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keymaster_qcom.cpp
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keymaster_qcom.cpp
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/*
* Copyright (C) 2012 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License"); you
* may not use this file except in compliance with the License. You may
* obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
* implied. See the License for the specific language governing
* permissions and limitations under the License.
*/
#include <errno.h>
#include <string.h>
#include <stdint.h>
#include <memory>
#include <hardware/hardware.h>
#include <hardware/keymaster0.h>
#include <openssl/evp.h>
#include <openssl/bio.h>
#include <openssl/rsa.h>
#include <openssl/err.h>
#include <openssl/x509.h>
#include <linux/ioctl.h>
#include <linux/msm_ion.h>
#include <sys/mman.h>
#include <stdio.h>
#include <stdlib.h>
#include <stddef.h>
#include <unistd.h>
#include <dirent.h>
#include <fcntl.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <dlfcn.h>
#include <cutils/properties.h>
#include "QSEEComAPI.h"
#include "keymaster_qcom.h"
// For debugging
//#define LOG_NDEBUG 0
#define LOG_TAG "QCOMKeyMaster"
#define UNUSED(x) (void)(x)
#define KM_SB_LENGTH (4096 * 2)
#define MAX_PROPERTY_GET_ATTEMPTS 60
#define PROPERTY_GET_SLEEP_INTERVAL 1
#include <cutils/log.h>
struct qcom_km_ion_info_t {
int32_t ion_fd;
int32_t ifd_data_fd;
struct ion_handle_data ion_alloc_handle;
unsigned char * ion_sbuffer;
uint32_t sbuf_len;
};
struct qcom_keymaster_handle {
struct QSEECom_handle *qseecom;
void *libhandle;
int (*QSEECom_start_app)(struct QSEECom_handle ** handle, const char* path,
const char* appname, uint32_t size);
int (*QSEECom_shutdown_app)(struct QSEECom_handle **handle);
int (*QSEECom_send_cmd)(struct QSEECom_handle* handle, void *cbuf,
uint32_t clen, void *rbuf, uint32_t rlen);
int (*QSEECom_send_modified_cmd)(struct QSEECom_handle* handle, void *cbuf,
uint32_t clen, void *rbuf, uint32_t rlen,
struct QSEECom_ion_fd_info *ihandle);
int (*QSEECom_set_bandwidth)(struct QSEECom_handle* handle, bool high);
};
typedef struct qcom_keymaster_handle qcom_keymaster_handle_t;
struct EVP_PKEY_Delete {
void operator()(EVP_PKEY* p) const {
EVP_PKEY_free(p);
}
};
typedef std::unique_ptr<EVP_PKEY, EVP_PKEY_Delete> Unique_EVP_PKEY;
struct RSA_Delete {
void operator()(RSA* p) const {
RSA_free(p);
}
};
typedef std::unique_ptr<RSA, RSA_Delete> Unique_RSA;
typedef std::unique_ptr<keymaster0_device_t> Unique_keymaster_device_t;
/**
* Many OpenSSL APIs take ownership of an argument on success but don't free the argument
* on failure. This means we need to tell our scoped pointers when we've transferred ownership,
* without triggering a warning by not using the result of release().
