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      1 /*
      2  * Copyright  2001 Stephen Williams (steve (at) icarus.com)
      3  * Copyright  2001-2002 David Brownell (dbrownell (at) users.sourceforge.net)
      4  * Copyright  2008 Roger Williams (rawqux (at) users.sourceforge.net)
      5  * Copyright  2012 Pete Batard (pete (at) akeo.ie)
      6  * Copyright  2013 Federico Manzan (f.manzan (at) gmail.com)
      7  *
      8  *    This source code is free software; you can redistribute it
      9  *    and/or modify it in source code form under the terms of the GNU
     10  *    General Public License as published by the Free Software
     11  *    Foundation; either version 2 of the License, or (at your option)
     12  *    any later version.
     13  *
     14  *    This program is distributed in the hope that it will be useful,
     15  *    but WITHOUT ANY WARRANTY; without even the implied warranty of
     16  *    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     17  *    GNU General Public License for more details.
     18  *
     19  *    You should have received a copy of the GNU General Public License
     20  *    along with this program; if not, write to the Free Software
     21  *    Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA
     22  */
     23 #include <stdio.h>
     24 #include <errno.h>
     25 #include <stdlib.h>
     26 #include <string.h>
     27 #include <stdint.h>
     28 
     29 #include "libusb.h"
     30 #include "ezusb.h"
     31 
     32 extern void logerror(const char *format, ...)
     33 	__attribute__ ((format(printf, 1, 2)));
     34 
     35 /*
     36  * This file contains functions for uploading firmware into Cypress
     37  * EZ-USB microcontrollers. These chips use control endpoint 0 and vendor
     38  * specific commands to support writing into the on-chip SRAM. They also
     39  * support writing into the CPUCS register, which is how we reset the
     40  * processor after loading firmware (including the reset vector).
     41  *
     42  * These Cypress devices are 8-bit 8051 based microcontrollers with
     43  * special support for USB I/O.  They come in several packages, and
     44  * some can be set up with external memory when device costs allow.
     45  * Note that the design was originally by AnchorChips, so you may find
     46  * references to that vendor (which was later merged into Cypress).
     47  * The Cypress FX parts are largely compatible with the Anchorhip ones.
     48  */
     49 
     50 int verbose = 1;
     51 
     52 /*
     53  * return true if [addr,addr+len] includes external RAM
     54  * for Anchorchips EZ-USB or Cypress EZ-USB FX
     55  */
     56 static bool fx_is_external(uint32_t addr, size_t len)
     57 {
     58 	/* with 8KB RAM, 0x0000-0x1b3f can be written
     59 	 * we can't tell if it's a 4KB device here
     60 	 */
     61 	if (addr <= 0x1b3f)
     62 		return ((addr + len) > 0x1b40);
     63 
     64 	/* there may be more RAM; unclear if we can write it.
     65 	 * some bulk buffers may be unused, 0x1b3f-0x1f3f
     66 	 * firmware can set ISODISAB for 2KB at 0x2000-0x27ff
     67 	 */
     68 	return true;
     69 }
     70 
     71 /*
     72  * return true if [addr,addr+len] includes external RAM
     73  * for Cypress EZ-USB FX2
     74  */
     75 static bool fx2_is_external(uint32_t addr, size_t len)
     76 {
     77 	/* 1st 8KB for data/code, 0x0000-0x1fff */
     78 	if (addr <= 0x1fff)
     79 		return ((addr + len) > 0x2000);
     80 
     81 	/* and 512 for data, 0xe000-0xe1ff */
     82 	else if (addr >= 0xe000 && addr <= 0xe1ff)
     83 		return ((addr + len) > 0xe200);
     84 
     85 	/* otherwise, it's certainly external */
     86 	else
     87 		return true;
     88 }
     89 
     90 /*
     91  * return true if [addr,addr+len] includes external RAM
     92  * for Cypress EZ-USB FX2LP
     93  */
     94 static bool fx2lp_is_external(uint32_t addr, size_t len)
     95 {
     96 	/* 1st 16KB for data/code, 0x0000-0x3fff */
     97 	if (addr <= 0x3fff)
     98 		return ((addr + len) > 0x4000);
     99 
    100 	/* and 512 for data, 0xe000-0xe1ff */
    101 	else if (addr >= 0xe000 && addr <= 0xe1ff)
    102 		return ((addr + len) > 0xe200);
    103 
    104 	/* otherwise, it's certainly external */
    105 	else
    106 		return true;
    107 }
    108 
    109 
    110 /*****************************************************************************/
    111 
    112 /*
    113  * These are the requests (bRequest) that the bootstrap loader is expected
    114  * to recognize.  The codes are reserved by Cypress, and these values match
    115  * what EZ-USB hardware, or "Vend_Ax" firmware (2nd stage loader) uses.
