/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Plugin for reprogramming the whole Flash ROM chip with a new content. * !!! DON'T MESS WITH THIS CODE UNLESS YOU'RE ABSOLUTELY SURE WHAT YOU DO !!! * * Copyright (C) 2003 Jörg Hohensohn [IDC]Dragon * * All files in this archive are subject to the GNU General Public License. * See the file COPYING in the source tree root for full license agreement. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include "plugin.h" #ifndef SIMULATOR /* only for target */ /* define DUMMY if you only want to "play" with the UI, does no harm */ /* #define DUMMY */ #ifndef UINT8 #define UINT8 unsigned char #endif #ifndef UINT16 #define UINT16 unsigned short #endif #ifndef UINT32 #define UINT32 unsigned long #endif /* platform IDs as I have used them in my firmware templates */ #define ID_RECORDER 0 #define ID_FM 1 #define ID_PLAYER 2 #define ID_REC_V2 3 #define ID_ONDIO_FM 4 #define ID_ONDIO_SP 5 /* Here I have to check for ARCHOS_* defines in source code, which is generally strongly discouraged. But here I'm not checking for a certain feature, I'm checking for the model itself. */ #if defined(ARCHOS_PLAYER) #define FILE_TYPE "player" #define KEEP VERSION_ADR /* keep the firmware version */ #define PLATFORM_ID ID_PLAYER #elif defined(ARCHOS_RECORDER) #define FILE_TYPE "rec" #define KEEP MASK_ADR /* keep the mask value */ #define PLATFORM_ID ID_RECORDER #elif defined(ARCHOS_RECORDERV2) #define FILE_TYPE "v2" #define KEEP MASK_ADR /* keep the mask value */ #define PLATFORM_ID ID_REC_V2 #elif defined(ARCHOS_FMRECORDER) #define FILE_TYPE "fm" #define KEEP MASK_ADR /* keep the mask value */ #define PLATFORM_ID ID_FM #elif defined(ARCHOS_ONDIOFM) #define FILE_TYPE "ondiofm" #define KEEP MASK_ADR /* keep the mask value */ #define PLATFORM_ID ID_ONDIO_FM #elif defined(ARCHOS_ONDIOSP) #define FILE_TYPE "ondiosp" #define KEEP MASK_ADR /* keep the mask value */ #define PLATFORM_ID ID_ONDIO_SP #else #undef PLATFORM_ID /* this platform is not (yet) flashable */ #endif #ifdef PLATFORM_ID PLUGIN_HEADER #if CONFIG_KEYPAD == ONDIO_PAD /* limited keypad */ #define KEY1 BUTTON_LEFT #define KEY2 BUTTON_UP #define KEY3 BUTTON_RIGHT #define KEYNAME1 "[Left]" #define KEYNAME2 "[Up]" #define KEYNAME3 "[Right]" #else /* recorder keypad */ #define KEY1 BUTTON_F1 #define KEY2 BUTTON_F2 #define KEY3 BUTTON_F3 #define KEYNAME1 "[F1]" #define KEYNAME2 "[F2]" #define KEYNAME3 "[F3]" #endif /* result of the CheckFirmwareFile() function */ typedef enum { eOK = 0, eFileNotFound, /* errors from here on */ eTooBig, eTooSmall, eReadErr, eBadContent, eCrcErr, eBadPlatform, } tCheckResult; /* result of the CheckBootROM() function */ typedef enum { eBootROM, /* the supported boot ROM(s) */ eUnknown, /* unknown boot ROM */ eROMless, /* flash mapped to zero */ } tCheckROM; typedef struct { UINT8 manufacturer; UINT8 id; int size; char name[32]; } tFlashInfo; static struct plugin_api* rb; /* here is a global api struct pointer */ #define MASK_ADR 0xFC /* position of hardware mask value in Flash */ #define VERSION_ADR 0xFE /* position of firmware version value in Flash */ #define PLATFORM_ADR 0xFB /* position of my platform ID value in Flash */ #define SEC_SIZE 4096 /* size of one flash sector */ static UINT8* sector; /* better not place this