*/
#define OWNERSHIP_TRANSFERRED(obj) \
typeof (obj.release()) _dummy __attribute__((unused)) = obj.release()
static int qcom_km_get_keypair_public(const keymaster0_device_t* dev,
const uint8_t* keyBlob, const size_t keyBlobLength,
uint8_t** x509_data, size_t* x509_data_length) {
struct qcom_km_key_blob * keyblob_ptr = (struct qcom_km_key_blob *)keyBlob;
UNUSED(dev);
if (x509_data == NULL || x509_data_length == NULL) {
ALOGE("Output public key buffer == NULL");
return -1;
}
if (keyBlob == NULL) {
ALOGE("Supplied key blob was NULL");
return -1;
}
// Should be large enough for keyblob data:
if (keyBlobLength < (sizeof(qcom_km_key_blob_t))) {
ALOGE("key blob appears to be truncated");
return -1;
}
if (keyblob_ptr->magic_num != KM_MAGIC_NUM) {
ALOGE("Cannot read key; it was not made by this keymaster");
return -1;
}
if (keyblob_ptr->public_exponent_size == 0 ) {
ALOGE("Key blob appears to have incorrect exponent length");
return -1;
}
if (keyblob_ptr->modulus_size == 0 ) {
ALOGE("Key blob appears to have incorrect modulus length");
return -1;
}
Unique_RSA rsa(RSA_new());
if (rsa.get() == NULL) {
ALOGE("Could not allocate RSA structure");
return -1;
}
rsa->n = BN_bin2bn(reinterpret_cast<const unsigned char*>(keyblob_ptr->modulus),
keyblob_ptr->modulus_size, NULL);
if (rsa->n == NULL) {
ALOGE("Failed to initialize modulus");
return -1;
}
rsa->e = BN_bin2bn(reinterpret_cast<const unsigned char*>(&keyblob_ptr->public_exponent),
keyblob_ptr->public_exponent_size, NULL);
if (rsa->e == NULL) {
ALOGE("Failed to initialize public exponent");
return -1;
}
Unique_EVP_PKEY pkey(EVP_PKEY_new());
if (pkey.get() == NULL) {
ALOGE("Could not allocate EVP_PKEY structure");
return -1;
}
if (EVP_PKEY_assign_RSA(pkey.get(), rsa.get()) != 1) {
ALOGE("Failed to assign rsa parameters \n");
return -1;
}
OWNERSHIP_TRANSFERRED(rsa);
int len = i2d_PUBKEY(pkey.get(), NULL);
if (len <= 0) {
ALOGE("Len returned is < 0 len = %d", len);
return -1;
}
std::unique_ptr<unsigned char[]> key(new unsigned char[len]);
if (key.get() == NULL) {
ALOGE("Could not allocate memory for public key data");
return -1;
}
unsigned char* tmp = key.get();
if (i2d_PUBKEY(pkey.get(), &tmp) != len) {
ALOGE("Len 2 returned is < 0 len = %d", len);
return -1;
}
*x509_data_length = len;
*x509_data = key.release();
return 0;
}
static int32_t qcom_km_ION_memalloc(struct qcom_km_ion_info_t *handle,
uint32_t size)
{
int32_t ret = 0;
int32_t iret = 0;
unsigned char *v_addr;
struct ion_allocation_data ion_alloc_data;
int32_t ion_fd;
int32_t rc;
struct ion_fd_data ifd_data;
struct ion_handle_data handle_data;
/* open ION device for memory management
* O_DSYNC -> uncached memory
*/
if(handle == NULL){
ALOGE("Error:: null handle received");
return -1;
}
ion_fd = open("/dev/ion", O_RDONLY | O_DSYNC);
if (ion_fd < 0) {
ALOGE("Error::Cannot open ION device");
return -1;
}
handle->ion_sbuffer = NULL;
handle->ifd_data_fd = 0;
/* Size of allocation */
ion_alloc_data.len = (size + 4095) & (~4095);
/* 4K aligned */
ion_alloc_data.align = 4096;
/* memory is allocated from EBI heap */
