apps/weaver/weaver.c - platform/external/libese - Git at Google

 /*
  * Copyright (C) 2017 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 "include/ese/app/weaver.h"

 /* Non-static, but visibility=hidden so they can be used in test. */
 const uint8_t kManageChannelOpen[] = {0x00, 0x70, 0x00, 0x00, 0x01};
 const uint32_t kManageChannelOpenLength = (uint32_t)sizeof(kManageChannelOpen);
 const uint8_t kManageChannelClose[] = {0x00, 0x70, 0x80, 0x00, 0x00};
 const uint8_t kSelectApplet[] = {0x00, 0xA4, 0x04, 0x00, 0x0D, 0xA0,
                                  0x00, 0x00, 0x04, 0x76, 0x57, 0x56,
                                  0x52, 0x43, 0x4F, 0x4D, 0x4D, 0x30};
 const uint32_t kSelectAppletLength = (uint32_t)sizeof(kSelectApplet);
 // Supported commands.
 const uint8_t kGetNumSlots[] = {0x80, 0x02, 0x00, 0x00, 0x04};
 const uint8_t kWrite[] = {0x80, 0x04, 0x00, 0x00,
                           4 + kEseWeaverKeySize +
                               kEseWeaverValueSize}; // slotid + key + value
 const uint8_t kRead[] = {0x80, 0x06, 0x00, 0x00,
                          4 + kEseWeaverKeySize}; // slotid + key
 const uint8_t kEraseValue[] = {0x80, 0x08, 0x00, 0x00, 4}; // slotid
 const uint8_t kEraseAll[] = {0x80, 0x0a, 0x00, 0x00};

 // Build 32-bit int from big endian bytes
 static uint32_t get_uint32(uint8_t buf[4]) {
   uint32_t x = buf[3];
   x |= buf[2] << 8;
   x |= buf[1] << 16;
   x |= buf[0] << 24;
   return x;
 }

 static void put_uint32(uint8_t buf[4], uint32_t val) {
   buf[0] = 0xff & (val >> 24);
   buf[1] = 0xff & (val >> 16);
   buf[2] = 0xff & (val >> 8);
   buf[3] = 0xff & val;
 }

 EseAppResult check_apdu_status(uint8_t code[2]) {
   if (code[0] == 0x90 && code[1] == 0x00) {
     return ESE_APP_RESULT_OK;
   }
   if (code[0] == 0x66 && code[1] == 0xA5) {
     return ESE_APP_RESULT_ERROR_COOLDOWN;
   }
   if (code[0] == 0x6A && code[1] == 0x83) {
     return ESE_APP_RESULT_ERROR_UNCONFIGURED;
   }
   /* TODO(wad) Bubble up the error code if needed. */
   ALOGE("unhandled response %.2x %.2x", code[0], code[1]);
   return ese_make_os_result(code[0], code[1]);
 }

 ESE_API void ese_weaver_session_init(struct EseWeaverSession *session) {
   session->ese = NULL;
   session->active = false;
   session->channel_id = 0;
 }

 ESE_API EseAppResult ese_weaver_session_open(struct EseInterface *ese,
                                              struct EseWeaverSession *session) {
   struct EseSgBuffer tx[2];
   struct EseSgBuffer rx;
   uint8_t rx_buf[32];
   int rx_len;
   if (!ese || !session) {
     ALOGE("Invalid |ese| or |session|");
     return ESE_APP_RESULT_ERROR_ARGUMENTS;
   }
   if (session->active == true) {
     ALOGE("|session| is already active");
     return ESE_APP_RESULT_ERROR_ARGUMENTS;
   }
   /* Instantiate a logical channel */
   rx_len = ese_transceive(ese, kManageChannelOpen, sizeof(kManageChannelOpen),
                           rx_buf, sizeof(rx_buf));
   if (ese_error(ese)) {
     ALOGE("transceive error: code:%d message:'%s'", ese_error_code(ese),
           ese_error_message(ese));
     return ESE_APP_RESULT_ERROR_COMM_FAILED;
   }
   if (rx_len < 0) {
     ALOGE("transceive error: rx_len: %d", rx_len);
     return ESE_APP_RESULT_ERROR_COMM_FAILED;
   }
   if (rx_len < 2) {
     ALOGE("transceive error: reply too short");
     return ESE_APP_RESULT_ERROR_COMM_FAILED;
   }
   EseAppResult ret;
   ret = check_apdu_status(&rx_buf[rx_len - 2]);
   if (ret != ESE_APP_RESULT_OK) {
     ALOGE("MANAGE CHANNEL OPEN failed with error code: %x %x",
           rx_buf[rx_len - 2], rx_buf[rx_len - 1]);
     return ret;
   }
   if (rx_len < 3) {
     ALOGE("transceive error: successful reply unexpectedly short");
     return ESE_APP_RESULT_ERROR_COMM_FAILED;
   }
   session->ese = ese;
   session->channel_id = rx_buf[rx_len - 3];

