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|
/*
* CCID Card Device. Emulated card.
*
* Copyright (c) 2011 Red Hat.
* Written by Alon Levy.
*
* This code is licensed under the GNU LGPL, version 2 or later.
*/
/*
* It can be used to provide access to the local hardware in a non exclusive
* way, or it can use certificates. It requires the usb-ccid bus.
*
* Usage 1: standard, mirror hardware reader+card:
* qemu .. -usb -device usb-ccid -device ccid-card-emulated
*
* Usage 2: use certificates, no hardware required
* one time: create the certificates:
* for i in 1 2 3; do
* certutil -d /etc/pki/nssdb -x -t "CT,CT,CT" -S -s "CN=user$i" -n user$i
* done
* qemu .. -usb -device usb-ccid \
* -device ccid-card-emulated,cert1=user1,cert2=user2,cert3=user3
*
* If you use a non default db for the certificates you can specify it using
* the db parameter.
*/
#include <eventt.h>
#include <vevent.h>
#include <vreader.h>
#include <vcard_emul.h>
#include "qemu/thread.h"
#include "sysemu/char.h"
#include "monitor/monitor.h"
#include "ccid.h"
#define DPRINTF(card, lvl, fmt, ...) \
do {\
if (lvl <= card->debug) {\
printf("ccid-card-emul: %s: " fmt , __func__, ## __VA_ARGS__);\
} \
} while (0)
#define EMULATED_DEV_NAME "ccid-card-emulated"
#define BACKEND_NSS_EMULATED_NAME "nss-emulated"
#define BACKEND_CERTIFICATES_NAME "certificates"
enum {
BACKEND_NSS_EMULATED = 1,
BACKEND_CERTIFICATES
};
#define DEFAULT_BACKEND BACKEND_NSS_EMULATED
typedef struct EmulatedState EmulatedState;
enum {
EMUL_READER_INSERT = 0,
EMUL_READER_REMOVE,
EMUL_CARD_INSERT,
EMUL_CARD_REMOVE,
EMUL_GUEST_APDU,
EMUL_RESPONSE_APDU,
EMUL_ERROR,
};
static const char *emul_event_to_string(uint32_t emul_event)
{
switch (emul_event) {
case EMUL_READER_INSERT:
return "EMUL_READER_INSERT";
case EMUL_READER_REMOVE:
return "EMUL_READER_REMOVE";
case EMUL_CARD_INSERT:
return "EMUL_CARD_INSERT";
case EMUL_CARD_REMOVE:
return "EMUL_CARD_REMOVE";
case EMUL_GUEST_APDU:
return "EMUL_GUEST_APDU";
case EMUL_RESPONSE_APDU:
return "EMUL_RESPONSE_APDU";
case EMUL_ERROR:
return "EMUL_ERROR";
}
return "UNKNOWN";
}
typedef struct EmulEvent {
QSIMPLEQ_ENTRY(EmulEvent) entry;
union {
struct {
uint32_t type;
} gen;
struct {
uint32_t type;
uint64_t code;
} error;
struct {
uint32_t type;
uint32_t len;
uint8_t data[];
} data;
} p;
} EmulEvent;
#define MAX_ATR_SIZE 40
struct EmulatedState {
CCIDCardState base;
uint8_t debug;
char *backend_str;
uint32_t backend;
char *cert1;
char *cert2;
char *cert3;
char *db;
uint8_t atr[MAX_ATR_SIZE];
uint8_t atr_length;
QSIMPLEQ_HEAD(event_list, EmulEvent) event_list;
QemuMutex event_list_mutex;
QemuThread event_thread_id;
VReader *reader;
QSIMPLEQ_HEAD(guest_apdu_list, EmulEvent) guest_apdu_list;
QemuMutex vreader_mutex; /* and guest_apdu_list mutex */
QemuMutex handle_apdu_mutex;
QemuCond handle_apdu_cond;
int pipe[2];
int quit_apdu_thread;
QemuThread apdu_thread_id;
};
static void emulated_apdu_from_guest(CCIDCardState *base,
const uint8_t *apdu, uint32_t len)
{
EmulatedState *card = DO_UPCAST(EmulatedState, base, base);
EmulEvent *event = (EmulEvent *)g_malloc(sizeof(EmulEvent) + len);
assert(event);
event->p.data.type = EMUL_GUEST_APDU;