ion_alloc_data.ION_HEAP_MASK = ION_HEAP(ION_QSECOM_HEAP_ID);
/* Set the memory to be uncached */
ion_alloc_data.flags = 0;
/* IOCTL call to ION for memory request */
rc = ioctl(ion_fd, ION_IOC_ALLOC, &ion_alloc_data);
if (rc) {
ret = -1;
goto alloc_fail;
}
if (ion_alloc_data.handle) {
ifd_data.handle = ion_alloc_data.handle;
} else {
ret = -1;
goto alloc_fail;
}
/* Call MAP ioctl to retrieve the ifd_data.fd file descriptor */
rc = ioctl(ion_fd, ION_IOC_MAP, &ifd_data);
if (rc) {
ret = -1;
goto ioctl_fail;
}
/* Make the ion mmap call */
v_addr = (unsigned char *)mmap(NULL, ion_alloc_data.len,
PROT_READ | PROT_WRITE,
MAP_SHARED, ifd_data.fd, 0);
if (v_addr == MAP_FAILED) {
ALOGE("Error::ION MMAP failed");
ret = -1;
goto map_fail;
}
handle->ion_fd = ion_fd;
handle->ifd_data_fd = ifd_data.fd;
handle->ion_sbuffer = v_addr;
handle->ion_alloc_handle.handle = ion_alloc_data.handle;
handle->sbuf_len = size;
return ret;
map_fail:
if (handle->ion_sbuffer != NULL) {
iret = munmap(handle->ion_sbuffer, ion_alloc_data.len);
if (iret)
ALOGE("Error::Failed to unmap memory for load image. ret = %d", ret);
}
ioctl_fail:
handle_data.handle = ion_alloc_data.handle;
if (handle->ifd_data_fd)
close(handle->ifd_data_fd);
iret = ioctl(ion_fd, ION_IOC_FREE, &handle_data);
if (iret) {
ALOGE("Error::ION FREE ioctl returned error = %d",iret);
}
alloc_fail:
if (ion_fd > 0)
close(ion_fd);
return ret;
}
/** @brief: Deallocate ION memory
*
*
*/
static int32_t qcom_km_ion_dealloc(struct qcom_km_ion_info_t *handle)
{
struct ion_handle_data handle_data;
int32_t ret = 0;
/* Deallocate the memory for the listener */
ret = munmap(handle->ion_sbuffer, (handle->sbuf_len + 4095) & (~4095));
if (ret) {
ALOGE("Error::Unmapping ION Buffer failed with ret = %d", ret);
}
handle_data.handle = handle->ion_alloc_handle.handle;
close(handle->ifd_data_fd);
ret = ioctl(handle->ion_fd, ION_IOC_FREE, &handle_data);
if (ret) {
ALOGE("Error::ION Memory FREE ioctl failed with ret = %d", ret);
}
close(handle->ion_fd);
return ret;
}
static int qcom_km_generate_keypair(const keymaster0_device_t* dev,
const keymaster_keypair_t key_type, const void* key_params,
uint8_t** keyBlob, size_t* keyBlobLength) {
if (dev->context == NULL) {
ALOGE("qcom_km_generate_keypair: Context == NULL");
return -1;
}
if (key_type != TYPE_RSA) {
ALOGE("Unsupported key type %d", key_type);
return -1;
} else if (key_params == NULL) {
ALOGE("key_params == null");
return -1;
}
if (keyBlob == NULL || keyBlobLength == NULL) {
ALOGE("output key blob or length == NULL");
return -1;
}
keymaster_rsa_keygen_params_t* rsa_params = (keymaster_rsa_keygen_params_t*) key_params;
keymaster_gen_keypair_cmd_t *send_cmd = NULL;
keymaster_gen_keypair_resp_t *resp = NULL;
struct QSEECom_handle *handle = NULL;
struct qcom_keymaster_handle *km_handle =(struct qcom_keymaster_handle *)dev->context;
int ret = 0;
handle = (struct QSEECom_handle *)(km_handle->qseecom);
send_cmd = (keymaster_gen_keypair_cmd_t *)handle->ion_sbuffer;
resp = (keymaster_gen_keypair_resp_t *)(handle->ion_sbuffer +
QSEECOM_ALIGN(sizeof(keymaster_gen_keypair_cmd_t)));