   /* Select Weaver Applet. */
   uint8_t chan = kSelectApplet[0] | session->channel_id;
   tx[0].base = &chan;
   tx[0].len = 1;
   tx[1].base = (uint8_t *)&kSelectApplet[1];
   tx[1].len = sizeof(kSelectApplet) - 1;
   rx.base = &rx_buf[0];
   rx.len = sizeof(rx_buf);
   rx_len = ese_transceive_sg(ese, tx, 2, &rx, 1);
   if (rx_len < 0 || ese_error(ese)) {
     ALOGE("transceive error: caller should check ese_error()");
     return ESE_APP_RESULT_ERROR_COMM_FAILED;
   }
   if (rx_len < 2) {
     ALOGE("transceive error: reply too short");
     return ESE_APP_RESULT_ERROR_COMM_FAILED;
   }
   ret = check_apdu_status(&rx_buf[rx_len - 2]);
   if (ret != ESE_APP_RESULT_OK) {
     ALOGE("SELECT failed with error code: %x %x", rx_buf[rx_len - 2],
           rx_buf[rx_len - 1]);
     return ret;
   }
   session->active = true;
   return ESE_APP_RESULT_OK;
 }

 ESE_API EseAppResult
 ese_weaver_session_close(struct EseWeaverSession *session) {
   uint8_t rx_buf[32];
   int rx_len;
   if (!session || !session->ese) {
     return ESE_APP_RESULT_ERROR_ARGUMENTS;
   }
   if (!session->active || session->channel_id == 0) {
     return ESE_APP_RESULT_ERROR_ARGUMENTS;
   }
   /* Release the channel */
   uint8_t close_channel[sizeof(kManageChannelClose)];
   ese_memcpy(close_channel, kManageChannelClose, sizeof(kManageChannelClose));
   close_channel[0] |= session->channel_id;
   close_channel[3] |= session->channel_id;
   rx_len = ese_transceive(session->ese, close_channel, sizeof(close_channel),
                           rx_buf, sizeof(rx_buf));
   if (rx_len < 0 || ese_error(session->ese)) {
     return ESE_APP_RESULT_ERROR_COMM_FAILED;
   }
   if (rx_len < 2) {
     return ESE_APP_RESULT_ERROR_COMM_FAILED;
   }
   EseAppResult ret;
   ret = check_apdu_status(&rx_buf[rx_len - 2]);
   if (ret != ESE_APP_RESULT_OK) {
     return ret;
   }
   session->channel_id = 0;
   session->active = false;
   return ESE_APP_RESULT_OK;
 }

 ESE_API EseAppResult ese_weaver_get_num_slots(struct EseWeaverSession *session,
                                               uint32_t *numSlots) {
   if (!session || !session->ese || !session->active) {
     return ESE_APP_RESULT_ERROR_ARGUMENTS;
   }
   if (!session->active || session->channel_id == 0) {
     return ESE_APP_RESULT_ERROR_ARGUMENTS;
   }
   if (!numSlots) {
     return ESE_APP_RESULT_ERROR_ARGUMENTS;
   }