    116  * Cypress' "a3load" is nice because it supports both FX and FX2, although
    117  * it doesn't have the EEPROM support (subset of "Vend_Ax").
    118  */
    119 #define RW_INTERNAL     0xA0	/* hardware implements this one */
    120 #define RW_MEMORY       0xA3
    121 
    122 /*
    123  * Issues the specified vendor-specific write request.
    124  */
    125 static int ezusb_write(libusb_device_handle *device, const char *label,
    126 	uint8_t opcode, uint32_t addr, const unsigned char *data, size_t len)
    127 {
    128 	int status;
    129 
    130 	if (verbose > 1)
    131 		logerror("%s, addr 0x%08x len %4u (0x%04x)\n", label, addr, (unsigned)len, (unsigned)len);
    132 	status = libusb_control_transfer(device,
    133 		LIBUSB_ENDPOINT_OUT | LIBUSB_REQUEST_TYPE_VENDOR | LIBUSB_RECIPIENT_DEVICE,
    134 		opcode, addr & 0xFFFF, addr >> 16,
    135 		(unsigned char*)data, (uint16_t)len, 1000);
    136 	if (status != (signed)len) {
    137 		if (status < 0)
    138 			logerror("%s: %s\n", label, libusb_error_name(status));
    139 		else
    140 			logerror("%s ==> %d\n", label, status);
    141 	}
    142 	return (status < 0) ? -EIO : 0;
    143 }
    144 
    145 /*
    146  * Issues the specified vendor-specific read request.
    147  */
    148 static int ezusb_read(libusb_device_handle *device, const char *label,
    149 	uint8_t opcode, uint32_t addr, const unsigned char *data, size_t len)
    150 {
    151 	int status;
    152 
    153 	if (verbose > 1)
    154 		logerror("%s, addr 0x%08x len %4u (0x%04x)\n", label, addr, (unsigned)len, (unsigned)len);
    155 	status = libusb_control_transfer(device,
    156 		LIBUSB_ENDPOINT_IN | LIBUSB_REQUEST_TYPE_VENDOR | LIBUSB_RECIPIENT_DEVICE,
    157 		opcode, addr & 0xFFFF, addr >> 16,
    158 		(unsigned char*)data, (uint16_t)len, 1000);
    159 	if (status != (signed)len) {
    160 		if (status < 0)
    161 			logerror("%s: %s\n", label, libusb_error_name(status));
    162 		else
    163 			logerror("%s ==> %d\n", label, status);
    164 	}
    165 	return (status < 0) ? -EIO : 0;
    166 }
    167 
    168 /*
    169  * Modifies the CPUCS register to stop or reset the CPU.
    170  * Returns false on error.
    171  */
    172 static bool ezusb_cpucs(libusb_device_handle *device, uint32_t addr, bool doRun)
    173 {
    174 	int status;
    175 	uint8_t data = doRun ? 0x00 : 0x01;
    176 
    177 	if (verbose)
    178 		logerror("%s\n", data ? "stop CPU" : "reset CPU");
    179 	status = libusb_control_transfer(device,
    180 		LIBUSB_ENDPOINT_OUT | LIBUSB_REQUEST_TYPE_VENDOR | LIBUSB_RECIPIENT_DEVICE,
    181 		RW_INTERNAL, addr & 0xFFFF, addr >> 16,
    182 		&data, 1, 1000);
    183 	if ((status != 1) &&
    184 		/* We may get an I/O error from libusb as the device disappears */
    185 		((!doRun) || (status != LIBUSB_ERROR_IO)))
    186 	{
    187 		const char *mesg = "can't modify CPUCS";
    188 		if (status < 0)
    189 			logerror("%s: %s\n", mesg, libusb_error_name(status));
    190 		else
    191 			logerror("%s\n", mesg);
    192 		return false;
    193 	} else
    194 		return true;
    195 }
    196 
    197 /*
    198  * Send an FX3 jumpt to address command
    199  * Returns false on error.
