time) {
from = get_x509_time(time);
if (from)
fields++;
}
time = X509_get_notAfter(X509Cert);
if (time) {
until = get_x509_time(time);
if (until)
fields++;
}
for (i = 0; i < 10; i++)
CatPrint(&hash_string1, L"%02x ", hash[i]);
for (i = 10; i < 20; i++)
CatPrint(&hash_string2, L"%02x ", hash[i]);
if (hash_string1.str)
fields++;
if (hash_string2.str)
fields++;
if (!fields)
return;
i = 0;
extusage = X509_get_ext_d2i(X509Cert, NID_ext_key_usage, NULL, NULL);
text = AllocateZeroPool(sizeof(CHAR16 *) *
(fields * 3 +
sk_ASN1_OBJECT_num(extusage) + 3));
if (extusage) {
int j = 0;
text[i++] = StrDuplicate(L"[Extended Key Usage]");
for (j = 0; j < sk_ASN1_OBJECT_num(extusage); j++) {
POOL_PRINT extkeyusage;
ASN1_OBJECT *obj = sk_ASN1_OBJECT_value(extusage, j);
int buflen = 80;
char buf[buflen];
ZeroMem(&extkeyusage, sizeof(extkeyusage));
OBJ_obj2txt(buf, buflen, obj, 0);
CatPrint(&extkeyusage, L"OID: %a", buf);
text[i++] = StrDuplicate(extkeyusage.str);
FreePool(extkeyusage.str);
}
text[i++] = StrDuplicate(L"");
EXTENDED_KEY_USAGE_free(extusage);
}
if (serial_string.str) {
text[i++] = StrDuplicate(L"[Serial Number]");
text[i++] = serial_string.str;
text[i++] = StrDuplicate(L"");
}
if (issuer) {
text[i++] = StrDuplicate(L"[Issuer]");
text[i++] = issuer;
text[i++] = StrDuplicate(L"");
}
if (subject) {
text[i++] = StrDuplicate(L"[Subject]");
text[i++] = subject;
text[i++] = StrDuplicate(L"");
}
if (from) {
text[i++] = StrDuplicate(L"[Valid Not Before]");
text[i++] = from;
text[i++] = StrDuplicate(L"");
}
if (until) {
text[i++] = StrDuplicate(L"[Valid Not After]");
text[i++] = until;
text[i++] = StrDuplicate(L"");
}
if (hash_string1.str) {
text[i++] = StrDuplicate(L"[Fingerprint]");
text[i++] = hash_string1.str;
}
if (hash_string2.str) {
text[i++] = hash_string2.str;
text[i++] = StrDuplicate(L"");
}
text[i] = NULL;
console_print_box(text, -1);
for (i = 0; text[i] != NULL; i++)
FreePool(text[i]);
FreePool(text);
}
static void show_sha_digest(EFI_GUID Type, UINT8 * hash)
{
CHAR16 *text[5];
POOL_PRINT hash_string1;
POOL_PRINT hash_string2;
int i;
int length;
if (CompareGuid(&Type, &EFI_CERT_SHA1_GUID) == 0) {
length = SHA1_DIGEST_SIZE;
text[0] = L"SHA1 hash";
} else if (CompareGuid(&Type, &EFI_CERT_SHA224_GUID) == 0) {
length = SHA224_DIGEST_LENGTH;
text[0] = L"SHA224 hash";
} else if (CompareGuid(&Type, &EFI_CERT_SHA256_GUID) == 0) {
length = SHA256_DIGEST_SIZE;
text[0] = L"SHA256 hash";
} else if (CompareGuid(&Type, &EFI_CERT_SHA384_GUID) == 0) {
length = SHA384_DIGEST_LENGTH;
text[0] = L"SHA384 hash";
} else if (CompareGuid(&Type, &EFI_CERT_SHA512_GUID) == 0) {
length = SHA512_DIGEST_LENGTH;
text[0] = L"SHA512 hash";
} else {
return;
}
ZeroMem(&hash_string1, sizeof(hash_string1));
ZeroMem(&hash_string2, sizeof(hash_string2));
text[1] = L"";
for (i = 0; i < length / 2; i++)
CatPrint(&hash_string1, L"%02x ", hash[i]);
for (i = length / 2; i < length; i++)
CatPrint(&hash_string2, L"%02x ", hash[i]);
text[2] = hash_string1.str;
text[3] = hash_string2.str;
text[4] = NULL;
console_print_box(text, -1);
if (hash_string1.str)
FreePool(hash_string1.str);
if (hash_string2.str)
FreePool(hash_string2.str);
}
static void show_efi_hash(EFI_GUID Type, void *Mok, UINTN MokSize)
{
UINTN sig_size;
UINTN hash_num;
UINT8 *hash;
CHAR16 **menu_strings;
CHAR16 *selection[] = { L"[Hash List]", NULL };
UINTN key_num = 0;
UINTN i;
sig_size = sha_size(Type) + sizeof(EFI_GUID);
if ((MokSize % sig_size) != 0) {
console_errorbox(L"Corrupted Hash List");
return;