   // Prepare command
   uint8_t get_num_slots[sizeof(kGetNumSlots)];
   ese_memcpy(get_num_slots, kGetNumSlots, sizeof(kGetNumSlots));
   get_num_slots[0] |= session->channel_id;

   // Send command
   uint8_t rx_buf[6];
   const int rx_len =
       ese_transceive(session->ese, get_num_slots, sizeof(get_num_slots), rx_buf,
                      sizeof(rx_buf));

   // Check for errors
   if (rx_len < 2 || ese_error(session->ese)) {
     ALOGE("Failed to get num slots");
     return ESE_APP_RESULT_ERROR_COMM_FAILED;
   }
   if (rx_len == 2) {
     ALOGE("ese_weaver_get_num_slots: SE exception");
     EseAppResult ret = check_apdu_status(rx_buf);
     return ret;
   }
   if (rx_len != 6) {
     ALOGE("Unexpected response from Weaver applet");
     return ESE_APP_RESULT_ERROR_COMM_FAILED;
   }

   *numSlots = get_uint32(rx_buf);
   return ESE_APP_RESULT_OK;
 }

 ESE_API EseAppResult ese_weaver_write(struct EseWeaverSession *session,
                                       uint32_t slotId, const uint8_t *key,
                                       const uint8_t *value) {
   if (!session || !session->ese || !session->active) {
     return ESE_APP_RESULT_ERROR_ARGUMENTS;
   }
   if (!session->active || session->channel_id == 0) {
     return ESE_APP_RESULT_ERROR_ARGUMENTS;
   }
   if (!key || !value) {
     return ESE_APP_RESULT_ERROR_ARGUMENTS;
   }

   // Prepare data to send
   struct EseSgBuffer tx[5];
   uint8_t chan = kWrite[0] | session->channel_id;
   tx[0].base = &chan;
   tx[0].len = 1;
   tx[1].base = (uint8_t *)&kWrite[1];
   tx[1].len = sizeof(kWrite) - 1;

   // Slot ID in big endian
   uint8_t slot_id[4];
   put_uint32(slot_id, slotId);
   tx[2].base = slot_id;
   tx[2].len = sizeof(slot_id);

   // Key and value
   tx[3].c_base = key;
   tx[3].len = kEseWeaverKeySize;
   tx[4].c_base = value;
   tx[4].len = kEseWeaverValueSize;

   // Prepare buffer for result
   struct EseSgBuffer rx;
   uint8_t rx_buf[2];
   rx.base = rx_buf;
   rx.len = sizeof(rx_buf);

   // Send the command
   const int rx_len = ese_transceive_sg(session->ese, tx, 5, &rx, 1);

   // Check for errors
   if (rx_len < 2 || ese_error(session->ese)) {
     ALOGE("Failed to write to slot");
     return ESE_APP_RESULT_ERROR_COMM_FAILED;
   }
   if (rx_len > 2) {
     ALOGE("Unexpected response from Weaver applet");
     return ESE_APP_RESULT_ERROR_COMM_FAILED;
   }
   return check_apdu_status(rx_buf);
 }

 ESE_API EseAppResult ese_weaver_read(struct EseWeaverSession *session,
                                      uint32_t slotId, const uint8_t *key,
                                      uint8_t *value, uint32_t *timeout) {
   if (!session || !session->ese || !session->active) {
     return ESE_APP_RESULT_ERROR_ARGUMENTS;
   }
   if (!session->active || session->channel_id == 0) {
     return ESE_APP_RESULT_ERROR_ARGUMENTS;
   }
   if (!key || !value || !timeout) {
     return ESE_APP_RESULT_ERROR_ARGUMENTS;
   }

   // Prepare data to send
   struct EseSgBuffer tx[5];
   uint8_t chan = kRead[0] | session->channel_id;
   tx[0].base = &chan;
   tx[0].len = 1;
   tx[1].base = (uint8_t *)&kRead[1];
   tx[1].len = sizeof(kRead) - 1;

   // Slot ID in big endian
   uint8_t slot_id[4];
   put_uint32(slot_id, slotId);
   tx[2].base = slot_id;
   tx[2].len = sizeof(slot_id);