on the stack... */ static volatile UINT8* FB = (UINT8*)0x02000000; /* Flash base address */ /***************** Flash Functions *****************/ /* read the manufacturer and device ID */ bool ReadID(volatile UINT8* pBase, UINT8* pManufacturerID, UINT8* pDeviceID) { UINT8 not_manu, not_id; /* read values before switching to ID mode */ UINT8 manu, id; /* read values when in ID mode */ pBase = (UINT8*)((UINT32)pBase & 0xFFF80000); /* down to 512k align */ /* read the normal content */ not_manu = pBase[0]; /* should be 'A' (0x41) and 'R' (0x52) */ not_id = pBase[1]; /* from the "ARCH" marker */ pBase[0x5555] = 0xAA; /* enter command mode */ pBase[0x2AAA] = 0x55; pBase[0x5555] = 0x90; /* ID command */ rb->sleep(HZ/50); /* Atmel wants 20ms pause here */ manu = pBase[0]; id = pBase[1]; pBase[0] = 0xF0; /* reset flash (back to normal read mode) */ rb->sleep(HZ/50); /* Atmel wants 20ms pause here */ /* I assume success if the obtained values are different from the normal flash content. This is not perfectly bulletproof, they could theoretically be the same by chance, causing us to fail. */ if (not_manu != manu || not_id != id) /* a value has changed */ { *pManufacturerID = manu; /* return the results */ *pDeviceID = id; return true; /* success */ } return false; /* fail */ } /* erase the sector which contains the given address */ bool EraseSector(volatile UINT8* pAddr) { #ifdef DUMMY (void)pAddr; /* prevents warning */ return true; #else volatile UINT8* pBase = (UINT8*)((UINT32)pAddr & 0xFFF80000); /* round down to 512k align */ unsigned timeout = 43000; /* the timeout loop should be no less than 25ms */ pBase[0x5555] = 0xAA; /* enter command mode */ pBase[0x2AAA] = 0x55; pBase[0x5555] = 0x80; /* erase command */ pBase[0x5555] = 0xAA; /* enter command mode */ pBase[0x2AAA] = 0x55; *pAddr = 0x30; /* erase the sector */ /* I counted 7 instructions for this loop -> min. 0.58 us per round */ /* Plus memory waitstates it will be much more, gives margin */ while (*pAddr != 0xFF && --timeout); /* poll for erased */ return (timeout != 0); #endif } /* address must be in an erased location */ inline bool ProgramByte(volatile UINT8* pAddr, UINT8 data) { #ifdef DUMMY (void)pAddr; /* prevents warnings */ (void)data; return true; #else unsigned timeout = 35; /* the timeout loop should be no less than 20us */ if (~*pAddr & data) /* just a safety feature, not really necessary */ return false; /* can't set any bit from 0 to 1 */ FB[0x5555] = 0xAA; /* enter command mode */ FB[0x2AAA] = 0x55; FB[0x5555] = 0xA0; /* byte program command */ *pAddr = data; /* I counted 7 instructions for this loop -> min. 0.58 us per round */ /* Plus memory waitstates it will be much more, gives margin */ while (*pAddr != data && --timeout); /* poll for programmed */ return (timeout != 0); #endif } /* this returns true if supported and fills the info struct */ bool GetFlashInfo(tFlashInfo* pInfo) { rb->memset(pInfo, 0, sizeof(tFlashInfo)); if (!ReadID(FB, &pInfo->manufacturer, &pInfo->id)) return false; if (pInfo->manufacturer == 0xBF) /* SST */ { if (pInfo->id == 0xD6) { pInfo->size = 256* 1024; /* 256k */ rb->strcpy(pInfo->name, "SST39VF020"); return true; } else if (pInfo->id == 0xD7) { pInfo->size = 512* 1024; /* 512k */ rb->strcpy(pInfo->name, "SST39VF040"); return true; } else