    200  */
    201 static bool ezusb_fx3_jump(libusb_device_handle *device, uint32_t addr)
    202 {
    203 	int status;
    204 
    205 	if (verbose)
    206 		logerror("transfer execution to Program Entry at 0x%08x\n", addr);
    207 	status = libusb_control_transfer(device,
    208 		LIBUSB_ENDPOINT_OUT | LIBUSB_REQUEST_TYPE_VENDOR | LIBUSB_RECIPIENT_DEVICE,
    209 		RW_INTERNAL, addr & 0xFFFF, addr >> 16,
    210 		NULL, 0, 1000);
    211 	/* We may get an I/O error from libusb as the device disappears */
    212 	if ((status != 0) && (status != LIBUSB_ERROR_IO))
    213 	{
    214 		const char *mesg = "failed to send jump command";
    215 		if (status < 0)
    216 			logerror("%s: %s\n", mesg, libusb_error_name(status));
    217 		else
    218 			logerror("%s\n", mesg);
    219 		return false;
    220 	} else
    221 		return true;
    222 }
    223 
    224 /*****************************************************************************/
    225 
    226 /*
    227  * Parse an Intel HEX image file and invoke the poke() function on the
    228  * various segments to implement policies such as writing to RAM (with
    229  * a one or two stage loader setup, depending on the firmware) or to
    230  * EEPROM (two stages required).
    231  *
    232  * image       - the hex image file
    233  * context     - for use by poke()
    234  * is_external - if non-null, used to check which segments go into
    235  *               external memory (writable only by software loader)
    236  * poke        - called with each memory segment; errors indicated
    237  *               by returning negative values.
    238  *
    239  * Caller is responsible for halting CPU as needed, such as when
    240  * overwriting a second stage loader.
    241  */
    242 static int parse_ihex(FILE *image, void *context,
    243 	bool (*is_external)(uint32_t addr, size_t len),
    244 	int (*poke) (void *context, uint32_t addr, bool external,
    245 	const unsigned char *data, size_t len))
    246 {
    247 	unsigned char data[1023];
    248 	uint32_t data_addr = 0;
    249 	size_t data_len = 0;
    250 	int rc;
    251 	int first_line = 1;
    252 	bool external = false;
    253 
    254 	/* Read the input file as an IHEX file, and report the memory segments
    255 	 * as we go.  Each line holds a max of 16 bytes, but uploading is
    256 	 * faster (and EEPROM space smaller) if we merge those lines into larger
    257 	 * chunks.  Most hex files keep memory segments together, which makes
    258 	 * such merging all but free.  (But it may still be worth sorting the
    259 	 * hex files to make up for undesirable behavior from tools.)
    260 	 *
    261 	 * Note that EEPROM segments max out at 1023 bytes; the upload protocol
    262 	 * allows segments of up to 64 KBytes (more than a loader could handle).
