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      1 /*
      2  * Copyright (C) 2014 Andrew Duggan
      3  * Copyright (C) 2014 Synaptics Inc
      4  *
      5  * Licensed under the Apache License, Version 2.0 (the "License");
      6  * you may not use this file except in compliance with the License.
      7  * You may obtain a copy of the License at
      8  *
      9  *      http://www.apache.org/licenses/LICENSE-2.0
     10  *
     11  * Unless required by applicable law or agreed to in writing, software
     12  * distributed under the License is distributed on an "AS IS" BASIS,
     13  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
     14  * See the License for the specific language governing permissions and
     15  * limitations under the License.
     16  */
     17 
     18 #include <alloca.h>
     19 #include <time.h>
     20 #include <stdint.h>
     21 #include <stdio.h>
     22 #include <unistd.h>
     23 #include <string.h>
     24 #include <stdlib.h>
     25 #include <errno.h>
     26 
     27 #include "rmi4update.h"
     28 
     29 #define RMI_F34_QUERY_SIZE		7
     30 #define RMI_F34_HAS_NEW_REG_MAP		(1 << 0)
     31 #define RMI_F34_IS_UNLOCKED		(1 << 1)
     32 #define RMI_F34_HAS_CONFIG_ID		(1 << 2)
     33 #define RMI_F34_BLOCK_SIZE_OFFSET	1
     34 #define RMI_F34_FW_BLOCKS_OFFSET	3
     35 #define RMI_F34_CONFIG_BLOCKS_OFFSET	5
     36 
     37 #define RMI_F34_BLOCK_SIZE_V1_OFFSET	0
     38 #define RMI_F34_FW_BLOCKS_V1_OFFSET	0
     39 #define RMI_F34_CONFIG_BLOCKS_V1_OFFSET	2
     40 
     41 #define RMI_F34_BLOCK_DATA_OFFSET	2
     42 #define RMI_F34_BLOCK_DATA_V1_OFFSET	1
     43 
     44 #define RMI_F34_COMMAND_MASK		0x0F
     45 #define RMI_F34_STATUS_MASK		0x07
     46 #define RMI_F34_STATUS_SHIFT		4
     47 #define RMI_F34_ENABLED_MASK		0x80
     48 
     49 #define RMI_F34_COMMAND_V1_MASK		0x3F
     50 #define RMI_F34_STATUS_V1_MASK		0x3F
     51 #define RMI_F34_ENABLED_V1_MASK		0x80
     52 
     53 #define RMI_F34_WRITE_FW_BLOCK        0x02
     54 #define RMI_F34_ERASE_ALL             0x03
     55 #define RMI_F34_WRITE_LOCKDOWN_BLOCK  0x04
     56 #define RMI_F34_WRITE_CONFIG_BLOCK    0x06
     57 #define RMI_F34_ENABLE_FLASH_PROG     0x0f
     58 
     59 #define RMI_F34_ENABLE_WAIT_MS 300
     60 #define RMI_F34_ERASE_WAIT_MS (5 * 1000)
     61 #define RMI_F34_IDLE_WAIT_MS 500
     62 
     63 /* Most recent device status event */
     64 #define RMI_F01_STATUS_CODE(status)		((status) & 0x0f)
     65 /* Indicates that flash programming is enabled (bootloader mode). */
     66 #define RMI_F01_STATUS_BOOTLOADER(status)	(!!((status) & 0x40))
     67 /* The device has lost its configuration for some reason. */
     68 #define RMI_F01_STATUS_UNCONFIGURED(status)	(!!((status) & 0x80))
     69 
     70 /*
     71  * Sleep mode controls power management on the device and affects all
     72  * functions of the device.
     73  */
     74 #define RMI_F01_CTRL0_SLEEP_MODE_MASK	0x03
     75 
     76 #define RMI_SLEEP_MODE_NORMAL		0x00
     77 #define RMI_SLEEP_MODE_SENSOR_SLEEP	0x01
     78 #define RMI_SLEEP_MODE_RESERVED0	0x02
     79 #define RMI_SLEEP_MODE_RESERVED1	0x03
     80 
     81 /*
     82  * This bit disables whatever sleep mode may be selected by the sleep_mode
     83  * field and forces the device to run at full power without sleeping.
