rockbox/flash/make_firmware/make_firmware.c

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/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
* $Id$
*
* Copyright (C) 2003 by Jörg Hohensohn
*
* Autoring tool for the firmware image to be programmed into Flash ROM
* It composes the flash content with header, bootloader and image(s)
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
****************************************************************************/
#include <stdio.h>
#include <stdlib.h>
#include <inttypes.h>
#include <string.h>
#define UINT8 unsigned char
#define UINT16 unsigned short
#define UINT32 unsigned long
#define BOOL int
#define TRUE 1
#define FALSE 0
// size of one flash sector, the granularity with which it can be erased
#define SECTORSIZE 4096
#define BOOTLOAD_DEST 0x0FFFF500 // for the "normal" one
#define FLASH_START 0x02000000
#define BOOTLOAD_SCR 0x02000100
#define ROCKBOX_DEST 0x09000000
#define ROCKBOX_EXEC 0x09000200
// place a 32 bit value into memory, big endian
void Write32(UINT8* pByte, UINT32 value)
{
pByte[0] = (UINT8)(value >> 24);
pByte[1] = (UINT8)(value >> 16);
pByte[2] = (UINT8)(value >> 8);
pByte[3] = (UINT8)(value);
}
// read a 32 bit value from memory, big endian
UINT32 Read32(UINT8* pByte)
{
UINT32 value = 0;
value |= (UINT32)pByte[0] << 24;
value |= (UINT32)pByte[1] << 16;
value |= (UINT32)pByte[2] << 8;
value |= (UINT32)pByte[3];
return value;
}
UINT32 CalcCRC32 (const UINT8* buf, UINT32 len)
{
static const UINT32 crc_table[256] =
{ // CRC32 lookup table for polynomial 0x04C11DB7
0x00000000, 0x04C11DB7, 0x09823B6E, 0x0D4326D9, 0x130476DC, 0x17C56B6B,
0x1A864DB2, 0x1E475005, 0x2608EDB8, 0x22C9F00F, 0x2F8AD6D6, 0x2B4BCB61,
0x350C9B64, 0x31CD86D3, 0x3C8EA00A, 0x384FBDBD, 0x4C11DB70, 0x48D0C6C7,
0x4593E01E, 0x4152FDA9, 0x5F15ADAC, 0x5BD4B01B, 0x569796C2, 0x52568B75,
0x6A1936C8, 0x6ED82B7F, 0x639B0DA6, 0x675A1011, 0x791D4014, 0x7DDC5DA3,
0x709F7B7A, 0x745E66CD, 0x9823B6E0, 0x9CE2AB57, 0x91A18D8E, 0x95609039,
0x8B27C03C, 0x8FE6DD8B, 0x82A5FB52, 0x8664E6E5, 0xBE2B5B58, 0xBAEA46EF,
0xB7A96036, 0xB3687D81, 0xAD2F2D84, 0xA9EE3033, 0xA4AD16EA, 0xA06C0B5D,
0xD4326D90, 0xD0F37027, 0xDDB056FE, 0xD9714B49, 0xC7361B4C, 0xC3F706FB,