event->p.data.len = len;
memcpy(event->p.data.data, apdu, len);
qemu_mutex_lock(&card->vreader_mutex);
QSIMPLEQ_INSERT_TAIL(&card->guest_apdu_list, event, entry);
qemu_mutex_unlock(&card->vreader_mutex);
qemu_mutex_lock(&card->handle_apdu_mutex);
qemu_cond_signal(&card->handle_apdu_cond);
qemu_mutex_unlock(&card->handle_apdu_mutex);
}
static const uint8_t *emulated_get_atr(CCIDCardState *base, uint32_t *len)
{
EmulatedState *card = DO_UPCAST(EmulatedState, base, base);
*len = card->atr_length;
return card->atr;
}
static void emulated_push_event(EmulatedState *card, EmulEvent *event)
{
qemu_mutex_lock(&card->event_list_mutex);
QSIMPLEQ_INSERT_TAIL(&(card->event_list), event, entry);
qemu_mutex_unlock(&card->event_list_mutex);
if (write(card->pipe[1], card, 1) != 1) {
DPRINTF(card, 1, "write to pipe failed\n");
}
}
static void emulated_push_type(EmulatedState *card, uint32_t type)
{
EmulEvent *event = (EmulEvent *)g_malloc(sizeof(EmulEvent));
assert(event);
event->p.gen.type = type;
emulated_push_event(card, event);
}
static void emulated_push_error(EmulatedState *card, uint64_t code)
{
EmulEvent *event = (EmulEvent *)g_malloc(sizeof(EmulEvent));
assert(event);
event->p.error.type = EMUL_ERROR;
event->p.error.code = code;
emulated_push_event(card, event);
}
static void emulated_push_data_type(EmulatedState *card, uint32_t type,
const uint8_t *data, uint32_t len)
{
EmulEvent *event = (EmulEvent *)g_malloc(sizeof(EmulEvent) + len);
assert(event);
event->p.data.type = type;
event->p.data.len = len;
memcpy(event->p.data.data, data, len);
emulated_push_event(card, event);
}
static void emulated_push_reader_insert(EmulatedState *card)
{
emulated_push_type(card, EMUL_READER_INSERT);
}
static void emulated_push_reader_remove(EmulatedState *card)
{
emulated_push_type(card, EMUL_READER_REMOVE);
}
static void emulated_push_card_insert(EmulatedState *card,
const uint8_t *atr, uint32_t len)
{
emulated_push_data_type(card, EMUL_CARD_INSERT, atr, len);
}
static void emulated_push_card_remove(EmulatedState *card)
{
emulated_push_type(card, EMUL_CARD_REMOVE);
}
static void emulated_push_response_apdu(EmulatedState *card,
const uint8_t *apdu, uint32_t len)
{
emulated_push_data_type(card, EMUL_RESPONSE_APDU, apdu, len);
}
#define APDU_BUF_SIZE 270
static void *handle_apdu_thread(void* arg)
{
EmulatedState *card = arg;
uint8_t recv_data[APDU_BUF_SIZE];
int recv_len;
VReaderStatus reader_status;
EmulEvent *event;
while (1) {
qemu_mutex_lock(&card->handle_apdu_mutex);
qemu_cond_wait(&card->handle_apdu_cond, &card->handle_apdu_mutex);
qemu_mutex_unlock(&card->handle_apdu_mutex);
if (card->quit_apdu_thread) {
card->quit_apdu_thread = 0; /* debugging */
break;
}
qemu_mutex_lock(&card->vreader_mutex);
while (!QSIMPLEQ_EMPTY(&card->guest_apdu_list)) {
event = QSIMPLEQ_FIRST(&card->guest_apdu_list);
assert((unsigned long)event > 1000);
QSIMPLEQ_REMOVE_HEAD(&card->guest_apdu_list, entry);
if (event->p.data.type != EMUL_GUEST_APDU) {
DPRINTF(card, 1, "unexpected message in handle_apdu_thread\n");
g_free(event);
continue;
}
if (card->reader == NULL) {
DPRINTF(card, 1, "reader is NULL\n");
g_free(event);
continue;
}
recv_len = sizeof(recv_data);