    263 	 */
    264 	for (;;) {
    265 		char buf[512], *cp;
    266 		char tmp, type;
    267 		size_t len;
    268 		unsigned idx, off;
    269 
    270 		cp = fgets(buf, sizeof(buf), image);
    271 		if (cp == NULL) {
    272 			logerror("EOF without EOF record!\n");
    273 			break;
    274 		}
    275 
    276 		/* EXTENSION: "# comment-till-end-of-line", for copyrights etc */
    277 		if (buf[0] == '#')
    278 			continue;
    279 
    280 		if (buf[0] != ':') {
    281 			logerror("not an ihex record: %s", buf);
    282 			return -2;
    283 		}
    284 
    285 		/* ignore any newline */
    286 		cp = strchr(buf, '\n');
    287 		if (cp)
    288 			*cp = 0;
    289 
    290 		if (verbose >= 3)
    291 			logerror("** LINE: %s\n", buf);
    292 
    293 		/* Read the length field (up to 16 bytes) */
    294 		tmp = buf[3];
    295 		buf[3] = 0;
    296 		len = strtoul(buf+1, NULL, 16);
    297 		buf[3] = tmp;
    298 
    299 		/* Read the target offset (address up to 64KB) */
    300 		tmp = buf[7];
    301 		buf[7] = 0;
    302 		off = (int)strtoul(buf+3, NULL, 16);
    303 		buf[7] = tmp;
    304 
    305 		/* Initialize data_addr */
    306 		if (first_line) {
    307 			data_addr = off;
    308 			first_line = 0;
    309 		}
    310 
    311 		/* Read the record type */
    312 		tmp = buf[9];
    313 		buf[9] = 0;
    314 		type = (char)strtoul(buf+7, NULL, 16);
    315 		buf[9] = tmp;
    316 
    317 		/* If this is an EOF record, then make it so. */
    318 		if (type == 1) {
    319 			if (verbose >= 2)
    320 				logerror("EOF on hexfile\n");
    321 			break;
    322 		}
    323 
    324 		if (type != 0) {
    325 			logerror("unsupported record type: %u\n", type);
    326 			return -3;
    327 		}
    328 
    329 		if ((len * 2) + 11 > strlen(buf)) {
    330 			logerror("record too short?\n");
    331 			return -4;
    332 		}
    333 
    334 		/* FIXME check for _physically_ contiguous not just virtually
    335 		 * e.g. on FX2 0x1f00-0x2100 includes both on-chip and external
    336 		 * memory so it's not really contiguous */
    337 
    338 		/* flush the saved data if it's not contiguous,
    339 		* or when we've buffered as much as we can.
    340 		*/
    341 		if (data_len != 0
    342 			&& (off != (data_addr + data_len)
    343 			/* || !merge */
    344 			|| (data_len + len) > sizeof(data))) {
    345 				if (is_external)
    346 					external = is_external(data_addr, data_len);
    347 				rc = poke(context, data_addr, external, data, data_len);
    348 				if (rc < 0)
    349 					return -1;
    350 				data_addr = off;
    351 				data_len = 0;
    352 		}
    353 
    354 		/* append to saved data, flush later */
    355 		for (idx = 0, cp = buf+9 ;  idx < len ;  idx += 1, cp += 2) {
    356 			tmp = cp[2];
    357 			cp[2] = 0;
    358 			data[data_len + idx] = (uint8_t)strtoul(cp, NULL, 16);
    359 			cp[2] = tmp;
    360 		}
    361 		data_len += len;
    362 	}
    363 
    364 
    365 	/* flush any data remaining */
    366 	if (data_len != 0) {
    367 		if (is_external)
    368 			external = is_external(data_addr, data_len);
    369 		rc = poke(context, data_addr, external, data, data_len);
    370 		if (rc < 0)
    371 			return -1;
    372 	}
    373 	return 0;
    374 }
    375 
    376 /*
    377  * Parse a binary image file and write it as is to the target.
    378  * Applies to Cypress BIX images for RAM or Cypress IIC images
    379  * for EEPROM.
    380  *
    381  * image       - the BIX image file
    382  * context     - for use by poke()
    383  * is_external - if non-null, used to check which segments go into
    384  *               external memory (writable only by software loader)
    385  * poke        - called with each memory segment; errors indicated
    386  *               by returning negative values.
    387  *
    388  * Caller is responsible for halting CPU as needed, such as when
    389  * overwriting a second stage loader.
    390  */
    391 static int parse_bin(FILE *image, void *context,
    392 	bool (*is_external)(uint32_t addr, size_t len), int (*poke)(void *context,
    393 	uint32_t addr, bool external, const unsigned char *data, size_t len))
    394 {
    395 	unsigned char data[4096];
    396 	uint32_t data_addr = 0;
    397 	size_t data_len = 0;
    398 	int rc;
    399 	bool external = false;
    400 
    401 	for (;;) {
    402 		data_len = fread(data, 1, 4096, image);
    403 		if (data_len == 0)
    404 			break;
    405 		if (is_external)
    406 			external = is_external(data_addr, data_len);
    407 		rc = poke(context, data_addr, external, data, data_len);
    408 		if (rc < 0)
    409 			return -1;
    410 		data_addr += (uint32_t)data_len;
    411 	}
    412 	return feof(image)?0:-1;
    413 }
    414 
    415 /*
    416  * Parse a Cypress IIC image file and invoke the poke() function on the
    417  * various segments for writing to RAM
    418  *
    419  * image       - the IIC image file
    420  * context     - for use by poke()
    421  * is_external - if non-null, used to check which segments go into
    422  *               external memory (writable only by software loader)
    423  * poke        - called with each memory segment; errors indicated
    424  *               by returning negative values.