send_cmd->cmd_id = KEYMASTER_GENERATE_KEYPAIR;
send_cmd->key_type = key_type;
send_cmd->rsa_params.modulus_size = rsa_params->modulus_size;
send_cmd->rsa_params.public_exponent = rsa_params->public_exponent;
resp->status = KEYMASTER_FAILURE;
resp->key_blob_len = sizeof(qcom_km_key_blob_t);
ret = (*km_handle->QSEECom_set_bandwidth)(handle, true);
if (ret < 0) {
ALOGE("Generate key command failed (unable to enable clks) ret =%d", ret);
return -1;
}
ret = (*km_handle->QSEECom_send_cmd)(handle, send_cmd,
QSEECOM_ALIGN(sizeof(keymaster_gen_keypair_cmd_t)), resp,
QSEECOM_ALIGN(sizeof(keymaster_gen_keypair_resp_t)));
if((*km_handle->QSEECom_set_bandwidth)(handle, false))
ALOGE("Import key command: (unable to disable clks)");
if ( (ret < 0) || (resp->status < 0)) {
ALOGE("Generate key command failed resp->status = %d ret =%d", resp->status, ret);
return -1;
} else {
std::unique_ptr<unsigned char[]> keydata(new unsigned char[resp->key_blob_len]);
if (keydata.get() == NULL) {
ALOGE("could not allocate memory for key blob");
return -1;
}
unsigned char* p = keydata.get();
memcpy(p, (unsigned char *)(&resp->key_blob), resp->key_blob_len);
*keyBlob = keydata.release();
*keyBlobLength = resp->key_blob_len;
}
return 0;
}
static int qcom_km_import_keypair(const keymaster0_device_t* dev,
const uint8_t* key, const size_t key_length,
uint8_t** keyBlob, size_t* keyBlobLength)
{
if (dev->context == NULL) {
ALOGE("qcom_km_import_keypair: Context == NULL");
return -1;
}
if (key == NULL) {
ALOGE("Input key == NULL");
return -1;
} else if (keyBlob == NULL || keyBlobLength == NULL) {
ALOGE("Output key blob or length == NULL");
return -1;
}
struct QSEECom_ion_fd_info ion_fd_info;
struct qcom_km_ion_info_t ihandle;
int ret = 0;
ihandle.ion_fd = 0;
ihandle.ion_alloc_handle.handle = 0;
if (qcom_km_ION_memalloc(&ihandle, QSEECOM_ALIGN(key_length)) < 0) {
ALOGE("ION allocation failed");
return -1;
}
memset(&ion_fd_info, 0, sizeof(struct QSEECom_ion_fd_info));
/* Populate the send data structure */
ion_fd_info.data[0].fd = ihandle.ifd_data_fd;
ion_fd_info.data[0].cmd_buf_offset = sizeof(enum keymaster_cmd_t);
struct QSEECom_handle *handle = NULL;
keymaster_import_keypair_cmd_t *send_cmd = NULL;
keymaster_import_keypair_resp_t *resp = NULL;
struct qcom_keymaster_handle *km_handle =(struct qcom_keymaster_handle *)dev->context;
handle = (struct QSEECom_handle *)(km_handle->qseecom);
send_cmd = (keymaster_import_keypair_cmd_t *)handle->ion_sbuffer;
resp = (keymaster_import_keypair_resp_t *)(handle->ion_sbuffer +
QSEECOM_ALIGN(sizeof(keymaster_import_keypair_cmd_t)));
send_cmd->cmd_id = KEYMASTER_IMPORT_KEYPAIR;
send_cmd->pkcs8_key = (uint32_t)(uintptr_t)ihandle.ion_sbuffer;
memcpy((unsigned char *)ihandle.ion_sbuffer, key, key_length);
send_cmd->pkcs8_key_len = key_length;
resp->status = KEYMASTER_FAILURE;
resp->key_blob_len = sizeof(qcom_km_key_blob_t);
ret = (*km_handle->QSEECom_set_bandwidth)(handle, true);
if (ret < 0) {
ALOGE("Import key command failed (unable to enable clks) ret =%d", ret);
qcom_km_ion_dealloc(&ihandle);