reader_status = vreader_xfr_bytes(card->reader,
event->p.data.data, event->p.data.len,
recv_data, &recv_len);
DPRINTF(card, 2, "got back apdu of length %d\n", recv_len);
if (reader_status == VREADER_OK) {
emulated_push_response_apdu(card, recv_data, recv_len);
} else {
emulated_push_error(card, reader_status);
}
g_free(event);
}
qemu_mutex_unlock(&card->vreader_mutex);
}
return NULL;
}
static void *event_thread(void *arg)
{
int atr_len = MAX_ATR_SIZE;
uint8_t atr[MAX_ATR_SIZE];
VEvent *event = NULL;
EmulatedState *card = arg;
while (1) {
const char *reader_name;
event = vevent_wait_next_vevent();
if (event == NULL || event->type == VEVENT_LAST) {
break;
}
if (event->type != VEVENT_READER_INSERT) {
if (card->reader == NULL && event->reader != NULL) {
/* Happens after device_add followed by card remove or insert.
* XXX: create synthetic add_reader events if vcard_emul_init
* already called, which happens if device_del and device_add
* are called */
card->reader = vreader_reference(event->reader);
} else {
if (event->reader != card->reader) {
fprintf(stderr,
"ERROR: wrong reader: quiting event_thread\n");
break;
}
}
}
switch (event->type) {
case VEVENT_READER_INSERT:
/* TODO: take a specific reader. i.e. track which reader
* we are seeing here, check it is the one we want (the first,
* or by a particular name), and ignore if we don't want it.
*/
reader_name = vreader_get_name(event->reader);
if (card->reader != NULL) {
DPRINTF(card, 2, "READER INSERT - replacing %s with %s\n",
vreader_get_name(card->reader), reader_name);
qemu_mutex_lock(&card->vreader_mutex);
vreader_free(card->reader);
qemu_mutex_unlock(&card->vreader_mutex);
emulated_push_reader_remove(card);
}
qemu_mutex_lock(&card->vreader_mutex);
DPRINTF(card, 2, "READER INSERT %s\n", reader_name);
card->reader = vreader_reference(event->reader);
qemu_mutex_unlock(&card->vreader_mutex);
emulated_push_reader_insert(card);
break;
case VEVENT_READER_REMOVE:
DPRINTF(card, 2, " READER REMOVE: %s\n",
vreader_get_name(event->reader));
qemu_mutex_lock(&card->vreader_mutex);
vreader_free(card->reader);
card->reader = NULL;
qemu_mutex_unlock(&card->vreader_mutex);
emulated_push_reader_remove(card);
break;
case VEVENT_CARD_INSERT:
/* get the ATR (intended as a response to a power on from the
* reader */
atr_len = MAX_ATR_SIZE;
vreader_power_on(event->reader, atr, &atr_len);
card->atr_length = (uint8_t)atr_len;
DPRINTF(card, 2, " CARD INSERT\n");
emulated_push_card_insert(card, atr, atr_len);
break;
case VEVENT_CARD_REMOVE:
DPRINTF(card, 2, " CARD REMOVE\n");
emulated_push_card_remove(card);
break;
case VEVENT_LAST: /* quit */
vevent_delete(event);
return NULL;
break;
default:
break;
}
vevent_delete(event);
}
return NULL;
}
static void pipe_read(void *opaque)
{
EmulatedState *card = opaque;
EmulEvent *event, *next;
char dummy;
int len;
do {
len = read(card->pipe[0], &dummy, sizeof(dummy));
} while (len == sizeof(dummy));
qemu_mutex_lock(&card->event_list_mutex);
QSIMPLEQ_FOREACH_SAFE(event, &card->event_list, entry, next) {
DPRINTF(card, 2, "event %s\n", emul_event_to_string(event->p.gen.type));
switch (event->p.gen.type) {
case EMUL_RESPONSE_APDU:
ccid_card_send_apdu_to_guest(&card->base, event->p.data.data,
event->p.data.len);
break;
case EMUL_READER_INSERT:
ccid_card_ccid_attach(&card->base);
break;
case EMUL_READER_REMOVE:
ccid_card_ccid_detach(&card->base);
break;
case EMUL_CARD_INSERT:
assert(event->p.data.len <= MAX_ATR_SIZE);
card->atr_length = event->p.data.len;
memcpy(card->atr, event->p.data.data, card->atr_length);
ccid_card_card_inserted(&card->base);
break;
case EMUL_CARD_REMOVE:
ccid_card_card_removed(&card->base);
break;
case EMUL_ERROR:
ccid_card_card_error(&card->base, event->p.error.code);
break;
default:
DPRINTF(card, 2, "unexpected event\n");
break;
}
g_free(event);
}
QSIMPLEQ_INIT(&card->event_list);
qemu_mutex_unlock(&card->event_list_mutex);
}
static int init_pipe_signaling(EmulatedState *card)
{
if (pipe(card->pipe) < 0) {
DPRINTF(card, 2, "pipe creation failed\n");
return -1;
}
fcntl(card->pipe[0], F_SETFL, O_NONBLOCK);
fcntl(card->pipe[1], F_SETFL, O_NONBLOCK);
fcntl(card->pipe[0], F_SETOWN, getpid());
qemu_set_fd_handler(card->pipe[0], pipe_read, NULL, card);
return 0;
}
#define CERTIFICATES_DEFAULT_DB "/etc/pki/nssdb"
#define CERTIFICATES_ARGS_TEMPLATE\
"db=\"%s\" use_hw=no soft=(,Virtual Reader,CAC,,%s,%s,%s)"
static int wrap_vcard_emul_init(VCardEmulOptions *options)
{
static int called;
static int options_was_null;
if (called) {
if ((options == NULL) != options_was_null) {
printf("%s: warning: running emulated with certificates"
" and emulated side by side is not supported\n",
__func__);
return VCARD_EMUL_FAIL;
}
vcard_emul_replay_insertion_events();
return VCARD_EMUL_OK;
}
options_was_null = (options == NULL);
called = 1;
return vcard_emul_init(options);
}
static int emulated_initialize_vcard_from_certificates(EmulatedState *card)
{
char emul_args[200];
VCardEmulOptions *options = NULL;
snprintf(emul_args, sizeof(emul_args) - 1, CERTIFICATES_ARGS_TEMPLATE,
card->db ? card->db : CERTIFICATES_DEFAULT_DB,
card->cert1, card->cert2, card->cert3);
options = vcard_emul_options(emul_args);
if (options == NULL) {
printf("%s: warning: not using certificates due to"
" initialization error\n", __func__);
}
return wrap_vcard_emul_init(options);
}
typedef struct EnumTable {
const char *name;
uint32_t value;
} EnumTable;
EnumTable backend_enum_table[] = {
{BACKEND_NSS_EMULATED_NAME, BACKEND_NSS_EMULATED},
{BACKEND_CERTIFICATES_NAME, BACKEND_CERTIFICATES},
{NULL, 0},
};
static uint32_t parse_enumeration(char *str,
EnumTable *table, uint32_t not_found_value)
{
uint32_t ret = not_found_value;
if (str == NULL)
return 0;
while (table->name != NULL) {
if (strcmp(table->name, str) == 0) {
ret = table->value;
break;
}
table++;
}
return ret;
}
static int emulated_initfn(CCIDCardState *base)
{
EmulatedState *card = DO_UPCAST(EmulatedState, base, base);
VCardEmulError ret;
EnumTable *ptable;
QSIMPLEQ_INIT(&card->event_list);
QSIMPLEQ_INIT(&card->guest_apdu_list);
qemu_mutex_init(&card->event_list_mutex);
qemu_mutex_init(&card->vreader_mutex);
qemu_mutex_init(&card->handle_apdu_mutex);
qemu_cond_init(&card->handle_apdu_cond);
card->reader = NULL;
card->quit_apdu_thread = 0;
if (init_pipe_signaling(card) < 0) {
return -1;
}