     84  */
     85 #define RMI_F01_CRTL0_NOSLEEP_BIT	(1 << 2)
     86 
     87 int RMI4Update::UpdateFirmware(bool force, bool performLockdown)
     88 {
     89 	struct timespec start;
     90 	struct timespec end;
     91 	long long int duration_us = 0;
     92 	int rc;
     93 	const unsigned char eraseAll = RMI_F34_ERASE_ALL;
     94 
     95 	rc = FindUpdateFunctions();
     96 	if (rc != UPDATE_SUCCESS)
     97 		return rc;
     98 
     99 	rc = m_device.QueryBasicProperties();
    100 	if (rc < 0)
    101 		return UPDATE_FAIL_QUERY_BASIC_PROPERTIES;
    102 
    103 	if (!force && m_firmwareImage.HasIO()) {
    104 		if (m_firmwareImage.GetFirmwareID() <= m_device.GetFirmwareID()) {
    105 			fprintf(stderr, "Firmware image (%ld) is not newer then the firmware on the device (%ld)\n",
    106 				m_firmwareImage.GetFirmwareID(), m_device.GetFirmwareID());
    107 			rc = UPDATE_FAIL_FIRMWARE_IMAGE_IS_OLDER;
    108 			return rc;
    109 		}
    110 	}
    111 
    112 	fprintf(stdout, "Device Properties:\n");
    113 	m_device.PrintProperties();
    114 
    115 	rc = DisableNonessentialInterupts();
    116 	if (rc != UPDATE_SUCCESS)
    117 		return rc;
    118 
    119 	rc = ReadF34Queries();
    120 	if (rc != UPDATE_SUCCESS)
    121 		return rc;
    122 
    123 	rc = m_firmwareImage.VerifyImageMatchesDevice(GetFirmwareSize(), GetConfigSize());
    124 	if (rc != UPDATE_SUCCESS)
    125 		return rc;
    126 
    127 	rc = EnterFlashProgramming();
    128 	if (rc != UPDATE_SUCCESS) {
    129 		fprintf(stderr, "%s: %s\n", __func__, update_err_to_string(rc));
    130 		goto reset;
    131 	}
    132 
    133 	if (performLockdown && m_unlocked) {
    134 		if (m_firmwareImage.GetLockdownData()) {
    135 			fprintf(stdout, "Writing lockdown...\n");
    136 			clock_gettime(CLOCK_MONOTONIC, &start);
    137 			rc = WriteBlocks(m_firmwareImage.GetLockdownData(),
    138 					m_firmwareImage.GetLockdownSize() / 0x10,
    139 					RMI_F34_WRITE_LOCKDOWN_BLOCK);
    140 			if (rc != UPDATE_SUCCESS) {
    141 				fprintf(stderr, "%s: %s\n", __func__, update_err_to_string(rc));
    142 				goto reset;
    143 			}
    144 			clock_gettime(CLOCK_MONOTONIC, &end);
    145 			duration_us = diff_time(&start, &end);
    146 			fprintf(stdout, "Done writing lockdown, time: %lld us.\n", duration_us);
    147 		}
    148 
    149 		rc = EnterFlashProgramming();
    150 		if (rc != UPDATE_SUCCESS) {
    151 			fprintf(stderr, "%s: %s\n", __func__, update_err_to_string(rc));
    152 			goto reset;
    153 		}
    154 
    155 	}
    156 
    157 	rc = WriteBootloaderID();
    158 	if (rc != UPDATE_SUCCESS) {
    159 		fprintf(stderr, "%s: %s\n", __func__, update_err_to_string(rc));
    160 		goto reset;
    161 	}
    162 
    163 	fprintf(stdout, "Erasing FW...\n");
    164 	clock_gettime(CLOCK_MONOTONIC, &start);
    165 	rc = m_device.Write(m_f34StatusAddr, &eraseAll, 1);
    166 	if (rc != 1) {
    167 		fprintf(stderr, "%s: %s\n", __func__, update_err_to_string(UPDATE_FAIL_ERASE_ALL));
    168 		rc = UPDATE_FAIL_ERASE_ALL;
    169 		goto reset;
    170 	}
    171 
    172 	rc = WaitForIdle(RMI_F34_ERASE_WAIT_MS);
    173 	if (rc != UPDATE_SUCCESS) {