   // Key of 16 bytes
   tx[3].c_base = key;
   tx[3].len = kEseWeaverKeySize;

   // Value response is 16 bytes
   const uint8_t maxResponse = 1 + kEseWeaverValueSize;
   tx[4].c_base = &maxResponse;
   tx[4].len = 1;

   // Prepare buffer for result
   struct EseSgBuffer rx[3];
   uint8_t appletStatus;
   rx[0].base = &appletStatus;
   rx[0].len = 1;
   rx[1].base = value;
   rx[1].len = kEseWeaverValueSize;
   uint8_t rx_buf[2];
   rx[2].base = rx_buf;
   rx[2].len = sizeof(rx_buf);

   // Send the command
   const int rx_len = ese_transceive_sg(session->ese, tx, 5, rx, 3);

   // Check for errors
   if (rx_len < 2 || ese_error(session->ese)) {
     ALOGE("Failed to write to slot");
     return ESE_APP_RESULT_ERROR_COMM_FAILED;
   }
   if (rx_len == 2) {
     rx_buf[0] = appletStatus;
     rx_buf[1] = value[0];
     ALOGE("ese_weaver_read: SE exception");
     EseAppResult ret = check_apdu_status(rx_buf);
     return ret;
   }
   if (rx_len < 7) {
     ALOGE("Unexpected response from Weaver applet");
     return ESE_APP_RESULT_ERROR_COMM_FAILED;
   }
   const uint8_t READ_SUCCESS = 0x00;
   const uint8_t READ_WRONG_KEY = 0x7f;
   const uint8_t READ_BACK_OFF = 0x76;
   const uint32_t millisInSecond = 1000;
   // wrong key
   if (appletStatus == READ_WRONG_KEY) {
     ALOGI("ese_weaver_read wrong key provided");
     *timeout = get_uint32(value) * millisInSecond;
     return ESE_WEAVER_READ_WRONG_KEY;
   }
   // backoff
   if (appletStatus == READ_BACK_OFF) {
     ALOGI("ese_weaver_read wrong key provided");
     *timeout = get_uint32(value) * millisInSecond;
     return ESE_WEAVER_READ_TIMEOUT;
   }
   if (rx_len != 19) {
     ALOGE("Unexpected response from Weaver applet");
     return ESE_APP_RESULT_ERROR_COMM_FAILED;
   }
   return ESE_APP_RESULT_OK;
 }

 ESE_API EseAppResult ese_weaver_erase_value(struct EseWeaverSession *session,
                                             uint32_t slotId) {
   if (!session || !session->ese || !session->active) {
     return ESE_APP_RESULT_ERROR_ARGUMENTS;
   }
   if (!session->active || session->channel_id == 0) {
     return ESE_APP_RESULT_ERROR_ARGUMENTS;
   }

   // Prepare data to send
   struct EseSgBuffer tx[3];
   uint8_t chan = kEraseValue[0] | session->channel_id;
   tx[0].base = &chan;
   tx[0].len = 1;
   tx[1].base = (uint8_t *)&kEraseValue[1];
   tx[1].len = sizeof(kEraseValue) - 1;

   // Slot ID in big endian
   uint8_t slot_id[4];
   put_uint32(slot_id, slotId);
   tx[2].base = slot_id;
   tx[2].len = sizeof(slot_id);

   // Prepare buffer for result
   struct EseSgBuffer rx;
   uint8_t rx_buf[2];
   rx.base = rx_buf;
   rx.len = sizeof(rx_buf);

   // Send the command
   const int rx_len = ese_transceive_sg(session->ese, tx, 3, &rx, 1);

   // Check for errors
   if (rx_len < 2 || ese_error(session->ese)) {
     ALOGE("Failed to write to slot");
     return ESE_APP_RESULT_ERROR_COMM_FAILED;
   }
   if (rx_len > 2) {
     ALOGE("Unexpected response from Weaver applet");
     return ESE_APP_RESULT_ERROR_COMM_FAILED;
   }
   return check_apdu_status(rx_buf);
 }

 // TODO: erase all, not currently used
	/*
	* Copyright (C) 2017 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 "include/ese/app/weaver.h"

