sdrangel/liblimesuite/srcmw/lms7002m_mcu/MCU_File.h

536 wiersze
11 KiB
C
Czysty Zwykły widok Historia

#include <stdio.h>
#include <string.h>
#include <vector>
#include <iostream>
#if !(defined(max)) && _MSC_VER
// VC fix
#define max __max
#endif
#define MYMAX(a, b) (a) > (b) ? (a) : (b)
using namespace std;
class MemBlock
{
public:
unsigned long m_startAddress;
vector<unsigned char> m_bytes;
};
class MCU_File
{
public:
explicit MCU_File(const char *fileName, const char *mode)
{
m_file = fopen(fileName, mode);
if (m_file != NULL)
{
return;
}
cout << "Error opening";
//string errorStr = "Error opening ";
//errorStr += fileName;
//errorStr += "\n";
//throw errorStr;
}
~MCU_File()
{
if (m_file)
fclose(m_file);
}
bool FileOpened()
{
return m_file != NULL;
}
// Read binary file
void ReadBin(unsigned long limit)
{
m_top = 0;
m_chunks.push_back(MemBlock());
m_chunks.back().m_startAddress = 0;
cout << "Reading binary file\n";
int tmp = fgetc(m_file);
while (!feof(m_file))
{
m_chunks.back().m_bytes.push_back(tmp);
if (m_chunks.back().m_bytes.size() > limit + 1)
{
m_chunks.back().m_bytes.pop_back();
m_top = m_chunks.back().m_bytes.size() - 1;
cout << "Ignoring data above address space!\n";
cout << " Limit: " << limit << "\n";
return;
}
tmp = fgetc(m_file);
}
m_top = m_chunks.back().m_bytes.size() - 1;
if (!m_chunks.back().m_bytes.size())
{
cout << "No data!\n";
m_chunks.pop_back();
}
}
// Read hex file
void ReadHex(unsigned long limit)
{
char szLine[1024];
bool formatDetected = false;
bool intel = false;
bool endSeen = false;
bool linear = true; // Only used for intel hex
unsigned long addressBase = 0; // Only used for intel hex
unsigned long dataRecords = 0; // Only used for s-record
while (!feof(m_file))
{
if (fgets(szLine, 1024, m_file) == 0)
{
if (ferror(m_file))
{
throw "Error reading input!\n";
}
continue;
}
if (szLine[strlen(szLine) - 1] == 0xA || szLine[strlen(szLine) - 1] == 0xD)
{
szLine[strlen(szLine) - 1] = 0;
}
if (szLine[strlen(szLine) - 1] == 0xA || szLine[strlen(szLine) - 1] == 0xD)
{
szLine[strlen(szLine) - 1] = 0;
}
if (strlen(szLine) == 1023)
{
throw "Hex file lines to long!\n";
}
// Ignore blank lines
if (szLine[0] == '\n')
{
continue;
}
// Detect format and warn if garbage lines are found
if (!formatDetected)
{
if (szLine[0] != ':' && szLine[0] != 'S')
{
cout << "Ignoring garbage line!\n";
continue;
}
if (szLine[0] == 'S')
{
intel = false;
cout << "Detected S-Record\n";
}
else
{
intel = true;
cout << "Detected intel hex file\n";
}
formatDetected = true;
}
else if ((intel && szLine[0] != ':') ||
(!intel && szLine[0] != 'S'))
{
cout << "Ignoring garbage line!\n";
continue;
}
if (endSeen)
{
throw "Hex line after end of file record!\n";
}
if (intel)
{
unsigned long dataBytes;
unsigned long startAddress;
unsigned long type;
if (sscanf(&szLine[1], "%2lx%4lx%2lx", &dataBytes, &startAddress, &type) != 3)
{
throw "Hex line beginning corrupt!\n";
}
// Check line length
if (szLine[11 + dataBytes * 2] != '\n' && szLine[11 + dataBytes * 2] != 0)
{
throw "Hex line length incorrect!\n";
}
// Check line checksum
unsigned char checkSum = 0;
unsigned long tmp;
for (unsigned int i = 0; i <= dataBytes + 4; ++i)
{
if (sscanf(&szLine[1 + i * 2], "%2lx", &tmp) != 1)