    174 		fprintf(stderr, "%s: %s\n", __func__, update_err_to_string(rc));
    175 		goto reset;
    176 	}
    177 	clock_gettime(CLOCK_MONOTONIC, &end);
    178 	duration_us = diff_time(&start, &end);
    179 	fprintf(stdout, "Erase complete, time: %lld us.\n", duration_us);
    180 
    181 	if (m_firmwareImage.GetFirmwareData()) {
    182 		fprintf(stdout, "Writing firmware...\n");
    183 		clock_gettime(CLOCK_MONOTONIC, &start);
    184 		rc = WriteBlocks(m_firmwareImage.GetFirmwareData(), m_fwBlockCount,
    185 						RMI_F34_WRITE_FW_BLOCK);
    186 		if (rc != UPDATE_SUCCESS) {
    187 			fprintf(stderr, "%s: %s\n", __func__, update_err_to_string(rc));
    188 			goto reset;
    189 		}
    190 		clock_gettime(CLOCK_MONOTONIC, &end);
    191 		duration_us = diff_time(&start, &end);
    192 		fprintf(stdout, "Done writing FW, time: %lld us.\n", duration_us);
    193 	}
    194 
    195 	if (m_firmwareImage.GetConfigData()) {
    196 		fprintf(stdout, "Writing configuration...\n");
    197 		clock_gettime(CLOCK_MONOTONIC, &start);
    198 		rc = WriteBlocks(m_firmwareImage.GetConfigData(), m_configBlockCount,
    199 				RMI_F34_WRITE_CONFIG_BLOCK);
    200 		if (rc != UPDATE_SUCCESS) {
    201 			fprintf(stderr, "%s: %s\n", __func__, update_err_to_string(rc));
    202 			goto reset;
    203 		}
    204 		clock_gettime(CLOCK_MONOTONIC, &end);
    205 		duration_us = diff_time(&start, &end);
    206 		fprintf(stdout, "Done writing config, time: %lld us.\n", duration_us);
    207 	}
    208 
    209 reset:
    210 	m_device.Reset();
    211 	m_device.RebindDriver();
    212 	return rc;
    213 
    214 }
    215 
    216 int RMI4Update::DisableNonessentialInterupts()
    217 {
    218 	int rc;
    219 	unsigned char interruptEnabeMask = m_f34.GetInterruptMask() | m_f01.GetInterruptMask();
    220 
    221 	rc = m_device.Write(m_f01.GetControlBase() + 1, &interruptEnabeMask, 1);
    222 	if (rc != 1)
    223 		return rc;
    224 
    225 	return UPDATE_SUCCESS;
    226 }
    227 
    228 int RMI4Update::FindUpdateFunctions()
    229 {
    230 	if (0 > m_device.ScanPDT())
    231 		return UPDATE_FAIL_SCAN_PDT;
    232 
    233 	if (!m_device.GetFunction(m_f01, 0x01))
    234 		return UPDATE_FAIL_NO_FUNCTION_01;
    235 
    236 	if (!m_device.GetFunction(m_f34, 0x34))
    237 		return UPDATE_FAIL_NO_FUNCTION_34;
    238 
    239 	return UPDATE_SUCCESS;
    240 }
    241 
    242 int RMI4Update::ReadF34Queries()
    243 {
    244 	int rc;
    245 	unsigned char idStr[3];
    246 	unsigned char buf[8];
    247 	unsigned short queryAddr = m_f34.GetQueryBase();
    248 	unsigned short f34Version = m_f34.GetFunctionVersion();
    249 	unsigned short querySize;
    250 
    251 	if (f34Version == 0x1)
    252 		querySize = 8;
    253 	else
    254 		querySize = 2;
    255 
    256 	rc = m_device.Read(queryAddr, m_bootloaderID, RMI_BOOTLOADER_ID_SIZE);
    257 	if (rc != RMI_BOOTLOADER_ID_SIZE)
    258 		return UPDATE_FAIL_READ_BOOTLOADER_ID;
    259 
    260 	if (f34Version == 0x1)
    261 		++queryAddr;
    262 	else
    263 		queryAddr += querySize;
    264 
    265 	if (f34Version == 0x1) {
    266 		rc = m_device.Read(queryAddr, buf, 1);
    267 		if (rc != 1)