return false; } return false; } /*********** Utility Functions ************/ /* Tool function to calculate a CRC32 across some buffer */ /* third argument is either 0xFFFFFFFF to start or value from last piece */ unsigned crc_32(unsigned char* buf, unsigned len, unsigned crc32) { /* CCITT standard polynomial 0x04C11DB7 */ static const unsigned crc32_lookup[16] = { /* lookup table for 4 bits at a time is affordable */ 0x00000000, 0x04C11DB7, 0x09823B6E, 0x0D4326D9, 0x130476DC, 0x17C56B6B, 0x1A864DB2, 0x1E475005, 0x2608EDB8, 0x22C9F00F, 0x2F8AD6D6, 0x2B4BCB61, 0x350C9B64, 0x31CD86D3, 0x3C8EA00A, 0x384FBDBD }; unsigned char byte; unsigned t; while (len--) { byte = *buf++; /* get one byte of data */ /* upper nibble of our data */ t = crc32 >> 28; /* extract the 4 most significant bits */ t ^= byte >> 4; /* XOR in 4 bits of data into the extracted bits */ crc32 <<= 4; /* shift the CRC register left 4 bits */ crc32 ^= crc32_lookup[t]; /* do the table lookup and XOR the result */ /* lower nibble of our data */ t = crc32 >> 28; /* extract the 4 most significant bits */ t ^= byte & 0x0F; /* XOR in 4 bits of data into the extracted bits */ crc32 <<= 4; /* shift the CRC register left 4 bits */ crc32 ^= crc32_lookup[t]; /* do the table lookup and XOR the result */ } return crc32; } /*********** Firmware File Functions + helpers ************/ /* test if the version number is consistent with the platform */ bool CheckPlatform(int platform_id, UINT16 version) { if (version == 200) { /* for my very first firmwares, I foolishly changed it to 200 */ return (platform_id == ID_RECORDER || platform_id == ID_FM); } else if (version == 123) { /* it can be a FM or V2 recorder */ return (platform_id == ID_FM || platform_id == ID_REC_V2); } else if (version == 132) { /* newer Ondio, and seen on a V2 recorder */ return (platform_id == ID_ONDIO_SP || platform_id == ID_ONDIO_FM || platform_id == ID_REC_V2); } else if (version == 104) { /* classic Ondio128 */ return (platform_id == ID_ONDIO_FM); } else if (version >= 115 && version <= 129) { /* the range of Recorders seen so far */ return (platform_id == ID_RECORDER); } else if (version == 0 || (version >= 300 && version <= 508)) { /* for very old players, I've seen zero */ return (platform_id == ID_PLAYER); } return false; /* unknown */ } tCheckResult CheckFirmwareFile(char* filename, int chipsize, bool is_romless) { int i; int fd; int fileleft; /* size info, how many left for reading */ int fileread = 0; /* total size as read from the file */ int read_now; /* how many to read for this sector */ int got_now; /* how many gotten for this sector */ unsigned crc32 = 0xFFFFFFFF; /* CCITT init value */ unsigned file_crc; /* CRC value read from file */ bool has_crc; fd = rb->open(filename, O_RDONLY); if (fd < 0) return eFileNotFound; fileleft = rb->filesize(fd); if (fileleft > chipsize) { rb->close(fd); return eTooBig; } else if (fileleft < 20000) /* give it some reasonable lower limit */ { rb->close(fd); return eTooSmall; } if (fileleft == 256*1024) { /* original dumped firmware file has no CRC nor platform ID */ has_crc = false; } else { has_crc = true; fileleft -= sizeof(unsigned); /* exclude the last 4 bytes */ } /* do some sanity checks */ got_now = rb->read(fd, sector, SEC_SIZE); /* read first sector */ fileread += got_now; fileleft -= got_now; if (got_now != SEC_SIZE) { rb->close(fd); return eReadErr; } /* version number in file plausible with this hardware? */ if (!CheckPlatform(PLATFORM_ID, *(UINT16*)(sector + VERSION_ADR))) { rb->close(fd); return eBadPlatform; } if (has_crc) { crc32 = crc_32(sector, SEC_SIZE, crc32); /* checksum */ /* in addition to the CRC, my files also have a platform ID */ if (sector[PLATFORM_ADR] != PLATFORM_ID) /* for our hardware? */ { rb->close(fd); return eBadPlatform; } } if (is_romless) { /* in this case, there is not much we can check */ if (*(UINT32*)sector != 0x00000200) /* reset vector */ { rb->close(fd); return eBadContent; } } else { /* compare some bytes which have to be identical */ if (*(UINT32*)sector != 0x41524348) /* "ARCH" */ { rb->close(fd); return eBadContent; } for (i = 0x30; iclose(fd); return eBadContent; } } } /* check if we can read the whole file, and do checksum */ do { read_now = MIN(SEC_SIZE, fileleft); got_now = rb->read(fd, sector, read_now); fileread += got_now; fileleft -= got_now; if (read_now != got_now) { rb->close(fd); return eReadErr; } if (has_crc) { crc32 = crc_32(sector, got_now, crc32); /* checksum */ } } while (fileleft); if (has_crc) { got_now = rb->read(fd, &file_crc, sizeof(file_crc)); if (got_now != sizeof(file_crc)) { rb->close(fd); return eReadErr; } } /* must be EOF now */ got_now = rb->read(fd, sector, SEC_SIZE); rb->close(fd); if (got_now != 0) return eReadErr; if (has_crc && file_crc != crc32) return eCrcErr; return eOK; } /* returns the # of failures, 0 on success */ unsigned ProgramFirmwareFile(char* filename, int chipsize) { int i, j; int fd; int read = SEC_SIZE; /* how many for this sector */ UINT16 keep = *(UINT16*)(FB + KEEP); /* we must keep this! */ unsigned failures = 0; fd = rb->open(filename, O_RDONLY); if (fd < 0) return false; for (i=0; iread(fd, sector, SEC_SIZE); if (i==0) { /* put original value back in */ *(UINT16*)(sector + KEEP) = keep; } for (j=0; jclose(fd); return failures; } /* returns the # of failures, 0 on success */ unsigned VerifyFirmwareFile(char* filename) { int i=0, j; int fd; int read = SEC_SIZE; /* how many for this sector */ unsigned failures = 0; fd = rb->open(filename, O_RDONLY); if (fd < 0) return false; do { read = rb->read(fd, sector, SEC_SIZE); for (j=0; jclose(fd); return failures; } /***************** Support Functions *****************/ /* check if we have "normal" boot ROM or flash mirrored to zero */ tCheckROM CheckBootROM(void) { unsigned boot_crc; unsigned* pFlash = (unsigned*)FB; unsigned* pRom = (unsigned*)0x0; unsigned i; boot_crc = crc_32((unsigned char*)0x0, 64*1024, 0xFFFFFFFF); if (boot_crc == 0x56DBA4EE /* the known boot ROM */ #if PLATFORM_ID == ID_PLAYER /* alternative boot ROM found in one single player so far */ || boot_crc == 0x358099E8 #endif ) return eBootROM; /* check if ROM is a flash mirror */ for (i=0; i<256*1024/sizeof(unsigned); i++) { if (*pRom++ != *pFlash++) { /* difference means no mirror */ return eUnknown; } } return eROMless; } /***************** User Interface Functions *****************/ int WaitForButton(void) { int button; do { button = rb->button_get(true); } while (button & BUTTON_REL); return button; } #ifdef HAVE_LCD_BITMAP /* Recorder implementation */ /* helper for DoUserDialog() */ void ShowFlashInfo(tFlashInfo* pInfo) { char buf[32]; if (!pInfo->manufacturer) { rb->lcd_puts(0, 0, "Flash: M=?? D=??"); rb->lcd_puts(0, 1, "Impossible to program"); } else { rb->snprintf(buf, sizeof(buf), "Flash: M=%02x D=%02x", pInfo->manufacturer, pInfo->id); rb->lcd_puts(0, 0, buf); if (pInfo->size) { rb->lcd_puts(0, 1, pInfo->name); rb->snprintf(buf, sizeof(buf), "Size: %d KB", pInfo->size / 1024); rb->lcd_puts(0, 2, buf); } else { rb->lcd_puts(0, 1, "Unsupported chip"); } } rb->lcd_update(); } /* Kind of our main function, defines the application flow. */ void DoUserDialog(char* filename) { tFlashInfo FlashInfo; char buf[32]; char default_filename[32]; int button; int rc; /* generic return code */ int memleft; tCheckROM result; bool is_romless; /* this can only work if Rockbox runs in DRAM, not flash ROM */ if ((UINT8*)rb >= FB && (UINT8*)rb < FB + 4096*1024) /* 4 MB max */ { /* we're running from flash */ rb->splash(HZ*3, "Not from ROM"); return; /* exit */ } /* test if the user is running the correct plugin for this box */ if (!CheckPlatform(PLATFORM_ID, *(UINT16*)(FB + VERSION_ADR))) { rb->splash(HZ*3, "Wrong plugin"); return; /* exit */ } /* refuse to work if the power may fail meanwhile */ if (!rb->battery_level_safe()) { rb->splash(HZ*3, "Battery too low!"); return; /* exit */ } /* check boot ROM */ result = CheckBootROM(); if (result == eUnknown) { /* no support for any other yet */ rb->splash(HZ*3, "Wrong boot ROM"); return; /* exit */ } is_romless = (result == eROMless); /* compose filename if none given */ if (filename == NULL) { rb->snprintf( default_filename, sizeof(default_filename), "/firmware_%s%s.bin", FILE_TYPE, is_romless ? "_norom" : ""); filename = default_filename; } /* "allocate" memory */ sector = rb->plugin_get_buffer(&memleft); if (memleft < SEC_SIZE) /* need buffer for a flash sector */ { rb->splash(HZ*3, "Out of memory"); return; /* exit */ } rb->lcd_setfont(FONT_SYSFIXED); rc = GetFlashInfo(&FlashInfo); ShowFlashInfo(&FlashInfo); if (FlashInfo.size == 0) /* no valid chip */ { rb->splash(HZ*3, "Sorry!"); return; /* exit */ } rb->lcd_puts(0, 3, "using file:"); rb->lcd_puts_scroll(0, 4, filename); rb->lcd_puts(0, 6, KEYNAME1 " to check file"); rb->lcd_puts(0, 7, "other key to exit"); rb->lcd_update(); button = WaitForButton(); if (button != KEY1) { return; } rb->lcd_clear_display(); rb->lcd_puts(0, 0, "checking..."); rb->lcd_update(); rc = CheckFirmwareFile(filename, FlashInfo.size, is_romless); rb->lcd_puts(0, 0, "checked:"); switch (rc) { case eOK: rb->lcd_puts(0, 1, "File OK."); break; case eFileNotFound: rb->lcd_puts(0, 1, "File not found."); rb->lcd_puts(0, 2, "Put this in root:"); rb->lcd_puts_scroll(0, 4, filename); break; case eTooBig: rb->lcd_puts(0, 1, "File too big,"); rb->lcd_puts(0, 2, "larger than chip."); break; case eTooSmall: rb->lcd_puts(0, 1, "File too small."); rb->lcd_puts(0, 2, "Incomplete?"); break; case eReadErr: rb->lcd_puts(0, 1, "Read error."); break; case eBadContent: rb->lcd_puts(0, 1, "File invalid."); rb->lcd_puts(0, 2, "Sanity check fail."); break; case eCrcErr: rb->lcd_puts(0, 1, "File invalid."); rb->lcd_puts(0, 2, "CRC check failed,"); rb->lcd_puts(0, 3, "checksum mismatch."); break; case eBadPlatform: rb->lcd_puts(0, 1, "Wrong file for"); rb->lcd_puts(0, 2, "this