    425  *
    426  * Caller is responsible for halting CPU as needed, such as when
    427  * overwriting a second stage loader.
    428  */
    429 static int parse_iic(FILE *image, void *context,
    430 	bool (*is_external)(uint32_t addr, size_t len),
    431 	int (*poke)(void *context, uint32_t addr, bool external, const unsigned char *data, size_t len))
    432 {
    433 	unsigned char data[4096];
    434 	uint32_t data_addr = 0;
    435 	size_t data_len = 0, read_len;
    436 	uint8_t block_header[4];
    437 	int rc;
    438 	bool external = false;
    439 	long file_size, initial_pos;
    440 
    441 	initial_pos = ftell(image);
    442 	if (initial_pos < 0)
    443 		return -1;
    444 
    445 	if (fseek(image, 0L, SEEK_END) != 0)
    446 		return -1;
    447 	file_size = ftell(image);
    448 	if (fseek(image, initial_pos, SEEK_SET) != 0)
    449 		return -1;
    450 	for (;;) {
    451 		/* Ignore the trailing reset IIC data (5 bytes) */
    452 		if (ftell(image) >= (file_size - 5))
    453 			break;
    454 		if (fread(&block_header, 1, sizeof(block_header), image) != 4) {
    455 			logerror("unable to read IIC block header\n");
    456 			return -1;
    457 		}
    458 		data_len = (block_header[0] << 8) + block_header[1];
    459 		data_addr = (block_header[2] << 8) + block_header[3];
    460 		if (data_len > sizeof(data)) {
    461 			/* If this is ever reported as an error, switch to using malloc/realloc */
    462 			logerror("IIC data block too small - please report this error to libusb.info\n");
    463 			return -1;
    464 		}
    465 		read_len = fread(data, 1, data_len, image);
    466 		if (read_len != data_len) {
    467 			logerror("read error\n");
    468 			return -1;
    469 		}
    470 		if (is_external)
    471 			external = is_external(data_addr, data_len);
    472 		rc = poke(context, data_addr, external, data, data_len);
    473 		if (rc < 0)
    474 			return -1;
    475 	}
    476 	return 0;
    477 }
    478 
    479 /* the parse call will be selected according to the image type */
    480 static int (*parse[IMG_TYPE_MAX])(FILE *image, void *context, bool (*is_external)(uint32_t addr, size_t len),
    481            int (*poke)(void *context, uint32_t addr, bool external, const unsigned char *data, size_t len))
    482            = { parse_ihex, parse_iic, parse_bin };
    483 
    484 /*****************************************************************************/
    485 
    486 /*
    487  * For writing to RAM using a first (hardware) or second (software)
    488  * stage loader and 0xA0 or 0xA3 vendor requests
    489  */
    490 typedef enum {
    491 	_undef = 0,
    492 	internal_only,		/* hardware first-stage loader */
    493 	skip_internal,		/* first phase, second-stage loader */
    494 	skip_external		/* second phase, second-stage loader */
    495 } ram_mode;
    496 
    497 struct ram_poke_context {
    498 	libusb_device_handle *device;
    499 	ram_mode mode;
    500 	size_t total, count;
    501 };
    502 
    503 #define RETRY_LIMIT 5
    504 
    505 static int ram_poke(void *context, uint32_t addr, bool external,
    506 	const unsigned char *data, size_t len)
    507 {
    508 	struct ram_poke_context *ctx = (struct ram_poke_context*)context;
    509 	int rc;
    510 	unsigned retry = 0;
    511 
    512 	switch (ctx->mode) {
    513 	case internal_only:		/* CPU should be stopped */
    514 		if (external) {
    515 			logerror("can't write %u bytes external memory at 0x%08x\n",
    516 				(unsigned)len, addr);
    517 			return -EINVAL;
    518 		}
    519 		break;
    520 	case skip_internal:		/* CPU must be running */
    521 		if (!external) {
    522 			if (verbose >= 2) {
    523 				logerror("SKIP on-chip RAM, %u bytes at 0x%08x\n",
    524 					(unsigned)len, addr);
    525 			}
    526 			return 0;
    527 		}
    528 		break;
    529 	case skip_external:		/* CPU should be stopped */
    530 		if (external) {
    531 			if (verbose >= 2) {
    532 				logerror("SKIP external RAM, %u bytes at 0x%08x\n",
    533 					(unsigned)len, addr);
    534 			}
    535 			return 0;
    536 		}
    537 		break;
    538 	case _undef:
    539 	default:
    540 		logerror("bug\n");
    541 		return -EDOM;
    542 	}
    543 
    544 	ctx->total += len;
    545 	ctx->count++;
    546 
    547 	/* Retry this till we get a real error. Control messages are not
    548 	 * NAKed (just dropped) so time out means is a real problem.