    268 			return UPDATE_FAIL_READ_F34_QUERIES;
    269 
    270 		m_hasNewRegmap = buf[0] & RMI_F34_HAS_NEW_REG_MAP;
    271 		m_unlocked = buf[0] & RMI_F34_IS_UNLOCKED;;
    272 		m_hasConfigID = buf[0] & RMI_F34_HAS_CONFIG_ID;
    273 
    274 		++queryAddr;
    275 
    276 		rc = m_device.Read(queryAddr, buf, 2);
    277 		if (rc != 2)
    278 			return UPDATE_FAIL_READ_F34_QUERIES;
    279 
    280 		m_blockSize = extract_short(buf + RMI_F34_BLOCK_SIZE_V1_OFFSET);
    281 
    282 		++queryAddr;
    283 
    284 		rc = m_device.Read(queryAddr, buf, 8);
    285 		if (rc != 8)
    286 			return UPDATE_FAIL_READ_F34_QUERIES;
    287 
    288 		m_fwBlockCount = extract_short(buf + RMI_F34_FW_BLOCKS_V1_OFFSET);
    289 		m_configBlockCount = extract_short(buf + RMI_F34_CONFIG_BLOCKS_V1_OFFSET);
    290 	} else {
    291 		rc = m_device.Read(queryAddr, buf, RMI_F34_QUERY_SIZE);
    292 		if (rc != RMI_F34_QUERY_SIZE)
    293 			return UPDATE_FAIL_READ_F34_QUERIES;
    294 
    295 		m_hasNewRegmap = buf[0] & RMI_F34_HAS_NEW_REG_MAP;
    296 		m_unlocked = buf[0] & RMI_F34_IS_UNLOCKED;;
    297 		m_hasConfigID = buf[0] & RMI_F34_HAS_CONFIG_ID;
    298 		m_blockSize = extract_short(buf + RMI_F34_BLOCK_SIZE_OFFSET);
    299 		m_fwBlockCount = extract_short(buf + RMI_F34_FW_BLOCKS_OFFSET);
    300 		m_configBlockCount = extract_short(buf + RMI_F34_CONFIG_BLOCKS_OFFSET);
    301 	}
    302 
    303 	idStr[0] = m_bootloaderID[0];
    304 	idStr[1] = m_bootloaderID[1];
    305 	idStr[2] = 0;
    306 
    307 	fprintf(stdout, "F34 bootloader id: %s (%#04x %#04x)\n", idStr, m_bootloaderID[0],
    308 		m_bootloaderID[1]);
    309 	fprintf(stdout, "F34 has config id: %d\n", m_hasConfigID);
    310 	fprintf(stdout, "F34 unlocked:      %d\n", m_unlocked);
    311 	fprintf(stdout, "F34 new reg map:   %d\n", m_hasNewRegmap);
    312 	fprintf(stdout, "F34 block size:    %d\n", m_blockSize);
    313 	fprintf(stdout, "F34 fw blocks:     %d\n", m_fwBlockCount);
    314 	fprintf(stdout, "F34 config blocks: %d\n", m_configBlockCount);
    315 	fprintf(stdout, "\n");
    316 
    317 	if (f34Version == 0x1)
    318 		m_f34StatusAddr = m_f34.GetDataBase() + 2;
    319 	else
    320 		m_f34StatusAddr = m_f34.GetDataBase() + RMI_F34_BLOCK_DATA_OFFSET + m_blockSize;
    321 
    322 	return UPDATE_SUCCESS;
    323 }
    324 
    325 int RMI4Update::ReadF34Controls()
    326 {
    327 	int rc;
    328 	unsigned char buf[2];
    329 
    330 	if (m_f34.GetFunctionVersion() == 0x1) {
    331 		rc = m_device.Read(m_f34StatusAddr, buf, 2);
    332 		if (rc != 2)
    333 			return UPDATE_FAIL_READ_F34_CONTROLS;
    334 
    335 		m_f34Command = buf[0] & RMI_F34_COMMAND_V1_MASK;
    336 		m_f34Status = buf[1] & RMI_F34_STATUS_V1_MASK;
    337 		m_programEnabled = !!(buf[1] & RMI_F34_ENABLED_MASK);
    338 
    339 	} else {
    340 		rc = m_device.Read(m_f34StatusAddr, buf, 1);
    341 		if (rc != 1)
    342 			return UPDATE_FAIL_READ_F34_CONTROLS;
    343 
    344 		m_f34Command = buf[0] & RMI_F34_COMMAND_MASK;
    345 		m_f34Status = (buf[0] >> RMI_F34_STATUS_SHIFT) & RMI_F34_STATUS_MASK;
    346 		m_programEnabled = !!(buf[0] & RMI_F34_ENABLED_MASK);
    347 	}
    348 