hardware."); break; default: rb->lcd_puts(0, 1, "Check failed."); break; } if (rc == eOK) { rb->lcd_puts(0, 6, KEYNAME2 " to program"); rb->lcd_puts(0, 7, "other key to exit"); } else { /* error occured */ rb->lcd_puts(0, 6, "Any key to exit"); } rb->lcd_update(); button = WaitForButton(); if (button != KEY2 || rc != eOK) { return; } rb->lcd_clear_display(); rb->lcd_puts(0, 0, "Program all Flash?"); rb->lcd_puts(0, 1, "Are you sure?"); rb->lcd_puts(0, 2, "If it goes wrong,"); rb->lcd_puts(0, 3, "it kills your box!"); rb->lcd_puts(0, 4, "See documentation."); rb->lcd_puts(0, 6, KEYNAME3 " to proceed"); rb->lcd_puts(0, 7, "other key to exit"); rb->lcd_update(); button = WaitForButton(); if (button != KEY3) { return; } rb->lcd_clear_display(); rb->lcd_puts(0, 0, "Programming..."); rb->lcd_update(); rc = ProgramFirmwareFile(filename, FlashInfo.size); if (rc) { /* errors */ rb->lcd_clear_display(); rb->lcd_puts(0, 0, "Panic:"); rb->lcd_puts(0, 1, "Programming fail!"); rb->snprintf(buf, sizeof(buf), "%d errors", rc); rb->lcd_puts(0, 2, buf); rb->lcd_update(); button = WaitForButton(); } rb->lcd_clear_display(); rb->lcd_puts(0, 0, "Verifying..."); rb->lcd_update(); rc = VerifyFirmwareFile(filename); rb->lcd_clear_display(); if (rc == 0) { rb->lcd_puts(0, 0, "Verify OK."); } else { rb->lcd_puts(0, 0, "Panic:"); rb->lcd_puts(0, 1, "Verify fail!"); rb->snprintf(buf, sizeof(buf), "%d errors", rc); rb->lcd_puts(0, 2, buf); } rb->lcd_puts(0, 7, "Any key to exit"); rb->lcd_update(); button = WaitForButton(); } #else /* HAVE_LCD_BITMAP */ /* Player implementation */ /* helper for DoUserDialog() */ void ShowFlashInfo(tFlashInfo* pInfo) { char buf[32]; if (!pInfo->manufacturer) { rb->lcd_puts_scroll(0, 0, "Flash: M=? D=?"); rb->lcd_puts_scroll(0, 1, "Impossible to program"); rb->lcd_update(); WaitForButton(); } else { rb->snprintf(buf, sizeof(buf), "Flash: M=%02x D=%02x", pInfo->manufacturer, pInfo->id); rb->lcd_puts_scroll(0, 0, buf); if (pInfo->size) { rb->snprintf(buf, sizeof(buf), "Size: %d KB", pInfo->size / 1024); rb->lcd_puts_scroll(0, 1, buf); rb->lcd_update(); } else { rb->lcd_puts_scroll(0, 1, "Unsupported chip"); rb->lcd_update(); WaitForButton(); } } } void DoUserDialog(char* filename) { tFlashInfo FlashInfo; char buf[32]; char default_filename[32]; int button; int rc; /* generic return code */ int memleft; tCheckROM result; bool is_romless; /* this can only work if Rockbox runs in DRAM, not flash ROM */ if ((UINT8*)rb >= FB && (UINT8*)rb < FB + 4096*1024) /* 4 MB max */ { /* we're running from flash */ rb->splash(HZ*3, "Not from ROM"); return; /* exit */ } /* test if the user is running the correct plugin for this box */ if (!CheckPlatform(PLATFORM_ID, *(UINT16*)(FB + VERSION_ADR))) { rb->splash(HZ*3, "Wrong version"); return; /* exit */ } /* refuse to work if the power may fail meanwhile */ if (!rb->battery_level_safe()) { rb->splash(HZ*3, "Batt. too low!"); return; /* exit */ } /* check boot ROM */ result = CheckBootROM(); if (result == eUnknown) { /* no support for any other yet */ rb->splash(HZ*3, "Wrong boot ROM"); return; /* exit */ } is_romless = (result == eROMless); /* compose filename if none given */ if (filename == NULL) { rb->snprintf( default_filename, sizeof(default_filename), "/firmware_%s%s.bin", FILE_TYPE, is_romless ? "_norom" : ""); filename = default_filename; } /* "allocate" memory */ sector = rb->plugin_get_buffer(&memleft); if (memleft < SEC_SIZE) /* need buffer for a flash sector */ { rb->splash(HZ*3, "Out of memory"); return; /* exit */ } rc = GetFlashInfo(&FlashInfo); ShowFlashInfo(&FlashInfo); if (FlashInfo.size == 0) /* no valid chip */ { return; /* exit */ } rb->lcd_puts_scroll(0, 0, filename); rb->lcd_puts_scroll(0, 1, "[Menu] to check"); rb->lcd_update(); button = WaitForButton(); if (button != BUTTON_MENU) { return; } rb->lcd_clear_display(); rb->lcd_puts(0, 0, "Checking..."); rb->lcd_update(); rc = CheckFirmwareFile(filename, FlashInfo.size, is_romless); rb->lcd_puts(0, 0, "Checked:"); switch (rc) { case eOK: rb->lcd_puts(0, 1, "File OK."); break; case eFileNotFound: rb->lcd_puts_scroll(0, 0, "File not found:"); rb->lcd_puts_scroll(0, 1, filename); break; case eTooBig: rb->lcd_puts_scroll(0, 0, "File too big,"); rb->lcd_puts_scroll(0, 1, "larger than chip."); break; case eTooSmall: rb->lcd_puts_scroll(0, 0, "File too small."); rb->lcd_puts_scroll(0, 1, "Incomplete?"); break; case eReadErr: rb->lcd_puts_scroll(0, 0, "Read error."); break; case eBadContent: rb->lcd_puts_scroll(0, 0, "File invalid."); rb->lcd_puts_scroll(0, 1, "Sanity check failed."); break; case eCrcErr: rb->lcd_puts_scroll(0, 0, "File invalid."); rb->lcd_puts_scroll(0, 1, "CRC check failed."); break; case eBadPlatform: rb->lcd_puts_scroll(0, 0, "Wrong file for"); rb->lcd_puts_scroll(0, 1, "this hardware."); break; default: rb->lcd_puts_scroll(0, 0, "Check failed."); break; } rb->lcd_update(); rb->sleep(HZ*3); if (rc == eOK) { rb->lcd_puts_scroll(0, 0, "[On] to program,"); rb->lcd_puts_scroll(0, 1, "other key to exit."); rb->lcd_update(); } else { /* error occured */ return; } button = WaitForButton(); if (button != BUTTON_ON) { return; } rb->lcd_clear_display(); rb->lcd_puts_scroll(0, 0, "Are you sure?"); rb->lcd_puts_scroll(0, 1, "[+] to proceed."); rb->lcd_update(); button = WaitForButton(); if (button != BUTTON_RIGHT) { return; } rb->lcd_clear_display(); rb->lcd_puts_scroll(0, 0, "Programming..."); rb->lcd_update(); rc = ProgramFirmwareFile(filename, FlashInfo.size); if (rc) { /* errors */ rb->lcd_clear_display(); rb->lcd_puts_scroll(0, 0, "Programming failed!"); rb->snprintf(buf, sizeof(buf), "%d errors", rc); rb->lcd_puts_scroll(0, 1, buf); rb->lcd_update(); WaitForButton(); } rb->lcd_clear_display(); rb->lcd_puts_scroll(0, 0, "Verifying..."); rb->lcd_update(); rc = VerifyFirmwareFile(filename); rb->lcd_clear_display(); if (rc == 0) { rb->lcd_puts_scroll(0, 0, "Verify OK."); } else { rb->snprintf(buf, sizeof(buf), "Verify failed! %d errors", rc); rb->lcd_puts_scroll(0, 0, buf); } rb->lcd_puts_scroll(0, 1, "Press any key to exit."); rb->lcd_update(); WaitForButton(); } #endif /* not HAVE_LCD_BITMAP */ /***************** Plugin Entry Point *****************/ enum plugin_status plugin_start(struct plugin_api* api, void* parameter) { int oldmode; rb = api; /* copy to global api pointer */ /* now go ahead and have fun! */ oldmode = rb->system_memory_guard(MEMGUARD_NONE); /*disable memory guard */ DoUserDialog((char*) parameter); rb->system_memory_guard(oldmode); /* re-enable memory guard */ return PLUGIN_OK; } #endif /* ifdef PLATFORM_ID */ #endif /* #ifndef SIMULATOR */