{
throw "Hex line data corrupt!\n";
}
checkSum += tmp;
}
if (checkSum != 0)
{
throw "Hex line checksum error!\n";
}
switch (type)
{
case 0:
// Data record
if (!linear)
{
// Segmented
unsigned long test = startAddress;
test += dataBytes;
if (test > 0xffff)
{
throw "Can't handle wrapped segments!\n";
}
}
if (!m_chunks.size() ||
m_chunks.back().m_startAddress + m_chunks.back().m_bytes.size() !=
addressBase + startAddress)
{
m_chunks.push_back(MemBlock());
m_chunks.back().m_startAddress = addressBase + startAddress;
}
{
unsigned char i = 0;
for (i = 0; i < dataBytes; ++i)
{
sscanf(&szLine[9 + i * 2], "%2lx", &tmp);
if (addressBase + startAddress + i > limit)
{
cout << "Ignoring data above address space!\n";
cout << "Data address: " << addressBase + startAddress + i;
cout << " Limit: " << limit << "\n";
if (!m_chunks.back().m_bytes.size())
{
m_chunks.pop_back();
}
continue;
}
m_chunks.back().m_bytes.push_back(tmp);
}
}
break;
case 1:
// End-of-file record
if (dataBytes != 0)
{
cout << "Warning: End of file record not zero length!\n";
}
if (startAddress != 0)
{
cout << "Warning: End of file record address not zero!\n";
}
endSeen = true;
break;
case 2:
// Extended segment address record
if (dataBytes != 2)
{
throw "Length field must be 2 in extended segment address record!\n";
}
if (startAddress != 0)
{
throw "Address field must be zero in extended segment address record!\n";
}
sscanf(&szLine[9], "%4lx", &startAddress);
addressBase = startAddress << 4;
linear = false;
break;
case 3:
// Start segment address record
if (dataBytes != 4)
{
cout << "Warning: Length field must be 4 in start segment address record!\n";
}
if (startAddress != 0)
{
cout << "Warning: Address field must be zero in start segment address record!\n";
}
if (dataBytes == 4)
{
unsigned long ssa;
char ssaStr[16];
sscanf(&szLine[9], "%8lx", &ssa);
sprintf(ssaStr, "%08lX\n", ssa);
cout << "Segment start address (CS/IP): ";
cout << ssaStr;
}
break;
case 4:
// Extended linear address record
if (dataBytes != 2)
{
throw "Length field must be 2 in extended linear address record!\n";
}
if (startAddress != 0)
{
throw "Address field must be zero in extended linear address record!\n";
}
sscanf(&szLine[9], "%4lx", &startAddress);
addressBase = ((unsigned long)startAddress) << 16;
linear = true;
break;
case 5:
// Start linear address record
if (dataBytes != 4)
{
cout << "Warning: Length field must be 4 in start linear address record!\n";
}
if (startAddress != 0)
{
cout << "Warning: Address field must be zero in start linear address record!\n";
}
if (dataBytes == 4)
{
unsigned long lsa;
char lsaStr[16];
sscanf(&szLine[9], "%8lx", &lsa);
sprintf(lsaStr, "%08lX\n", lsa);
cout << "Linear start address: ";
cout << lsaStr;
}
break;
default:
cout << "Waring: Unknown record found!\n";
}
}
else
{
// S-record
unsigned long count;
char type;
if (sscanf(&szLine[1], "%c%2lx", &type, &count) != 2)
{
throw "Hex line beginning corrupt!\n";
}
// Check line length
if (szLine[4 + count * 2] != '\n' && szLine[4 + count * 2] != 0)
{
throw "Hex line length incorrect!\n";
}
// Check line checksum
unsigned char checkSum = 0;
unsigned long tmp;
for (unsigned int i = 0; i < count + 1; ++i)
{