0xCEB42022, 0xCA753D95, 0xF23A8028, 0xF6FB9D9F, 0xFBB8BB46, 0xFF79A6F1,
0xE13EF6F4, 0xE5FFEB43, 0xE8BCCD9A, 0xEC7DD02D, 0x34867077, 0x30476DC0,
0x3D044B19, 0x39C556AE, 0x278206AB, 0x23431B1C, 0x2E003DC5, 0x2AC12072,
0x128E9DCF, 0x164F8078, 0x1B0CA6A1, 0x1FCDBB16, 0x018AEB13, 0x054BF6A4,
0x0808D07D, 0x0CC9CDCA, 0x7897AB07, 0x7C56B6B0, 0x71159069, 0x75D48DDE,
0x6B93DDDB, 0x6F52C06C, 0x6211E6B5, 0x66D0FB02, 0x5E9F46BF, 0x5A5E5B08,
0x571D7DD1, 0x53DC6066, 0x4D9B3063, 0x495A2DD4, 0x44190B0D, 0x40D816BA,
0xACA5C697, 0xA864DB20, 0xA527FDF9, 0xA1E6E04E, 0xBFA1B04B, 0xBB60ADFC,
0xB6238B25, 0xB2E29692, 0x8AAD2B2F, 0x8E6C3698, 0x832F1041, 0x87EE0DF6,
0x99A95DF3, 0x9D684044, 0x902B669D, 0x94EA7B2A, 0xE0B41DE7, 0xE4750050,
0xE9362689, 0xEDF73B3E, 0xF3B06B3B, 0xF771768C, 0xFA325055, 0xFEF34DE2,
0xC6BCF05F, 0xC27DEDE8, 0xCF3ECB31, 0xCBFFD686, 0xD5B88683, 0xD1799B34,
0xDC3ABDED, 0xD8FBA05A, 0x690CE0EE, 0x6DCDFD59, 0x608EDB80, 0x644FC637,
0x7A089632, 0x7EC98B85, 0x738AAD5C, 0x774BB0EB, 0x4F040D56, 0x4BC510E1,
0x46863638, 0x42472B8F, 0x5C007B8A, 0x58C1663D, 0x558240E4, 0x51435D53,
0x251D3B9E, 0x21DC2629, 0x2C9F00F0, 0x285E1D47, 0x36194D42, 0x32D850F5,
0x3F9B762C, 0x3B5A6B9B, 0x0315D626, 0x07D4CB91, 0x0A97ED48, 0x0E56F0FF,
0x1011A0FA, 0x14D0BD4D, 0x19939B94, 0x1D528623, 0xF12F560E, 0xF5EE4BB9,
0xF8AD6D60, 0xFC6C70D7, 0xE22B20D2, 0xE6EA3D65, 0xEBA91BBC, 0xEF68060B,
0xD727BBB6, 0xD3E6A601, 0xDEA580D8, 0xDA649D6F, 0xC423CD6A, 0xC0E2D0DD,
0xCDA1F604, 0xC960EBB3, 0xBD3E8D7E, 0xB9FF90C9, 0xB4BCB610, 0xB07DABA7,
0xAE3AFBA2, 0xAAFBE615, 0xA7B8C0CC, 0xA379DD7B, 0x9B3660C6, 0x9FF77D71,
0x92B45BA8, 0x9675461F, 0x8832161A, 0x8CF30BAD, 0x81B02D74, 0x857130C3,
0x5D8A9099, 0x594B8D2E, 0x5408ABF7, 0x50C9B640, 0x4E8EE645, 0x4A4FFBF2,
0x470CDD2B, 0x43CDC09C, 0x7B827D21, 0x7F436096, 0x7200464F, 0x76C15BF8,
0x68860BFD, 0x6C47164A, 0x61043093, 0x65C52D24, 0x119B4BE9, 0x155A565E,
0x18197087, 0x1CD86D30, 0x029F3D35, 0x065E2082, 0x0B1D065B, 0x0FDC1BEC,
0x3793A651, 0x3352BBE6, 0x3E119D3F, 0x3AD08088, 0x2497D08D, 0x2056CD3A,
0x2D15EBE3, 0x29D4F654, 0xC5A92679, 0xC1683BCE, 0xCC2B1D17, 0xC8EA00A0,
0xD6AD50A5, 0xD26C4D12, 0xDF2F6BCB, 0xDBEE767C, 0xE3A1CBC1, 0xE760D676,
0xEA23F0AF, 0xEEE2ED18, 0xF0A5BD1D, 0xF464A0AA, 0xF9278673, 0xFDE69BC4,