return -1;
}
ret = (*km_handle->QSEECom_send_modified_cmd)(handle, send_cmd,
QSEECOM_ALIGN(sizeof(*send_cmd)), resp,
QSEECOM_ALIGN(sizeof(*resp)), &ion_fd_info);
if((*km_handle->QSEECom_set_bandwidth)(handle, false))
ALOGE("Import key command: (unable to disable clks)");
if ( (ret < 0) || (resp->status < 0)) {
ALOGE("Import key command failed resp->status = %d ret =%d", resp->status, ret);
qcom_km_ion_dealloc(&ihandle);
return -1;
} else {
std::unique_ptr<unsigned char[]> keydata(new unsigned char[resp->key_blob_len]);
if (keydata.get() == NULL) {
ALOGE("could not allocate memory for key blob");
return -1;
}
unsigned char* p = keydata.get();
memcpy(p, (unsigned char *)(&resp->key_blob), resp->key_blob_len);
*keyBlob = keydata.release();
*keyBlobLength = resp->key_blob_len;
}
qcom_km_ion_dealloc(&ihandle);
return 0;
}
static int qcom_km_sign_data(const keymaster0_device_t* dev,
const void* params,
const uint8_t* keyBlob, const size_t keyBlobLength,
const uint8_t* data, const size_t dataLength,
uint8_t** signedData, size_t* signedDataLength)
{
if (dev->context == NULL) {
ALOGE("qcom_km_sign_data: Context == NULL");
return -1;
}
if (dataLength > KM_KEY_SIZE_MAX) {
ALOGE("Input data to be signed is too long %zu bytes", dataLength);
return -1;
}
if (data == NULL) {
ALOGE("input data to sign == NULL");
return -1;
} else if (signedData == NULL || signedDataLength == NULL) {
ALOGE("Output signature buffer == NULL");
return -1;
}
keymaster_rsa_sign_params_t* sign_params = (keymaster_rsa_sign_params_t*) params;
if (sign_params->digest_type != DIGEST_NONE) {
ALOGE("Cannot handle digest type %d", sign_params->digest_type);
return -1;
} else if (sign_params->padding_type != PADDING_NONE) {
ALOGE("Cannot handle padding type %d", sign_params->padding_type);
return -1;
}
struct QSEECom_handle *handle = NULL;
keymaster_sign_data_cmd_t *send_cmd = NULL;
keymaster_sign_data_resp_t *resp = NULL;
struct QSEECom_ion_fd_info ion_fd_info;
struct qcom_km_ion_info_t ihandle;
struct qcom_keymaster_handle *km_handle =(struct qcom_keymaster_handle *)dev->context;
int ret = 0;
handle = (struct QSEECom_handle *)(km_handle->qseecom);
ihandle.ion_fd = 0;
ihandle.ion_alloc_handle.handle = 0;
if (qcom_km_ION_memalloc(&ihandle, dataLength) < 0) {
ALOGE("ION allocation failed");
return -1;
}
memset(&ion_fd_info, 0, sizeof(struct QSEECom_ion_fd_info));
/* Populate the send data structure */
ion_fd_info.data[0].fd = ihandle.ifd_data_fd;
ion_fd_info.data[0].cmd_buf_offset = sizeof(enum keymaster_cmd_t) +
sizeof(qcom_km_key_blob_t) + sizeof(keymaster_rsa_sign_params_t);
send_cmd = (keymaster_sign_data_cmd_t *)handle->ion_sbuffer;
resp = (keymaster_sign_data_resp_t *)(handle->ion_sbuffer +
QSEECOM_ALIGN(sizeof(keymaster_sign_data_cmd_t)));
send_cmd->cmd_id = KEYMASTER_SIGN_DATA ;
send_cmd->sign_param.digest_type = sign_params->digest_type;
send_cmd->sign_param.padding_type = sign_params->padding_type;
memcpy((unsigned char *)(&send_cmd->key_blob), keyBlob, keyBlobLength);
memcpy((unsigned char *)ihandle.ion_sbuffer, data, dataLength);