    549 	 */
    550 	while ((rc = ezusb_write(ctx->device,
    551 		external ? "write external" : "write on-chip",
    552 		external ? RW_MEMORY : RW_INTERNAL,
    553 		addr, data, len)) < 0
    554 		&& retry < RETRY_LIMIT) {
    555 		if (rc != LIBUSB_ERROR_TIMEOUT)
    556 			break;
    557 		retry += 1;
    558 	}
    559 	return rc;
    560 }
    561 
    562 /*
    563  * Load a Cypress Image file into target RAM.
    564  * See http://www.cypress.com/?docID=41351 (AN76405 PDF) for more info.
    565  */
    566 static int fx3_load_ram(libusb_device_handle *device, const char *path)
    567 {
    568 	uint32_t dCheckSum, dExpectedCheckSum, dAddress, i, dLen, dLength;
    569 	uint32_t* dImageBuf;
    570 	unsigned char *bBuf, hBuf[4], blBuf[4], rBuf[4096];
    571 	FILE *image;
    572 	int ret = 0;
    573 
    574 	image = fopen(path, "rb");
    575 	if (image == NULL) {
    576 		logerror("unable to open '%s' for input\n", path);
    577 		return -2;
    578 	} else if (verbose)
    579 		logerror("open firmware image %s for RAM upload\n", path);
    580 
    581 	// Read header
    582 	if (fread(hBuf, sizeof(char), sizeof(hBuf), image) != sizeof(hBuf)) {
    583 		logerror("could not read image header");
    584 		ret = -3;
    585 		goto exit;
    586 	}
    587 
    588 	// check "CY" signature byte and format
    589 	if ((hBuf[0] != 'C') || (hBuf[1] != 'Y')) {
    590 		logerror("image doesn't have a CYpress signature\n");
    591 		ret = -3;
    592 		goto exit;
    593 	}
    594 
    595 	// Check bImageType
    596 	switch(hBuf[3]) {
    597 	case 0xB0:
    598 		if (verbose)
    599 			logerror("normal FW binary %s image with checksum\n", (hBuf[2]&0x01)?"data":"executable");
    600 		break;
    601 	case 0xB1:
    602 		logerror("security binary image is not currently supported\n");
    603 		ret = -3;
    604 		goto exit;
    605 	case 0xB2:
    606 		logerror("VID:PID image is not currently supported\n");
    607 		ret = -3;
    608 		goto exit;
    609 	default:
    610 		logerror("invalid image type 0x%02X\n", hBuf[3]);
    611 		ret = -3;
    612 		goto exit;
    613 	}
    614 
    615 	// Read the bootloader version
    616 	if (verbose) {
    617 		if ((ezusb_read(device, "read bootloader version", RW_INTERNAL, 0xFFFF0020, blBuf, 4) < 0)) {
    618 			logerror("Could not read bootloader version\n");
    619 			ret = -8;
    620 			goto exit;
    621 		}
    622 		logerror("FX3 bootloader version: 0x%02X%02X%02X%02X\n", blBuf[3], blBuf[2], blBuf[1], blBuf[0]);
    623 	}
    624 
    625 	dCheckSum = 0;
    626 	if (verbose)
    627 		logerror("writing image...\n");
    628 	while (1) {
    629 		if ((fread(&dLength, sizeof(uint32_t), 1, image) != 1) ||  // read dLength
    630 			(fread(&dAddress, sizeof(uint32_t), 1, image) != 1)) { // read dAddress
    631 			logerror("could not read image");
    632 			ret = -3;
