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[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [packages/] [hal/] [arm/] [edb7xxx/] [v2_0/] [support/] [dl_edb7xxx.c] - Rev 773
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//**************************************************************************** // // DOWNLOAD.C - Automates the download of code into the flash on the // Cirrus Logic EDB7XXX boards. // // Copyright (c) 1999 Cirrus Logic, Inc. // // Adapted for Linux by Red Hat, Inc. // Renamed 'dl_edb7xxx' to indicate support for all Cirrus Logic eval boards. // //**************************************************************************** #include <stdio.h> #include "bootcode.h" #ifndef _WIN32 #define CHAR_READY_IS_RELIABLE #endif #define DEFAULT_PORT "/dev/ttyS0" extern char _ReceiveChar(long); extern void _SendChar(long, char); extern void _SetBaud(long, long); extern int _CharRead(long port); extern void _WaitForOutputReady(long port); extern long _OpenPort(char *); extern int _CharReady(long port); #define ReceiveChar _ReceiveChar #define SendChar _SendChar #define SetBaud _SetBaud #define CharRead _CharRead #define WaitForOutputEmpty _WaitForOutputEmpty #define OpenPort _OpenPort #define CharReady _CharReady //**************************************************************************** // // WaitFor waits until a specific character is read from the comm port. // //**************************************************************************** void WaitFor(long lPort, char cWaitChar) { char cChar; // // Wait until we read a specific character from the comm port. // while(1) { // // Read a character. // cChar = ReceiveChar(lPort); // // Stop waiting if we received the character. // if(cChar == cWaitChar) { break; } } } //**************************************************************************** // // This program waits for the '<' character from the boot ROM, sends the boot // code, waits for the '>' from the boot ROM, waits for the '?' from the boot // code, changes the serial port rate (preferably to 115200), downloads the // user data file, and then prints out progress status as the boot code writes // the user data file to the flash. // //**************************************************************************** void main(int argc, char *argv[]) { long lPort; long lRate = 38400; long lFileSize, lIdx; char cChar, cFirstChar, *pcFile, cRateChar; FILE *pFile; // // Make sure that a filename was specified. // if(argc < 2) { fprintf(stderr, "Usage: %s <filename> {<baud rate> {<comm port>}}\n", argv[0]); return; } // // If a baud rate was specified, then read it and make sure it is valid. // if(argc > 2) { lRate = atoi(argv[2]); if((lRate != 9600) && (lRate != 19200) && (lRate != 28800) && (lRate != 38400) && (lRate != 57600) && (lRate != 115200)) { fprintf(stderr, "Invalid baud rate: %d(%s).\n", lRate, argv[2]); return; } } // // If a comm port was specified, then read it and make sure it is valid. // if(argc > 3) { lPort = OpenPort(argv[3]); if (lPort < 0) { fprintf(stderr, "Can't open port: %s\n", argv[3]); return; } } else { lPort = OpenPort(DEFAULT_PORT); if (lPort < 0) { fprintf(stderr, "Can't open port: %s\n", DEFAULT_PORT); return; } } // // Open the file to be downloaded. // pFile = fopen(argv[1], "rb"); if(!pFile) { fprintf(stderr, "Could not open file '%s'.\n", argv[1]); return; } // // Get the size of the file. // fseek(pFile, 0, SEEK_END); lFileSize = ftell(pFile); fseek(pFile, 0, SEEK_SET); // // Allocate memory to hold the file contents. // pcFile = (char *)malloc(lFileSize); if(!pcFile) { fprintf(stderr, "Failed to allocate memory for the file.\n"); return; } // // Read the contents of the file into memory. // if(fread(pcFile, 1, lFileSize, pFile) != lFileSize) { fprintf(stderr, "Failed to read file '%s'.