0x89B8FD09, 0x8D79E0BE, 0x803AC667, 0x84FBDBD0, 0x9ABC8BD5, 0x9E7D9662,
0x933EB0BB, 0x97FFAD0C, 0xAFB010B1, 0xAB710D06, 0xA6322BDF, 0xA2F33668,
0xBCB4666D, 0xB8757BDA, 0xB5365D03, 0xB1F740B4
};
UINT32 i;
UINT32 crc = 0xffffffff;
for (i = 0; i < len; i++)
crc = (crc << 8) ^ crc_table[((crc >> 24) ^ *buf++) & 0xFF];
return crc;
}
UINT32 PlaceImage(char* filename, UINT32 pos, UINT8* pFirmware, UINT32 limit)
{
UINT32 size, read;
FILE* pFile;
UINT32 align;
UINT32 flags;
UINT32 load_addr = ROCKBOX_DEST, exec_addr = ROCKBOX_EXEC; // defaults
// magic file header for compressed files
static const UINT8 magic[8] = { 0x00,0xe9,0x55,0x43,0x4c,0xff,0x01,0x1a };
UINT8 ucl_header[26];
pFile = fopen(filename, "rb"); // open the current image
if (pFile == NULL)
{
printf("Image file %s not found!\n", filename);
exit(5);
}
fseek(pFile, 0, SEEK_END);
size = ftell(pFile);
fseek(pFile, 0, SEEK_SET);
// determine if compressed
flags = 0x00000000; // default: flags for uncompressed
fread(ucl_header, 1, sizeof(ucl_header), pFile);
if (memcmp(magic, ucl_header, sizeof(magic)) == 0)
{
if (ucl_header[12] != 0x2E // check algorithm
&& ucl_header[12] != 0x2B) // or uncompressed
{
printf("UCL compressed files must use algorithm 2e, not %d\n", ucl_header[12]);
printf("Generate with: uclpack --best --2e rockbox.bin %s\n", filename);
exit(6);
}
size = Read32(ucl_header + 22); // compressed size
if (Read32(ucl_header + 18) > size) // compare with uncompressed size
{ // normal case
flags = 0x00000001; // flags for UCL compressed
}
if (ucl_header[12] == 0x2B) // uncompressed means "ROMbox", for direct flash execution
{
UINT8 start_addr[4];
UINT8 reset_vec[4];
fread(start_addr, 1, sizeof(start_addr), pFile); // read the link address from image
fread(reset_vec, 1, sizeof(reset_vec), pFile); // read the reset vector from image
fseek(pFile, 0-sizeof(start_addr)-sizeof(reset_vec), SEEK_CUR); // wind back
load_addr = Read32(start_addr);
if (load_addr != FLASH_START + pos + 16) // behind 16 byte header
{
printf("Error: Rombox .ucl file is linked to 0x%08X instead of 0x%08X\n", load_addr, FLASH_START + pos + 16);
exit(11);
}
exec_addr = Read32(reset_vec);
}
}
else
{
fseek(pFile, 0, SEEK_SET); // go back
}
if (pos + 16 + size > limit) // enough space for all that?