    633 			goto exit;
    634 		}
    635 		if (dLength == 0)
    636 			break; // done
    637 
    638 		// coverity[tainted_data]
    639 		dImageBuf = (uint32_t*)calloc(dLength, sizeof(uint32_t));
    640 		if (dImageBuf == NULL) {
    641 			logerror("could not allocate buffer for image chunk\n");
    642 			ret = -4;
    643 			goto exit;
    644 		}
    645 
    646 		// read sections
    647 		if (fread(dImageBuf, sizeof(uint32_t), dLength, image) != dLength) {
    648 			logerror("could not read image");
    649 			free(dImageBuf);
    650 			ret = -3;
    651 			goto exit;
    652 		}
    653 		for (i = 0; i < dLength; i++)
    654 			dCheckSum += dImageBuf[i];
    655 		dLength <<= 2; // convert to Byte length
    656 		bBuf = (unsigned char*) dImageBuf;
    657 
    658 		while (dLength > 0) {
    659 			dLen = 4096; // 4K max
    660 			if (dLen > dLength)
    661 				dLen = dLength;
    662 			if ((ezusb_write(device, "write firmware", RW_INTERNAL, dAddress, bBuf, dLen) < 0) ||
    663 				(ezusb_read(device, "read firmware", RW_INTERNAL, dAddress, rBuf, dLen) < 0)) {
    664 				logerror("R/W error\n");
    665 				free(dImageBuf);
    666 				ret = -5;
    667 				goto exit;
    668 			}
    669 			// Verify data: rBuf with bBuf
    670 			for (i = 0; i < dLen; i++) {
    671 				if (rBuf[i] != bBuf[i]) {
    672 					logerror("verify error");
    673 					free(dImageBuf);
    674 					ret = -6;
    675 					goto exit;
    676 				}
    677 			}
    678 
    679 			dLength -= dLen;
    680 			bBuf += dLen;
    681 			dAddress += dLen;
    682 		}
    683 		free(dImageBuf);
    684 	}
    685 
    686 	// read pre-computed checksum data
    687 	if ((fread(&dExpectedCheckSum, sizeof(uint32_t), 1, image) != 1) ||
    688 		(dCheckSum != dExpectedCheckSum)) {
    689 		logerror("checksum error\n");
    690 		ret = -7;
    691 		goto exit;
    692 	}
    693 
    694 	// transfer execution to Program Entry
    695 	if (!ezusb_fx3_jump(device, dAddress)) {
    696 		ret = -6;
    697 	}
    698 
    699 exit:
    700 	fclose(image);
    701 	return ret;
    702 }
    703 
    704 /*
    705  * Load a firmware file into target RAM. device is the open libusb
    706  * device, and the path is the name of the source file. Open the file,
    707  * parse the bytes, and write them in one or two phases.
    708  *
    709  * If stage == 0, this uses the first stage loader, built into EZ-USB
    710  * hardware but limited to writing on-chip memory or CPUCS.  Everything
    711  * is written during one stage, unless there's an error such as the image
    712  * holding data that needs to be written to external memory.
    713  *
    714  * Otherwise, things are written in two stages.  First the external
    715  * memory is written, expecting a second stage loader to have already
    716  * been loaded.  Then file is re-parsed and on-chip memory is written.