	/* Non-static, but visibility=hidden so they can be used in test. */
	const uint8_t kManageChannelOpen[] = {0x00, 0x70, 0x00, 0x00, 0x01};
	const uint32_t kManageChannelOpenLength = (uint32_t)sizeof(kManageChannelOpen);
	const uint8_t kManageChannelClose[] = {0x00, 0x70, 0x80, 0x00, 0x00};
	const uint8_t kSelectApplet[] = {0x00, 0xA4, 0x04, 0x00, 0x0D, 0xA0,
	0x00, 0x00, 0x04, 0x76, 0x57, 0x56,
	0x52, 0x43, 0x4F, 0x4D, 0x4D, 0x30};
	const uint32_t kSelectAppletLength = (uint32_t)sizeof(kSelectApplet);
	// Supported commands.
	const uint8_t kGetNumSlots[] = {0x80, 0x02, 0x00, 0x00, 0x04};
	const uint8_t kWrite[] = {0x80, 0x04, 0x00, 0x00,
	4 + kEseWeaverKeySize +
	kEseWeaverValueSize}; // slotid + key + value
	const uint8_t kRead[] = {0x80, 0x06, 0x00, 0x00,
	4 + kEseWeaverKeySize}; // slotid + key
	const uint8_t kEraseValue[] = {0x80, 0x08, 0x00, 0x00, 4}; // slotid
	const uint8_t kEraseAll[] = {0x80, 0x0a, 0x00, 0x00};

	// Build 32-bit int from big endian bytes
	static uint32_t get_uint32(uint8_t buf[4]) {
	uint32_t x = buf[3];
	x \|= buf[2] << 8;
	x \|= buf[1] << 16;
	x \|= buf[0] << 24;
	return x;
	}

	static void put_uint32(uint8_t buf[4], uint32_t val) {
	buf[0] = 0xff & (val >> 24);
	buf[1] = 0xff & (val >> 16);
	buf[2] = 0xff & (val >> 8);
	buf[3] = 0xff & val;
	}

	EseAppResult check_apdu_status(uint8_t code[2]) {
	if (code[0] == 0x90 && code[1] == 0x00) {
	return ESE_APP_RESULT_OK;
	}
	if (code[0] == 0x66 && code[1] == 0xA5) {
	return ESE_APP_RESULT_ERROR_COOLDOWN;
	}
	if (code[0] == 0x6A && code[1] == 0x83) {
	return ESE_APP_RESULT_ERROR_UNCONFIGURED;
	}
	/* TODO(wad) Bubble up the error code if needed. */
	ALOGE("unhandled response %.2x %.2x", code[0], code[1]);
	return ese_make_os_result(code[0], code[1]);
	}

	ESE_API void ese_weaver_session_init(struct EseWeaverSession *session) {
	session->ese = NULL;
	session->active = false;
	session->channel_id = 0;
	}

	ESE_API EseAppResult ese_weaver_session_open(struct EseInterface *ese,
	struct EseWeaverSession *session) {
	struct EseSgBuffer tx[2];
	struct EseSgBuffer rx;
	uint8_t rx_buf[32];
	int rx_len;
	if (!ese \|\| !session) {
	ALOGE("Invalid \|ese\| or \|session\|");
	return ESE_APP_RESULT_ERROR_ARGUMENTS;
	}
	if (session->active == true) {
	ALOGE("\|session\| is already active");
	return ESE_APP_RESULT_ERROR_ARGUMENTS;
	}
	/* Instantiate a logical channel */
	rx_len = ese_transceive(ese, kManageChannelOpen, sizeof(kManageChannelOpen),
	rx_buf, sizeof(rx_buf));
	if (ese_error(ese)) {
	ALOGE("transceive error: code:%d message:'%s'", ese_error_code(ese),
	ese_error_message(ese));
	return ESE_APP_RESULT_ERROR_COMM_FAILED;
	}
	if (rx_len < 0) {
	ALOGE("transceive error: rx_len: %d", rx_len);
	return ESE_APP_RESULT_ERROR_COMM_FAILED;
	}
	if (rx_len < 2) {
	ALOGE("transceive error: reply too short");
	return ESE_APP_RESULT_ERROR_COMM_FAILED;
	}
	EseAppResult ret;
	ret = check_apdu_status(&rx_buf[rx_len - 2]);
	if (ret != ESE_APP_RESULT_OK) {
	ALOGE("MANAGE CHANNEL OPEN failed with error code: %x %x",
	rx_buf[rx_len - 2], rx_buf[rx_len - 1]);
	return ret;
	}
	if (rx_len < 3) {
	ALOGE("transceive error: successful reply unexpectedly short");
	return ESE_APP_RESULT_ERROR_COMM_FAILED;
	}
	session->ese = ese;
	session->channel_id = rx_buf[rx_len - 3];