card->backend = parse_enumeration(card->backend_str, backend_enum_table, 0);
if (card->backend == 0) {
printf("unknown backend, must be one of:\n");
for (ptable = backend_enum_table; ptable->name != NULL; ++ptable) {
printf("%s\n", ptable->name);
}
return -1;
}
/* TODO: a passthru backened that works on local machine. third card type?*/
if (card->backend == BACKEND_CERTIFICATES) {
if (card->cert1 != NULL && card->cert2 != NULL && card->cert3 != NULL) {
ret = emulated_initialize_vcard_from_certificates(card);
} else {
printf("%s: you must provide all three certs for"
" certificates backend\n", EMULATED_DEV_NAME);
return -1;
}
} else {
if (card->backend != BACKEND_NSS_EMULATED) {
printf("%s: bad backend specified. The options are:\n%s (default),"
" %s.\n", EMULATED_DEV_NAME, BACKEND_NSS_EMULATED_NAME,
BACKEND_CERTIFICATES_NAME);
return -1;
}
if (card->cert1 != NULL || card->cert2 != NULL || card->cert3 != NULL) {
printf("%s: unexpected cert parameters to nss emulated backend\n",
EMULATED_DEV_NAME);
return -1;
}
/* default to mirroring the local hardware readers */
ret = wrap_vcard_emul_init(NULL);
}
if (ret != VCARD_EMUL_OK) {
printf("%s: failed to initialize vcard\n", EMULATED_DEV_NAME);
return -1;
}
qemu_thread_create(&card->event_thread_id, event_thread, card,
QEMU_THREAD_JOINABLE);
qemu_thread_create(&card->apdu_thread_id, handle_apdu_thread, card,
QEMU_THREAD_JOINABLE);
return 0;
}
static int emulated_exitfn(CCIDCardState *base)
{
EmulatedState *card = DO_UPCAST(EmulatedState, base, base);
VEvent *vevent = vevent_new(VEVENT_LAST, NULL, NULL);
vevent_queue_vevent(vevent); /* stop vevent thread */
qemu_thread_join(&card->event_thread_id);
card->quit_apdu_thread = 1; /* stop handle_apdu thread */
qemu_cond_signal(&card->handle_apdu_cond);
qemu_thread_join(&card->apdu_thread_id);
/* threads exited, can destroy all condvars/mutexes */
qemu_cond_destroy(&card->handle_apdu_cond);
qemu_mutex_destroy(&card->handle_apdu_mutex);
qemu_mutex_destroy(&card->vreader_mutex);
qemu_mutex_destroy(&card->event_list_mutex);
return 0;
}
static Property emulated_card_properties[] = {
DEFINE_PROP_STRING("backend", EmulatedState, backend_str),
DEFINE_PROP_STRING("cert1", EmulatedState, cert1),
DEFINE_PROP_STRING("cert2", EmulatedState, cert2),
DEFINE_PROP_STRING("cert3", EmulatedState, cert3),
DEFINE_PROP_STRING("db", EmulatedState, db),
DEFINE_PROP_UINT8("debug", EmulatedState, debug, 0),
DEFINE_PROP_END_OF_LIST(),
};
static void emulated_class_initfn(ObjectClass *klass, void *data)
{
DeviceClass *dc = DEVICE_CLASS(klass);
CCIDCardClass *cc = CCID_CARD_CLASS(klass);
cc->initfn = emulated_initfn;
cc->exitfn = emulated_exitfn;
cc->get_atr = emulated_get_atr;
cc->apdu_from_guest = emulated_apdu_from_guest;
dc->desc = "emulated smartcard";
dc->props = emulated_card_properties;
}
static const TypeInfo emulated_card_info = {
.name = EMULATED_DEV_NAME,
.parent = TYPE_CCID_CARD,
.instance_size = sizeof(EmulatedState),
.class_init = emulated_class_initfn,
};
static void ccid_card_emulated_register_types(void)
{
type_register_static(&emulated_card_info);
}
type_init(ccid_card_emulated_register_types)
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