send_cmd->data = (uint32_t)(uintptr_t)ihandle.ion_sbuffer;
send_cmd->dlen = dataLength;
resp->sig_len = KM_KEY_SIZE_MAX;
resp->status = KEYMASTER_FAILURE;
ret = (*km_handle->QSEECom_set_bandwidth)(handle, true);
if (ret < 0) {
ALOGE("Sign data command failed (unable to enable clks) ret =%d", ret);
qcom_km_ion_dealloc(&ihandle);
return -1;
}
ret = (*km_handle->QSEECom_send_modified_cmd)(handle, send_cmd,
QSEECOM_ALIGN(sizeof(*send_cmd)), resp,
QSEECOM_ALIGN(sizeof(*resp)), &ion_fd_info);
if((*km_handle->QSEECom_set_bandwidth)(handle, false))
ALOGE("Sign data command: (unable to disable clks)");
if ( (ret < 0) || (resp->status < 0)) {
ALOGE("Sign data command failed resp->status = %d ret =%d", resp->status, ret);
qcom_km_ion_dealloc(&ihandle);
return -1;
} else {
std::unique_ptr<uint8_t> signedDataPtr(reinterpret_cast<uint8_t*>(malloc(resp->sig_len)));
if (signedDataPtr.get() == NULL) {
ALOGE("Sign data memory allocation failed");
qcom_km_ion_dealloc(&ihandle);
return -1;
}
unsigned char* p = signedDataPtr.get();
memcpy(p, (unsigned char *)(&resp->signed_data), resp->sig_len);
*signedDataLength = resp->sig_len;
*signedData = signedDataPtr.release();
}
qcom_km_ion_dealloc(&ihandle);
return 0;
}
static int qcom_km_verify_data(const keymaster0_device_t* dev,
const void* params,
const uint8_t* keyBlob, const size_t keyBlobLength,
const uint8_t* signedData, const size_t signedDataLength,
const uint8_t* signature, const size_t signatureLength)
{
if (dev->context == NULL) {
ALOGE("qcom_km_verify_data: Context == NULL");
return -1;
}
if (signedData == NULL || signature == NULL) {
ALOGE("data or signature buffers == NULL");
return -1;
}
keymaster_rsa_sign_params_t* sign_params = (keymaster_rsa_sign_params_t*) params;
if (sign_params->digest_type != DIGEST_NONE) {
ALOGE("Cannot handle digest type %d", sign_params->digest_type);
return -1;
} else if (sign_params->padding_type != PADDING_NONE) {
ALOGE("Cannot handle padding type %d", sign_params->padding_type);
return -1;
} else if (signatureLength != signedDataLength) {
ALOGE("signed data length must be signature length");
return -1;
}
struct QSEECom_handle *handle = NULL;
keymaster_verify_data_cmd_t *send_cmd = NULL;
keymaster_verify_data_resp_t *resp = NULL;
struct QSEECom_ion_fd_info ion_fd_info;
struct qcom_km_ion_info_t ihandle;
struct qcom_keymaster_handle *km_handle =(struct qcom_keymaster_handle *)dev->context;
int ret = 0;
handle = (struct QSEECom_handle *)(km_handle->qseecom);
ihandle.ion_fd = 0;
ihandle.ion_alloc_handle.handle = 0;
if (qcom_km_ION_memalloc(&ihandle, signedDataLength + signatureLength) <0) {
ALOGE("ION allocation failed");
return -1;
}
memset(&ion_fd_info, 0, sizeof(struct QSEECom_ion_fd_info));
/* Populate the send data structure */
ion_fd_info.data[0].fd = ihandle.ifd_data_fd;
ion_fd_info.data[0].cmd_buf_offset = sizeof(enum keymaster_cmd_t) +
sizeof(qcom_km_key_blob_t ) + sizeof(keymaster_rsa_sign_params_t);
send_cmd = (keymaster_verify_data_cmd_t *)handle->ion_sbuffer;
resp = (keymaster_verify_data_resp_t *)((char *)handle->ion_sbuffer +