    349 	return UPDATE_SUCCESS;
    350 }
    351 
    352 int RMI4Update::WriteBootloaderID()
    353 {
    354 	int rc;
    355 	int blockDataOffset = RMI_F34_BLOCK_DATA_OFFSET;
    356 
    357 	if (m_f34.GetFunctionVersion() == 0x1)
    358 		blockDataOffset = RMI_F34_BLOCK_DATA_V1_OFFSET;
    359 
    360 	rc = m_device.Write(m_f34.GetDataBase() + blockDataOffset,
    361 				m_bootloaderID, RMI_BOOTLOADER_ID_SIZE);
    362 	if (rc != RMI_BOOTLOADER_ID_SIZE)
    363 		return UPDATE_FAIL_WRITE_BOOTLOADER_ID;
    364 
    365 	return UPDATE_SUCCESS;
    366 }
    367 
    368 int RMI4Update::EnterFlashProgramming()
    369 {
    370 	int rc;
    371 	unsigned char f01Control_0;
    372 	const unsigned char enableProg = RMI_F34_ENABLE_FLASH_PROG;
    373 
    374 	rc = WriteBootloaderID();
    375 	if (rc != UPDATE_SUCCESS)
    376 		return rc;
    377 
    378 	fprintf(stdout, "Enabling flash programming.\n");
    379 	rc = m_device.Write(m_f34StatusAddr, &enableProg, 1);
    380 	if (rc != 1)
    381 		return UPDATE_FAIL_ENABLE_FLASH_PROGRAMMING;
    382 
    383 	Sleep(RMI_F34_ENABLE_WAIT_MS);
    384 	m_device.RebindDriver();
    385 	rc = WaitForIdle(0);
    386 	if (rc != UPDATE_SUCCESS)
    387 		return UPDATE_FAIL_NOT_IN_IDLE_STATE;
    388 
    389 	if (!m_programEnabled)
    390 		return UPDATE_FAIL_PROGRAMMING_NOT_ENABLED;
    391 
    392 	fprintf(stdout, "Programming is enabled.\n");
    393 	rc = FindUpdateFunctions();
    394 	if (rc != UPDATE_SUCCESS)
    395 		return rc;
    396 
    397 	rc = m_device.Read(m_f01.GetDataBase(), &m_deviceStatus, 1);
    398 	if (rc != 1)
    399 		return UPDATE_FAIL_READ_DEVICE_STATUS;
    400 
    401 	if (!RMI_F01_STATUS_BOOTLOADER(m_deviceStatus))
    402 		return UPDATE_FAIL_DEVICE_NOT_IN_BOOTLOADER;
    403 
    404 	rc = ReadF34Queries();
    405 	if (rc != UPDATE_SUCCESS)
    406 		return rc;
    407 
    408 	rc = m_device.Read(m_f01.GetControlBase(), &f01Control_0, 1);
    409 	if (rc != 1)
    410 		return UPDATE_FAIL_READ_F01_CONTROL_0;
    411 
    412 	f01Control_0 |= RMI_F01_CRTL0_NOSLEEP_BIT;
    413 	f01Control_0 = (f01Control_0 & ~RMI_F01_CTRL0_SLEEP_MODE_MASK) | RMI_SLEEP_MODE_NORMAL;
    414 
    415 	rc = m_device.Write(m_f01.GetControlBase(), &f01Control_0, 1);
    416 	if (rc != 1)
    417 		return UPDATE_FAIL_WRITE_F01_CONTROL_0;
    418 
    419 	return UPDATE_SUCCESS;
    420 }
    421 
    422 int RMI4Update::WriteBlocks(unsigned char *block, unsigned short count, unsigned char cmd)
    423 {
    424 	int blockNum;
    425 	unsigned char zeros[] = { 0, 0 };
    426 	int rc;
    427 	unsigned short addr;
    428 	unsigned char *blockWithCmd = (unsigned char *)alloca(m_blockSize + 1);
    429 
    430 	if (m_f34.GetFunctionVersion() == 0x1)
    431 		addr = m_f34.GetDataBase() + RMI_F34_BLOCK_DATA_V1_OFFSET;
    432 	else
    433 		addr = m_f34.GetDataBase() + RMI_F34_BLOCK_DATA_OFFSET;
    434 
    435 	rc = m_device.Write(m_f34.GetDataBase(), zeros, 2);
    436 	if (rc != 2)
    437 		return UPDATE_FAIL_WRITE_INITIAL_ZEROS;
    438 
    439 	for (blockNum = 0; blockNum < count; ++blockNum) {
    440 		if (m_writeBlockWithCmd) {
    441 			memcpy(blockWithCmd, block, m_blockSize);