}
hash_num = MokSize / sig_size;
if (hash_num == 1) {
hash = (UINT8 *) Mok + sizeof(EFI_GUID);
show_sha_digest(Type, hash);
return;
}
menu_strings = AllocateZeroPool(sizeof(CHAR16 *) * (hash_num + 2));
if (!menu_strings) {
console_errorbox(L"Out of Resources");
return;
}
for (i = 0; i < hash_num; i++) {
menu_strings[i] = PoolPrint(L"View hash %d", i);
}
menu_strings[i] = StrDuplicate(L"Back");
menu_strings[i + 1] = NULL;
while (key_num < hash_num) {
int rc;
key_num = rc = console_select(selection, menu_strings, key_num);
if (rc < 0 || key_num >= hash_num)
break;
hash = (UINT8 *) Mok + sig_size * key_num + sizeof(EFI_GUID);
show_sha_digest(Type, hash);
}
for (i = 0; menu_strings[i] != NULL; i++)
FreePool(menu_strings[i]);
FreePool(menu_strings);
}
static void show_mok_info(EFI_GUID Type, void *Mok, UINTN MokSize)
{
EFI_STATUS efi_status;
if (!Mok || MokSize == 0)
return;
if (CompareGuid (&Type, &X509_GUID) == 0) {
UINT8 hash[SHA1_DIGEST_SIZE];
X509 *X509Cert;
efi_status = get_sha1sum(Mok, MokSize, hash);
if (EFI_ERROR(efi_status)) {
console_notify(L"Failed to compute MOK fingerprint");
return;
}
if (X509ConstructCertificate(Mok, MokSize,
(UINT8 **) & X509Cert)
&& X509Cert != NULL) {
show_x509_info(X509Cert, hash);
X509_free(X509Cert);
} else {
console_notify(L"Not a valid X509 certificate");
return;
}
} else if (is_sha2_hash(Type)) {
show_efi_hash(Type, Mok, MokSize);
}
}
static EFI_STATUS list_keys(void *KeyList, UINTN KeyListSize, CHAR16 * title)
{
UINTN MokNum = 0;
MokListNode *keys = NULL;
UINT32 key_num = 0;
CHAR16 **menu_strings;
CHAR16 *selection[] = { title, NULL };
unsigned int i;
if (KeyListSize < (sizeof(EFI_SIGNATURE_LIST) +
sizeof(EFI_SIGNATURE_DATA))) {
console_notify(L"No MOK keys found");
return EFI_NOT_FOUND;
}
MokNum = count_keys(KeyList, KeyListSize);
if (MokNum == 0) {
console_errorbox(L"Invalid key list");
return EFI_ABORTED;
}
keys = build_mok_list(MokNum, KeyList, KeyListSize);
if (!keys) {
console_errorbox(L"Failed to construct key list");
return EFI_ABORTED;
}
menu_strings = AllocateZeroPool(sizeof(CHAR16 *) * (MokNum + 2));
if (!menu_strings)
return EFI_OUT_OF_RESOURCES;
for (i = 0; i < MokNum; i++) {
menu_strings[i] = PoolPrint(L"View key %d", i);
}
menu_strings[i] = StrDuplicate(L"Continue");
menu_strings[i + 1] = NULL;
while (key_num < MokNum) {
int rc;
rc = key_num = console_select(selection, menu_strings, key_num);
if (rc < 0 || key_num >= MokNum)
break;
show_mok_info(keys[key_num].Type, keys[key_num].Mok,
keys[key_num].MokSize);
}
for (i = 0; menu_strings[i] != NULL; i++)
FreePool(menu_strings[i]);
FreePool(menu_strings);
FreePool(keys);
return EFI_SUCCESS;
}
static EFI_STATUS get_line(UINT32 * length, CHAR16 * line, UINT32 line_max,
UINT8 show)
{
EFI_INPUT_KEY key;
EFI_STATUS efi_status;
unsigned int count = 0;
do {
efi_status = console_get_keystroke(&key);
if (EFI_ERROR(efi_status)) {
console_error(L"Failed to read the keystroke",
efi_status);
*length = 0;
return efi_status;
}
if ((count >= line_max &&
key.UnicodeChar != CHAR_BACKSPACE) ||
key.UnicodeChar == CHAR_NULL ||
key.UnicodeChar == CHAR_TAB ||
key.UnicodeChar == CHAR_LINEFEED ||
key.UnicodeChar == CHAR_CARRIAGE_RETURN) {
continue;
}
if (count == 0 && key.UnicodeChar == CHAR_BACKSPACE) {
continue;
} else if (key.UnicodeChar == CHAR_BACKSPACE) {
if (show) {
console_print(L"\b");
}
line[--count] = '\0';
continue;
}
if (show) {
console_print(L"%c", key.UnicodeChar);
}
line[count++] = key.UnicodeChar;