{
printf("Exceeding maximum image size %d\n", limit);
exit(7);
}
// write header
align = (pos + 16 + size + SECTORSIZE-1) & ~(SECTORSIZE-1); // round up to next flash sector
Write32(pFirmware + pos, load_addr); // load address
Write32(pFirmware + pos + 4, align - (pos + 16)); // image size
Write32(pFirmware + pos + 8, exec_addr); // execution address
Write32(pFirmware + pos + 12, flags); // compressed or not
pos += 16;
// load image
read = fread(pFirmware + pos, 1, size, pFile);
if (read != size)
{
printf("Read error, expecting %d bytes, got only %d\n", size, read);
exit(8);
}
fclose (pFile);
pos += size;
return pos;
}
int main(int argc, char* argv[])
{
static UINT8 aFirmware[512*1024]; // maximum with exchanged chip
FILE* pFile;
UINT32 size; // size of loaded item
UINT32 pos; // current position in firmware
UINT32 crc32; // checksum of "payload"
BOOL hasBootRom; // flag if regular boot ROM or directly starts from flash
UINT32 template_F8, template_FC; // my platform ID, mask and version
int i;
if (argc <= 4)
{
printf("Usage:\n");
printf("make_firmware <output> <template.bin> <bootloader.ajz> <image1.ucl> {image2.ucl}\n");
printf("<template.bin> is the original firmware from your box\n");
printf("<bootloader.ajz> is the scrambled bootloader\n");
printf("<image1.ucl> is the first image, compressed (recommended) or uncompressed\n");
printf("<image1.ucl> is the second image, compressed (recommended) or uncompressed\n");
printf("More images may follow, but keep the flash size in mind!\n");
printf("Compression must be UCL, algorithm 2e.\n");
printf("Generated with: uclpack --best --2e rockbox.bin imageN.ucl\n");
exit(0);
}
memset(aFirmware, 0xFF, sizeof(aFirmware));
/******* process template *******/
pFile = fopen(argv[2], "rb"); // open the template
if (pFile == NULL)
{
printf("Template file %s not found!\n", argv[2]);
exit(1);
}
size = fread(aFirmware, 1, 256, pFile); // need only the header
fclose(pFile);
if (size < 256) // need at least the firmware header
{
printf("Template file %s too small, need at least the header!\n", argv[2]);
exit(2);
}
if (strncmp(aFirmware, "ARCH", 4) == 0)
{
hasBootRom = TRUE;
pos = 256; // place bootloader after this "boot block"
}
else if (Read32(aFirmware) == 0x0200)
{
hasBootRom = FALSE;
pos = 0; // directly start with the bootloader
template_F8 = Read32(aFirmware + 0xF8); // my platform ID and future info
template_FC = Read32(aFirmware + 0xFC); // use mask+version from template
}
else
{
printf("Template file %s invalid!\n", argv[2]);
exit(3);
}
/******* process bootloader *******/
pFile = fopen(argv[3], "rb"); // open the bootloader
if (pFile == NULL)
{
printf("Bootloader file %s not found!\n", argv[3]);
exit(4);
}
if (hasBootRom && fseek(pFile, 6, SEEK_SET)) // skip the ajz header
{
printf("Bootloader file %s too short!\n", argv[3]);
exit(5);
}
// place bootloader after header
size = fread(aFirmware + pos, 1, sizeof(aFirmware) - pos, pFile);
fclose(pFile);
if (hasBootRom)
{
Write32(aFirmware + 4, BOOTLOAD_DEST); // boot code destination address
for (i=0x08; i<=0x28; i+=8)
{
Write32(aFirmware + i, BOOTLOAD_SCR); // boot code source address
Write32(aFirmware + i + 4, size); // boot code size
}
}
else
{
Write32(aFirmware + 0xF8, template_F8); // values from template
Write32(aFirmware + 0xFC, template_FC); // mask and version
}
size = (size + 3) & ~3; // make shure it's 32 bit aligned
pos += size; // prepare position for first image
/******* process images *******/
for (i = 4; i < argc; i++)
{
pos = PlaceImage(argv[i], pos, aFirmware, sizeof(aFirmware));
if (i < argc-1)
{ // not the last: round up to next flash sector
pos = (pos + SECTORSIZE-1) & ~(SECTORSIZE-1);
}
}
/******* append CRC32 checksum *******/
crc32 = CalcCRC32(aFirmware, pos);
Write32(aFirmware + pos, crc32);
pos += sizeof(crc32); // 4 bytes
/******* save result to output file *******/
pFile = fopen(argv[1], "wb"); // open the output file
if (pFile == NULL)
{
printf("Output file %s cannot be created!\n", argv[1]);
exit(9);
}
size = fwrite(aFirmware, 1, pos, pFile);
fclose(pFile);
if (size != pos)
{
printf("Error writing %d bytes to output file %s!\n", pos, argv[1]);
exit(10);
}
printf("Firmware file generated with %d bytes.\n", pos);
return 0;
}