	/* Select Weaver Applet. */
	uint8_t chan = kSelectApplet[0] \| session->channel_id;
	tx[0].base = &chan;
	tx[0].len = 1;
	tx[1].base = (uint8_t *)&kSelectApplet[1];
	tx[1].len = sizeof(kSelectApplet) - 1;
	rx.base = &rx_buf[0];
	rx.len = sizeof(rx_buf);
	rx_len = ese_transceive_sg(ese, tx, 2, &rx, 1);
	if (rx_len < 0 \|\| ese_error(ese)) {
	ALOGE("transceive error: caller should check ese_error()");
	return ESE_APP_RESULT_ERROR_COMM_FAILED;
	}
	if (rx_len < 2) {
	ALOGE("transceive error: reply too short");
	return ESE_APP_RESULT_ERROR_COMM_FAILED;
	}
	ret = check_apdu_status(&rx_buf[rx_len - 2]);
	if (ret != ESE_APP_RESULT_OK) {
	ALOGE("SELECT failed with error code: %x %x", rx_buf[rx_len - 2],
	rx_buf[rx_len - 1]);
	return ret;
	}
	session->active = true;
	return ESE_APP_RESULT_OK;
	}

	ESE_API EseAppResult
	ese_weaver_session_close(struct EseWeaverSession *session) {
	uint8_t rx_buf[32];
	int rx_len;
	if (!session \|\| !session->ese) {
	return ESE_APP_RESULT_ERROR_ARGUMENTS;
	}
	if (!session->active \|\| session->channel_id == 0) {
	return ESE_APP_RESULT_ERROR_ARGUMENTS;
	}
	/* Release the channel */
	uint8_t close_channel[sizeof(kManageChannelClose)];
	ese_memcpy(close_channel, kManageChannelClose, sizeof(kManageChannelClose));
	close_channel[0] \|= session->channel_id;
	close_channel[3] \|= session->channel_id;
	rx_len = ese_transceive(session->ese, close_channel, sizeof(close_channel),
	rx_buf, sizeof(rx_buf));
	if (rx_len < 0 \|\| ese_error(session->ese)) {
	return ESE_APP_RESULT_ERROR_COMM_FAILED;
	}
	if (rx_len < 2) {
	return ESE_APP_RESULT_ERROR_COMM_FAILED;
	}
	EseAppResult ret;
	ret = check_apdu_status(&rx_buf[rx_len - 2]);
	if (ret != ESE_APP_RESULT_OK) {
	return ret;
	}
	session->channel_id = 0;
	session->active = false;
	return ESE_APP_RESULT_OK;
	}

	ESE_API EseAppResult ese_weaver_get_num_slots(struct EseWeaverSession *session,
	uint32_t *numSlots) {
	if (!session \|\| !session->ese \|\| !session->active) {
	return ESE_APP_RESULT_ERROR_ARGUMENTS;
	}
	if (!session->active \|\| session->channel_id == 0) {
	return ESE_APP_RESULT_ERROR_ARGUMENTS;
	}
	if (!numSlots) {
	return ESE_APP_RESULT_ERROR_ARGUMENTS;
	}

	// Prepare command
	uint8_t get_num_slots[sizeof(kGetNumSlots)];
	ese_memcpy(get_num_slots, kGetNumSlots, sizeof(kGetNumSlots));
	get_num_slots[0] \|= session->channel_id;