sizeof(keymaster_verify_data_cmd_t));
send_cmd->cmd_id = KEYMASTER_VERIFY_DATA ;
send_cmd->sign_param.digest_type = sign_params->digest_type;
send_cmd->sign_param.padding_type = sign_params->padding_type;
memcpy((unsigned char *)(&send_cmd->key_blob), keyBlob, keyBlobLength);
send_cmd->signed_data = (uint32_t)(uintptr_t)ihandle.ion_sbuffer;
send_cmd->signed_dlen = signedDataLength;
memcpy((unsigned char *)ihandle.ion_sbuffer, signedData, signedDataLength);
send_cmd->signature = signedDataLength;
send_cmd->slen = signatureLength;
memcpy(((unsigned char *)ihandle.ion_sbuffer + signedDataLength),
signature, signatureLength);
resp->status = KEYMASTER_FAILURE;
ret = (*km_handle->QSEECom_set_bandwidth)(handle, true);
if (ret < 0) {
ALOGE("Verify data command failed (unable to enable clks) ret =%d", ret);
qcom_km_ion_dealloc(&ihandle);
return -1;
}
ret = (*km_handle->QSEECom_send_modified_cmd)(handle, send_cmd,
QSEECOM_ALIGN(sizeof(*send_cmd)), resp,
QSEECOM_ALIGN(sizeof(*resp)), &ion_fd_info);
if((*km_handle->QSEECom_set_bandwidth)(handle, false))
ALOGE("Verify data command: (unable to disable clks)");
if ( (ret < 0) || (resp->status < 0)) {
ALOGE("Verify data command failed resp->status = %d ret =%d", resp->status, ret);
qcom_km_ion_dealloc(&ihandle);
return -1;
}
qcom_km_ion_dealloc(&ihandle);
return 0;
}
/* Close an opened OpenSSL instance */
static int qcom_km_close(hw_device_t *dev)
{
keymaster0_device_t* km_dev = (keymaster0_device_t *)dev;
struct qcom_keymaster_handle *km_handle =(struct qcom_keymaster_handle *)km_dev->context;
if (km_handle->qseecom == NULL) {
ALOGE("Context == NULL");
return -1;
}
(*km_handle->QSEECom_shutdown_app)((struct QSEECom_handle **)&km_handle->qseecom);
free(km_dev->context);
free(dev);
return 0;
}
static int qcom_km_get_lib_sym(qcom_keymaster_handle_t* km_handle)
{
km_handle->libhandle = dlopen("libQSEEComAPI.so", RTLD_NOW);
if ( km_handle->libhandle ) {
*(void **)(&km_handle->QSEECom_start_app) =
dlsym(km_handle->libhandle,"QSEECom_start_app");
if (km_handle->QSEECom_start_app == NULL) {
ALOGE("dlsym: Error Loading QSEECom_start_app");
dlclose(km_handle->libhandle );
km_handle->libhandle = NULL;
return -1;
}
*(void **)(&km_handle->QSEECom_shutdown_app) =
dlsym(km_handle->libhandle,"QSEECom_shutdown_app");
if (km_handle->QSEECom_shutdown_app == NULL) {
ALOGE("dlsym: Error Loading QSEECom_shutdown_app");
dlclose(km_handle->libhandle );
km_handle->libhandle = NULL;
return -1;
}
*(void **)(&km_handle->QSEECom_send_cmd) =
dlsym(km_handle->libhandle,"QSEECom_send_cmd");
if (km_handle->QSEECom_send_cmd == NULL) {
ALOGE("dlsym: Error Loading QSEECom_send_cmd");
dlclose(km_handle->libhandle );
km_handle->libhandle = NULL;
return -1;
}
*(void **)(&km_handle->QSEECom_send_modified_cmd) =
dlsym(km_handle->libhandle,"QSEECom_send_modified_cmd");
if (km_handle->QSEECom_send_modified_cmd == NULL) {
ALOGE("dlsym: Error Loading QSEECom_send_modified_cmd");
dlclose(km_handle->libhandle );
km_handle->libhandle = NULL;
return -1;
}
*(void **)(&km_handle->QSEECom_set_bandwidth) =
dlsym(km_handle->libhandle,"QSEECom_set_bandwidth");