    717  */
    718 int ezusb_load_ram(libusb_device_handle *device, const char *path, int fx_type, int img_type, int stage)
    719 {
    720 	FILE *image;
    721 	uint32_t cpucs_addr;
    722 	bool (*is_external)(uint32_t off, size_t len);
    723 	struct ram_poke_context ctx;
    724 	int status;
    725 	uint8_t iic_header[8] = { 0 };
    726 	int ret = 0;
    727 
    728 	if (fx_type == FX_TYPE_FX3)
    729 		return fx3_load_ram(device, path);
    730 
    731 	image = fopen(path, "rb");
    732 	if (image == NULL) {
    733 		logerror("%s: unable to open for input.\n", path);
    734 		return -2;
    735 	} else if (verbose > 1)
    736 		logerror("open firmware image %s for RAM upload\n", path);
    737 
    738 	if (img_type == IMG_TYPE_IIC) {
    739 		if ( (fread(iic_header, 1, sizeof(iic_header), image) != sizeof(iic_header))
    740 		  || (((fx_type == FX_TYPE_FX2LP) || (fx_type == FX_TYPE_FX2)) && (iic_header[0] != 0xC2))
    741 		  || ((fx_type == FX_TYPE_AN21) && (iic_header[0] != 0xB2))
    742 		  || ((fx_type == FX_TYPE_FX1) && (iic_header[0] != 0xB6)) ) {
    743 			logerror("IIC image does not contain executable code - cannot load to RAM.\n");
    744 			ret = -1;
    745 			goto exit;
    746 		}
    747 	}
    748 
    749 	/* EZ-USB original/FX and FX2 devices differ, apart from the 8051 core */
    750 	switch(fx_type) {
    751 	case FX_TYPE_FX2LP:
    752 		cpucs_addr = 0xe600;
    753 		is_external = fx2lp_is_external;
    754 		break;
    755 	case FX_TYPE_FX2:
    756 		cpucs_addr = 0xe600;
    757 		is_external = fx2_is_external;
    758 		break;
    759 	default:
    760 		cpucs_addr = 0x7f92;
    761 		is_external = fx_is_external;
    762 		break;
    763 	}
    764 
    765 	/* use only first stage loader? */
    766 	if (stage == 0) {
    767 		ctx.mode = internal_only;
    768 
    769 		/* if required, halt the CPU while we overwrite its code/data */
    770 		if (cpucs_addr && !ezusb_cpucs(device, cpucs_addr, false))
    771 		{
    772 			ret = -1;
    773 			goto exit;
    774 		}
    775 
    776 		/* 2nd stage, first part? loader was already uploaded */
    777 	} else {
    778 		ctx.mode = skip_internal;
    779 
    780 		/* let CPU run; overwrite the 2nd stage loader later */
    781 		if (verbose)
    782 			logerror("2nd stage: write external memory\n");
    783 	}
    784 
    785 	/* scan the image, first (maybe only) time */
    786 	ctx.device = device;
    787 	ctx.total = ctx.count = 0;
    788 	status = parse[img_type](image, &ctx, is_external, ram_poke);
    789 	if (status < 0) {
    790 		logerror("unable to upload %s\n", path);
    791 		ret = status;
    792 		goto exit;
    793 	}
    794 
    795 	/* second part of 2nd stage: rescan */
    796 	// TODO: what should we do for non HEX images there?
    797 	if (stage) {
    798 		ctx.mode = skip_external;
    799 
    800 		/* if needed, halt the CPU while we overwrite the 1st stage loader */
    801 		if (cpucs_addr && !ezusb_cpucs(device, cpucs_addr, false))
    802 		{
    803 			ret = -1;
    804 			goto exit;
    805 		}
    806 
    807 		/* at least write the interrupt vectors (at 0x0000) for reset! */
    808 		rewind(image);
    809 		if (verbose)
    810 			logerror("2nd stage: write on-chip memory\n");
    811 		status = parse_ihex(image, &ctx, is_external, ram_poke);
    812 		if (status < 0) {
    813 			logerror("unable to completely upload %s\n", path);
    814 			ret = status;
    815 			goto exit;
    816 		}
    817 	}
    818 
    819 	if (verbose && (ctx.count != 0)) {
    820 		logerror("... WROTE: %d bytes, %d segments, avg %d\n",
    821 			(int)ctx.total, (int)ctx.count, (int)(ctx.total/ctx.count));
    822 	}
    823 
    824 	/* if required, reset the CPU so it runs what we just uploaded */
    825 	if (cpucs_addr && !ezusb_cpucs(device, cpucs_addr, true))
    826 		ret = -1;
    827 
    828 exit:
    829 	fclose(image);
    830 	return ret;
    831 }
    832