	// Send command
	uint8_t rx_buf[6];
	const int rx_len =
	ese_transceive(session->ese, get_num_slots, sizeof(get_num_slots), rx_buf,
	sizeof(rx_buf));

	// Check for errors
	if (rx_len < 2 \|\| ese_error(session->ese)) {
	ALOGE("Failed to get num slots");
	return ESE_APP_RESULT_ERROR_COMM_FAILED;
	}
	if (rx_len == 2) {
	ALOGE("ese_weaver_get_num_slots: SE exception");
	EseAppResult ret = check_apdu_status(rx_buf);
	return ret;
	}
	if (rx_len != 6) {
	ALOGE("Unexpected response from Weaver applet");
	return ESE_APP_RESULT_ERROR_COMM_FAILED;
	}

	*numSlots = get_uint32(rx_buf);
	return ESE_APP_RESULT_OK;
	}

	ESE_API EseAppResult ese_weaver_write(struct EseWeaverSession *session,
	uint32_t slotId, const uint8_t *key,
	const uint8_t *value) {
	if (!session \|\| !session->ese \|\| !session->active) {
	return ESE_APP_RESULT_ERROR_ARGUMENTS;
	}
	if (!session->active \|\| session->channel_id == 0) {
	return ESE_APP_RESULT_ERROR_ARGUMENTS;
	}
	if (!key \|\| !value) {
	return ESE_APP_RESULT_ERROR_ARGUMENTS;
	}

	// Prepare data to send
	struct EseSgBuffer tx[5];
	uint8_t chan = kWrite[0] \| session->channel_id;
	tx[0].base = &chan;
	tx[0].len = 1;
	tx[1].base = (uint8_t *)&kWrite[1];
	tx[1].len = sizeof(kWrite) - 1;

	// Slot ID in big endian
	uint8_t slot_id[4];
	put_uint32(slot_id, slotId);
	tx[2].base = slot_id;
	tx[2].len = sizeof(slot_id);

	// Key and value
	tx[3].c_base = key;
	tx[3].len = kEseWeaverKeySize;
	tx[4].c_base = value;
	tx[4].len = kEseWeaverValueSize;

	// Prepare buffer for result
	struct EseSgBuffer rx;
	uint8_t rx_buf[2];
	rx.base = rx_buf;
	rx.len = sizeof(rx_buf);

	// Send the command
	const int rx_len = ese_transceive_sg(session->ese, tx, 5, &rx, 1);

	// Check for errors
	if (rx_len < 2 \|\| ese_error(session->ese)) {
	ALOGE("Failed to write to slot");
	return ESE_APP_RESULT_ERROR_COMM_FAILED;
	}
	if (rx_len > 2) {
	ALOGE("Unexpected response from Weaver applet");
	return ESE_APP_RESULT_ERROR_COMM_FAILED;
	}
	return check_apdu_status(rx_buf);
	}

	ESE_API EseAppResult ese_weaver_read(struct EseWeaverSession *session,
	uint32_t slotId, const uint8_t *key,
	uint8_t value, uint32_t timeout) {
	if (!session \|\| !session->ese \|\| !session->active) {
	return ESE_APP_RESULT_ERROR_ARGUMENTS;
	}
	if (!session->active \|\| session->channel_id == 0) {
	return ESE_APP_RESULT_ERROR_ARGUMENTS;
	}
	if (!key \|\| !value \|\| !timeout) {
	return ESE_APP_RESULT_ERROR_ARGUMENTS;
	}

	// Prepare data to send
	struct EseSgBuffer tx[5];
	uint8_t chan = kRead[0] \| session->channel_id;
	tx[0].base = &chan;
	tx[0].len = 1;
	tx[1].base = (uint8_t *)&kRead[1];
	tx[1].len = sizeof(kRead) - 1;

	// Slot ID in big endian
	uint8_t slot_id[4];
	put_uint32(slot_id, slotId);
	tx[2].base = slot_id;
	tx[2].len = sizeof(slot_id);