} while (key.UnicodeChar != CHAR_CARRIAGE_RETURN);
console_print(L"\n");
*length = count;
return EFI_SUCCESS;
}
static EFI_STATUS compute_pw_hash(void *Data, UINTN DataSize, UINT8 * password,
UINT32 pw_length, UINT8 * hash)
{
EFI_STATUS efi_status;
unsigned int ctxsize;
void *ctx = NULL;
ctxsize = Sha256GetContextSize();
ctx = AllocatePool(ctxsize);
if (!ctx) {
console_notify(L"Unable to allocate memory for hash context");
return EFI_OUT_OF_RESOURCES;
}
if (!Sha256Init(ctx)) {
console_notify(L"Unable to initialise hash");
efi_status = EFI_OUT_OF_RESOURCES;
goto done;
}
if (Data && DataSize) {
if (!(Sha256Update(ctx, Data, DataSize))) {
console_notify(L"Unable to generate hash");
efi_status = EFI_OUT_OF_RESOURCES;
goto done;
}
}
if (!(Sha256Update(ctx, password, pw_length))) {
console_notify(L"Unable to generate hash");
efi_status = EFI_OUT_OF_RESOURCES;
goto done;
}
if (!(Sha256Final(ctx, hash))) {
console_notify(L"Unable to finalise hash");
efi_status = EFI_OUT_OF_RESOURCES;
goto done;
}
efi_status = EFI_SUCCESS;
done:
return efi_status;
}
static INTN reset_system()
{
RT->ResetSystem(EfiResetWarm, EFI_SUCCESS, 0, NULL);
console_notify(L"Failed to reboot\n");
return -1;
}
static UINT32 get_password(CHAR16 * prompt, CHAR16 * password, UINT32 max)
{
SIMPLE_TEXT_OUTPUT_MODE SavedMode;
CHAR16 *str;
CHAR16 *message[2];
UINTN length;
UINT32 pw_length;
if (!prompt)
prompt = L"Password:";
console_save_and_set_mode(&SavedMode);
str = PoolPrint(L"%s ", prompt);
if (!str) {
console_errorbox(L"Failed to allocate prompt");
return 0;
}
message[0] = str;
message[1] = NULL;
length = StrLen(message[0]);
console_print_box_at(message, -1, -length - 4, -5, length + 4, 3, 0, 1);
get_line(&pw_length, password, max, 0);
console_restore_mode(&SavedMode);
FreePool(str);
return pw_length;
}
static EFI_STATUS match_password(PASSWORD_CRYPT * pw_crypt,
void *Data, UINTN DataSize,
UINT8 * auth, CHAR16 * prompt)
{
EFI_STATUS efi_status;
UINT8 hash[128];
UINT8 *auth_hash;
UINT32 auth_size;
CHAR16 password[PASSWORD_MAX];
UINT32 pw_length;
UINT8 fail_count = 0;
unsigned int i;
if (pw_crypt) {
auth_hash = pw_crypt->hash;
auth_size = get_hash_size(pw_crypt->method);
if (auth_size == 0)
return EFI_INVALID_PARAMETER;
} else if (auth) {
auth_hash = auth;
auth_size = SHA256_DIGEST_SIZE;
} else {
return EFI_INVALID_PARAMETER;
}
while (fail_count < 3) {
pw_length = get_password(prompt, password, PASSWORD_MAX);
if (pw_length < PASSWORD_MIN || pw_length > PASSWORD_MAX) {
console_errorbox(L"Invalid password length");
fail_count++;
continue;
}
/*
* Compute password hash
*/
if (pw_crypt) {
char pw_ascii[PASSWORD_MAX + 1];
for (i = 0; i < pw_length; i++)
pw_ascii[i] = (char)password[i];
pw_ascii[pw_length] = '\0';
efi_status = password_crypt(pw_ascii, pw_length,
pw_crypt, hash);
} else {
/*
* For backward compatibility
*/
efi_status = compute_pw_hash(Data, DataSize,
(UINT8 *) password,
pw_length * sizeof(CHAR16),
hash);
}
if (EFI_ERROR(efi_status)) {
console_errorbox(L"Unable to generate password hash");
fail_count++;
continue;
}
if (CompareMem(auth_hash, hash, auth_size) != 0) {
console_errorbox(L"Password doesn't match");
fail_count++;
continue;
}
break;
}
if (fail_count >= 3)
return EFI_ACCESS_DENIED;
return EFI_SUCCESS;
}
static EFI_STATUS write_db(CHAR16 * db_name, void *MokNew, UINTN MokNewSize)
{
EFI_STATUS efi_status;
UINT32 attributes;
void *old_data = NULL;
void *new_data = NULL;
UINTN old_size;
UINTN new_size;
/* Do not use EFI_VARIABLE_APPEND_WRITE due to faulty firmwares.