\n", argv[1]); return; } // // Close the file. // fclose(pFile); // // Get the baud rate divisor for the given baud rate. // SetBaud(lPort, 9600); switch(lRate) { case 9600: { cRateChar = '0'; break; } case 19200: { cRateChar = '1'; break; } case 28800: { cRateChar = '2'; break; } case 38400: { cRateChar = '3'; break; } case 57600: { cRateChar = '4'; break; } case 115200: { cRateChar = '5'; break; } } // // Empty out the input queue. // #ifdef CHAR_READY_IS_RELIABLE while(CharReady(lPort)) { cChar = ReceiveChar(lPort); } #endif // // Tell the user to reset the board. // fprintf(stderr, "Waiting for the board to wakeup..."); // // Wait until we read a '<' from the comm port. // WaitFor(lPort, '<'); // // Tell the user that we are downloading the boot code. // fprintf(stderr, "\nDownloading boot code...( 0%%)"); // // Write the boot code to the comm port. // for(lIdx = 0; lIdx < 2048; lIdx++) { // // Write this character. // SendChar(lPort, pcBoot[lIdx]); // // Periodically print out our progress. // if((lIdx & 127) == 127) { fprintf(stderr, "\b\b\b\b\b%3d%%)", ((lIdx + 1) * 100) / 2048); } } // // Wait until we read a '>' from the comm port. // WaitFor(lPort, '>'); // // Wait until we read a '?' from the comm port. // WaitFor(lPort, '?'); // // Tell the boot code to switch to the desired baud rate. // SendChar(lPort, 'B'); SendChar(lPort, cRateChar); // // Wait until the output buffer is empty. // WaitForOutputEmpty(); // // Switch our baud rate to the desired rate. // SetBaud(lPort, lRate); // // Send a '-' character until we receive back a '?' character. // while(1) { // // Send a '-' character. // SendChar(lPort, '-'); // // Wait a little bit. // for(lIdx = 0; lIdx < 1024 * 1024; lIdx++) { } // // See if there is a character waiting to be read. // #ifdef CHAR_READY_IS_RELIABLE if(CharReady(lPort)) #else if (1) #endif { // // Read the character. // cChar = ReceiveChar(lPort); // // Quit waiting if this is a '?'. // if(cChar == '?') { break; } } } // // Empty out the input queue. // #ifdef CHAR_READY_IS_RELIABLE while(CharReady(lPort)) { cChar = ReceiveChar(lPort); } #endif // // Send the program flash command. // SendChar(lPort, 'F'); // // We always program the flash at location 0. // SendChar(lPort, 0); SendChar(lPort, 0); SendChar(lPort, 0); SendChar(lPort, 0); // // Send the length of the data file. // SendChar(lPort, (char)(lFileSize & 0xFF)); SendChar(lPort, (char)((lFileSize >> 8) & 0xFF)); SendChar(lPort, (char)((lFileSize >> 16) & 0xFF)); SendChar(lPort, (char)((lFileSize >> 24) & 0xFF)); // // Tell the user that we are downloading the file data. // fprintf(stderr, "\nDownloading file data...( 0%%)"); // // Send the actual data in the file. // for(lIdx = 0; lIdx < lFileSize; lIdx++) { // // Send this byte. // SendChar(lPort, pcFile[lIdx]); // // Periodically print out our progress. // if((lIdx & 127) == 127) { fprintf(stderr, "\b\b\b\b\b%3d%%)", ((lIdx + 1) * 100) / lFileSize); } } // // Tell the user that we are erasing the flash. // fprintf(stderr, "\nErasing the flash...( 0%%)"); // // Wait until the flash has been erased. // cFirstChar = cChar = ReceiveChar(lPort); while(cChar != '1') { // // Print out our progress. // fprintf(stderr, "\b\b\b\b\b%3d%%)", ((cFirstChar - cChar + 1) * 100) / (cFirstChar - '0')); fprintf(stderr, "%c\n", cChar); // // Read a character from the boot code. // cChar = ReceiveChar(lPort); } // // Tell the user that we are programming the flash. // fprintf(stderr, "\nProgramming the flash...( 0%%)"); // // Wait until the flash has been programmed. // lIdx = 0; while(1) { // // Read a character from the boot code. // cChar = ReceiveChar(lPort); // // If the character is a '?', then we are done. // if(cChar == '?') { break; } // // Print out our progress. // fprintf(stderr, "\b\b\b\b\b%3d%%)", (++lIdx * 100) / ((lFileSize + 1023) / 1024)); } // // Tell the user we are done. // fprintf(stderr, "\nSuccessfully downloaded '%s'.\n", argv[1]); }
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