	// Key of 16 bytes
	tx[3].c_base = key;
	tx[3].len = kEseWeaverKeySize;

	// Value response is 16 bytes
	const uint8_t maxResponse = 1 + kEseWeaverValueSize;
	tx[4].c_base = &maxResponse;
	tx[4].len = 1;

	// Prepare buffer for result
	struct EseSgBuffer rx[3];
	uint8_t appletStatus;
	rx[0].base = &appletStatus;
	rx[0].len = 1;
	rx[1].base = value;
	rx[1].len = kEseWeaverValueSize;
	uint8_t rx_buf[2];
	rx[2].base = rx_buf;
	rx[2].len = sizeof(rx_buf);

	// Send the command
	const int rx_len = ese_transceive_sg(session->ese, tx, 5, rx, 3);

	// Check for errors
	if (rx_len < 2 \|\| ese_error(session->ese)) {
	ALOGE("Failed to write to slot");
	return ESE_APP_RESULT_ERROR_COMM_FAILED;
	}
	if (rx_len == 2) {
	rx_buf[0] = appletStatus;
	rx_buf[1] = value[0];
	ALOGE("ese_weaver_read: SE exception");
	EseAppResult ret = check_apdu_status(rx_buf);
	return ret;
	}
	if (rx_len < 7) {
	ALOGE("Unexpected response from Weaver applet");
	return ESE_APP_RESULT_ERROR_COMM_FAILED;
	}
	const uint8_t READ_SUCCESS = 0x00;
	const uint8_t READ_WRONG_KEY = 0x7f;
	const uint8_t READ_BACK_OFF = 0x76;
	const uint32_t millisInSecond = 1000;
	// wrong key
	if (appletStatus == READ_WRONG_KEY) {
	ALOGI("ese_weaver_read wrong key provided");
	timeout = get_uint32(value) millisInSecond;
	return ESE_WEAVER_READ_WRONG_KEY;
	}
	// backoff
	if (appletStatus == READ_BACK_OFF) {
	ALOGI("ese_weaver_read wrong key provided");
	timeout = get_uint32(value) millisInSecond;
	return ESE_WEAVER_READ_TIMEOUT;
	}
	if (rx_len != 19) {
	ALOGE("Unexpected response from Weaver applet");
	return ESE_APP_RESULT_ERROR_COMM_FAILED;
	}
	return ESE_APP_RESULT_OK;
	}

	ESE_API EseAppResult ese_weaver_erase_value(struct EseWeaverSession *session,
	uint32_t slotId) {
	if (!session \|\| !session->ese \|\| !session->active) {
	return ESE_APP_RESULT_ERROR_ARGUMENTS;
	}
	if (!session->active \|\| session->channel_id == 0) {
	return ESE_APP_RESULT_ERROR_ARGUMENTS;
	}

	// Prepare data to send
	struct EseSgBuffer tx[3];
	uint8_t chan = kEraseValue[0] \| session->channel_id;
	tx[0].base = &chan;
	tx[0].len = 1;
	tx[1].base = (uint8_t *)&kEraseValue[1];
	tx[1].len = sizeof(kEraseValue) - 1;

	// Slot ID in big endian
	uint8_t slot_id[4];
	put_uint32(slot_id, slotId);
	tx[2].base = slot_id;
	tx[2].len = sizeof(slot_id);

	// Prepare buffer for result
	struct EseSgBuffer rx;
	uint8_t rx_buf[2];
	rx.base = rx_buf;
	rx.len = sizeof(rx_buf);

	// Send the command
	const int rx_len = ese_transceive_sg(session->ese, tx, 3, &rx, 1);

	// Check for errors
	if (rx_len < 2 \|\| ese_error(session->ese)) {
	ALOGE("Failed to write to slot");
	return ESE_APP_RESULT_ERROR_COMM_FAILED;
	}
	if (rx_len > 2) {
	ALOGE("Unexpected response from Weaver applet");
	return ESE_APP_RESULT_ERROR_COMM_FAILED;
	}
	return check_apdu_status(rx_buf);
	}

	// TODO: erase all, not currently used