* ref: https://github.com/rhboot/shim/issues/55
* https://github.com/rhboot/shim/issues/105 */
efi_status = get_variable_attr(db_name, (UINT8 **)&old_data, &old_size,
SHIM_LOCK_GUID, &attributes);
if (EFI_ERROR(efi_status) && efi_status != EFI_NOT_FOUND) {
return efi_status;
}
/* Check if the old db is compromised or not */
if (attributes & EFI_VARIABLE_RUNTIME_ACCESS) {
FreePool(old_data);
old_data = NULL;
old_size = 0;
}
new_size = old_size + MokNewSize;
new_data = AllocatePool(new_size);
if (new_data == NULL) {
efi_status = EFI_OUT_OF_RESOURCES;
goto out;
}
CopyMem(new_data, old_data, old_size);
CopyMem(new_data + old_size, MokNew, MokNewSize);
efi_status = RT->SetVariable(db_name, &SHIM_LOCK_GUID,
EFI_VARIABLE_NON_VOLATILE |
EFI_VARIABLE_BOOTSERVICE_ACCESS,
new_size, new_data);
out:
if (old_size > 0) {
FreePool(old_data);
}
if (new_data != NULL) {
FreePool(new_data);
}
return efi_status;
}
static EFI_STATUS store_keys(void *MokNew, UINTN MokNewSize, int authenticate,
BOOLEAN MokX)
{
EFI_STATUS efi_status;
CHAR16 *db_name;
CHAR16 *auth_name;
UINT8 auth[PASSWORD_CRYPT_SIZE];
UINTN auth_size = PASSWORD_CRYPT_SIZE;
UINT32 attributes;
if (MokX) {
db_name = L"MokListX";
auth_name = L"MokXAuth";
} else {
db_name = L"MokList";
auth_name = L"MokAuth";
}
if (authenticate) {
efi_status = RT->GetVariable(auth_name, &SHIM_LOCK_GUID,
&attributes, &auth_size, auth);
if (EFI_ERROR(efi_status) ||
(auth_size != SHA256_DIGEST_SIZE &&
auth_size != PASSWORD_CRYPT_SIZE)) {
if (MokX)
console_error(L"Failed to get MokXAuth",
efi_status);
else
console_error(L"Failed to get MokAuth",
efi_status);
return efi_status;
}
if (auth_size == PASSWORD_CRYPT_SIZE) {
efi_status = match_password((PASSWORD_CRYPT *) auth,
NULL, 0, NULL, NULL);
} else {
efi_status = match_password(NULL, MokNew, MokNewSize,
auth, NULL);
}
if (EFI_ERROR(efi_status))
return EFI_ACCESS_DENIED;
}
if (!MokNewSize) {
/* Delete MOK */
efi_status = RT->SetVariable(db_name, &SHIM_LOCK_GUID,
EFI_VARIABLE_NON_VOLATILE |
EFI_VARIABLE_BOOTSERVICE_ACCESS,
0, NULL);
} else {
/* Write new MOK */
efi_status = write_db(db_name, MokNew, MokNewSize);
}
if (EFI_ERROR(efi_status)) {
console_error(L"Failed to set variable", efi_status);
return efi_status;
}
return EFI_SUCCESS;
}
static EFI_STATUS mok_enrollment_prompt(void *MokNew, UINTN MokNewSize,
int auth, BOOLEAN MokX)
{
EFI_STATUS efi_status;
CHAR16 *enroll_p[] = { L"Enroll the key(s)?", NULL };
CHAR16 *title;
if (MokX)
title = L"[Enroll MOKX]";
else
title = L"[Enroll MOK]";
efi_status = list_keys(MokNew, MokNewSize, title);
if (EFI_ERROR(efi_status))
return efi_status;
if (console_yes_no(enroll_p) == 0)
return EFI_ABORTED;
efi_status = store_keys(MokNew, MokNewSize, auth, MokX);
if (EFI_ERROR(efi_status)) {
console_notify(L"Failed to enroll keys\n");
return efi_status;
}
if (auth) {
if (MokX) {
LibDeleteVariable(L"MokXNew", &SHIM_LOCK_GUID);
LibDeleteVariable(L"MokXAuth", &SHIM_LOCK_GUID);