if (km_handle->QSEECom_set_bandwidth == NULL) {
ALOGE("dlsym: Error Loading QSEECom_set_bandwidth");
dlclose(km_handle->libhandle );
km_handle->libhandle = NULL;
return -1;
}
} else {
ALOGE("failed to load qseecom library");
return -1;
}
return 0;
}
/*
* Generic device handling
*/
static int qcom_km_open(const hw_module_t* module, const char* name,
hw_device_t** device)
{
int ret = 0;
unsigned int attempt_num = 0;
#ifdef WAIT_FOR_QSEE
char property_val[PROPERTY_VALUE_MAX] = {0};
#endif
qcom_keymaster_handle_t* km_handle;
if (strcmp(name, KEYSTORE_KEYMASTER) != 0)
return -EINVAL;
km_handle = (qcom_keymaster_handle_t *)malloc(sizeof(qcom_keymaster_handle_t));
if (km_handle == NULL) {
ALOGE("Memalloc for keymaster handle failed");
return -1;
}
km_handle->qseecom = NULL;
km_handle->libhandle = NULL;
ret = qcom_km_get_lib_sym(km_handle);
if (ret) {
free(km_handle);
return -1;
}
Unique_keymaster_device_t dev(new keymaster0_device_t);
if (dev.get() == NULL){
free(km_handle);
return -ENOMEM;
}
dev->context = (void *)km_handle;
while (attempt_num < MAX_PROPERTY_GET_ATTEMPTS)
{
#ifdef WAIT_FOR_QSEE
property_get("sys.keymaster.loaded", property_val, "");
if (strncmp(property_val, "true", sizeof(property_val)) == 0)
{
#endif
ALOGD("keymaster app is loaded");
break;
#ifdef WAIT_FOR_QSEE
}
#endif
if (attempt_num == 0)
ALOGE("keymaster app is not loaded, attempt number %d", attempt_num);
attempt_num++;
sleep(PROPERTY_GET_SLEEP_INTERVAL);
}
if (attempt_num == MAX_PROPERTY_GET_ATTEMPTS)
{
ALOGE("Keymaster app not loaded: Max attempts reached");
free(km_handle);
return -1;
}
ALOGD("keymaster app got loaded at attempt number %d", attempt_num);
ret = (*km_handle->QSEECom_start_app)((struct QSEECom_handle **)&km_handle->qseecom,
"/vendor/firmware/keymaster", "keymaster", KM_SB_LENGTH);
if(ret)
ret = (*km_handle->QSEECom_start_app)((struct QSEECom_handle **)&km_handle->qseecom,
"/firmware/image", "keymaste", KM_SB_LENGTH);
if (ret) {
ALOGE("Loading keymaster app failed");
free(km_handle);
return -1;
}
dev->common.tag = HARDWARE_DEVICE_TAG;
dev->common.version = 1;
dev->common.module = (struct hw_module_t*) module;
dev->common.close = qcom_km_close;
dev->flags = KEYMASTER_BLOBS_ARE_STANDALONE;
dev->generate_keypair = qcom_km_generate_keypair;
dev->import_keypair = qcom_km_import_keypair;
dev->get_keypair_public = qcom_km_get_keypair_public;
dev->delete_keypair = NULL;
dev->delete_all = NULL;
dev->sign_data = qcom_km_sign_data;
dev->verify_data = qcom_km_verify_data;
*device = reinterpret_cast<hw_device_t*>(dev.release());
return 0;
}
static struct hw_module_methods_t keystore_module_methods = {
.open = qcom_km_open,
};
struct keystore_module HAL_MODULE_INFO_SYM
__attribute__ ((visibility ("default"))) = {
.common = {
.tag = HARDWARE_MODULE_TAG,
.module_api_version = QCOM_KEYMASTER_API_VERSION,
.hal_api_version = HARDWARE_HAL_API_VERSION,
.id = KEYSTORE_HARDWARE_MODULE_ID,
.name = "Keymaster QCOM HAL",
.author = "The Android Open Source Project",
.methods = &keystore_module_methods,
.dso = 0,
.reserved = {},
},
};