    442 			blockWithCmd[m_blockSize] = cmd;
    443 
    444 			rc = m_device.Write(addr, blockWithCmd, m_blockSize + 1);
    445 			if (rc != m_blockSize + 1) {
    446 				fprintf(stderr, "failed to write block %d\n", blockNum);
    447 				return UPDATE_FAIL_WRITE_BLOCK;
    448 			}
    449 		} else {
    450 			rc = m_device.Write(addr, block, m_blockSize);
    451 			if (rc != m_blockSize) {
    452 				fprintf(stderr, "failed to write block %d\n", blockNum);
    453 				return UPDATE_FAIL_WRITE_BLOCK;
    454 			}
    455 
    456 			rc = m_device.Write(m_f34StatusAddr, &cmd, 1);
    457 			if (rc != 1) {
    458 				fprintf(stderr, "failed to write command for block %d\n", blockNum);
    459 				return UPDATE_FAIL_WRITE_FLASH_COMMAND;
    460 			}
    461 		}
    462 
    463 		rc = WaitForIdle(RMI_F34_IDLE_WAIT_MS, !m_writeBlockWithCmd);
    464 		if (rc != UPDATE_SUCCESS) {
    465 			fprintf(stderr, "failed to go into idle after writing block %d\n", blockNum);
    466 			return UPDATE_FAIL_NOT_IN_IDLE_STATE;
    467 		}
    468 
    469 		block += m_blockSize;
    470 	}
    471 
    472 	return UPDATE_SUCCESS;
    473 }
    474 
    475 /*
    476  * This is a limited implementation of WaitForIdle which assumes WaitForAttention is supported
    477  * this will be true for HID, but other protocols will need to revert polling. Polling
    478  * is not implemented yet.
    479  */
    480 int RMI4Update::WaitForIdle(int timeout_ms, bool readF34OnSucess)
    481 {
    482 	int rc = 0;
    483 	struct timeval tv;
    484 
    485 	if (timeout_ms > 0) {
    486 		tv.tv_sec = timeout_ms / 1000;
    487 		tv.tv_usec = (timeout_ms % 1000) * 1000;
    488 
    489 		rc = m_device.WaitForAttention(&tv, m_f34.GetInterruptMask());
    490 		if (rc == -ETIMEDOUT)
    491 			/*
    492 			 * If for some reason we are not getting attention reports for HID devices
    493 			 * then we can still continue after the timeout and read F34 status
    494 			 * but if we have to wait for the timeout to ellapse everytime then this
    495 			 * will be slow. If this message shows up a lot then something is wrong
    496 			 * with receiving attention reports and that should be fixed.
    497 			 */
    498 			fprintf(stderr, "Timed out waiting for attn report\n");
    499 	}
    500 
    501 	if (rc <= 0 || readF34OnSucess) {
    502 		rc = ReadF34Controls();
    503 		if (rc != UPDATE_SUCCESS)
    504 			return rc;
    505 
    506 		if (!m_f34Status && !m_f34Command) {
    507 			if (!m_programEnabled) {
    508 				fprintf(stderr, "Bootloader is idle but program_enabled bit isn't set.\n");
    509 				return UPDATE_FAIL_PROGRAMMING_NOT_ENABLED;
    510 			} else {
    511 				return UPDATE_SUCCESS;
    512 			}
    513 		}
    514 
    515 		fprintf(stderr, "ERROR: Waiting for idle status.\n");
    516 		fprintf(stderr, "Command: %#04x\n", m_f34Command);
    517 		fprintf(stderr, "Status:  %#04x\n", m_f34Status);
    518 		fprintf(stderr, "Enabled: %d\n", m_programEnabled);
    519 		fprintf(stderr, "Idle:    %d\n", !m_f34Command && !m_f34Status);
    520 
    521 		return UPDATE_FAIL_NOT_IN_IDLE_STATE;
    522 	}
    523 
    524 	return UPDATE_SUCCESS;
    525 }
    526