if (sscanf(&szLine[2 + i * 2], "%2lx", &tmp) != 1)
{
throw "Hex line data corrupt!\n";
}
checkSum += tmp;
}
if (checkSum != 255)
{
throw "Hex line checksum error!\n";
}
switch (type)
{
case '0':
// Header record
{
char header[256];
uint8_t i = 0;
for (i = 0; uint8_t(i + 3) < count; ++i)
{
sscanf(&szLine[8 + i * 2], "%2lx", &tmp);
header[i] = tmp;
}
header[i] = 0;
if (i > 0)
{
cout << "Module name: " << header << "\n";
}
}
break;
case '1':
case '2':
case '3':
// Data record
{
dataRecords++;
unsigned long startAddress;
if (type == '1')
{
sscanf(&szLine[4], "%4lx", &startAddress);
}
else if (type == '2')
{
sscanf(&szLine[4], "%6lx", &startAddress);
}
else
{
sscanf(&szLine[4], "%8lx", &startAddress);
}
if (!m_chunks.size() ||
m_chunks.back().m_startAddress + m_chunks.back().m_bytes.size() !=
startAddress)
{
m_chunks.push_back(MemBlock());
m_chunks.back().m_startAddress = startAddress;
}
unsigned char i = 0;
for (i = uint8_t(type - '1'); uint8_t(i + 3) < count; ++i)
{
sscanf(&szLine[8 + i * 2], "%2lx", &tmp);
if (startAddress + i > limit)
{
cout << "Ignoring data above address space!\n";
cout << "Data address: " << startAddress + i;
cout << " Limit: " << limit << "\n";
if (!m_chunks.back().m_bytes.size())
{
m_chunks.pop_back();
}
continue;
}
m_chunks.back().m_bytes.push_back(tmp);
}
}
break;
case '5':
// Count record
{
unsigned long address;
sscanf(&szLine[4], "%4lx", &address);
if (address != dataRecords)
{
throw "Wrong number of data records!\n";
}
}
break;
case '7':
case '8':
case '9':
// Start address record
cout << "Ignoring start address record!\n";
break;
default:
cout << "Unknown record found!\n";
}
}
}
if (intel && !endSeen)
{
cout << "No end of file record!\n";
}
if (!m_chunks.size())
{
throw "No data in file!\n";
}
vector<MemBlock>::iterator vi;
m_top = 0;
for (vi = m_chunks.begin(); vi < m_chunks.end(); vi++)
{
//m_top = m_top > vi->m_startAddress + vi->m_bytes.size() - 1 ? m_top : vi->m_startAddress + vi->m_bytes.size() - 1;
m_top = MYMAX(m_top, vi->m_startAddress + vi->m_bytes.size() - 1);
}
}
// Rather inefficient this one, fix sometime
bool GetByte(const unsigned long address, unsigned char &chr)
{
vector<MemBlock>::iterator vi;
for (vi = m_chunks.begin(); vi < m_chunks.end(); vi++)
{
if (vi->m_startAddress + vi->m_bytes.size() > address && vi->m_startAddress <= address)
{
break;
}
}
if (vi == m_chunks.end())
{
return false;
}
chr = vi->m_bytes[address - vi->m_startAddress];
return true;
}
bool BitString(const unsigned long address, const unsigned char bits, const bool lEndian, string &str)
{
bool ok = false;
long i;
unsigned char chr;
unsigned long data = 0;
unsigned long tmp;
if (lEndian)
{
for (i = 0; i < (bits + 7) / 8; ++i)
{
ok |= GetByte(address + i, chr);
tmp = chr;
data |= tmp << (8 * i);
}
}
else
{
for (i = 0; i < (bits + 7) / 8; ++i)
{
ok |= GetByte(address + i, chr);
tmp = chr;
data |= tmp << (8 * ((bits + 7) / 8 - i - 1));
}
}
if (!ok)
{
return false;
}
unsigned long mask = 1;
str = "";
for (i = 0; i < bits; i++)
{
if (data & mask)
{
str.insert(0,"1");
}
else
{
str.insert(0,"0");
}
mask <<= 1;
}
return true;
}
FILE *Handle() { return m_file; };
vector<MemBlock> m_chunks;
unsigned long m_top;
private:
FILE *m_file;
};