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fprime/Utils/CRCChecker.cpp
Joshua Anderson 30e43abb9d Various: Convert C style casts to C++ style casts
2021-09-16 15:35:13 -07:00

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// ======================================================================
// \title CRCChecker.cpp
// \author ortega
// \brief cpp file for a crc32 checker
//
// \copyright
// Copyright 2009-2020, by the California Institute of Technology.
// ALL RIGHTS RESERVED. United States Government Sponsorship
// acknowledged.
// ======================================================================
#include <FpConfig.hpp>
#include <cstdio> // For snprintf
#include <Utils/CRCChecker.hpp>
#include <Fw/Types/Assert.hpp>
#include <Os/File.hpp>
#include <Os/FileSystem.hpp>
#include <Utils/Hash/Hash.hpp>
namespace Utils {
crc_stat_t create_checksum_file(const char* const fname)
{
FW_ASSERT(fname != NULL);
NATIVE_INT_TYPE i;
NATIVE_INT_TYPE blocks;
NATIVE_INT_TYPE remaining_bytes;
U64 filesize;
Os::File f;
Os::FileSystem::Status fs_stat;
Os::File::Status stat;
Utils::Hash hash;
U32 checksum;
I32 s_stat;
NATIVE_INT_TYPE int_file_size;
NATIVE_INT_TYPE bytes_to_read;
NATIVE_INT_TYPE bytes_to_write;
char hashFilename[CRC_MAX_FILENAME_SIZE];
char block_data[CRC_FILE_READ_BLOCK];
fs_stat = Os::FileSystem::getFileSize(fname, filesize);
if(fs_stat != Os::FileSystem::OP_OK)
{
return FAILED_FILE_SIZE;
}
int_file_size = filesize;
if(static_cast<U64>(int_file_size) != filesize)
{
return FAILED_FILE_SIZE_CAST;
}
// Open file
stat = f.open(fname, Os::File::OPEN_READ);
if(stat != Os::File::OP_OK)
{
return FAILED_FILE_OPEN;
}
// Read file
bytes_to_read = CRC_FILE_READ_BLOCK;
blocks = int_file_size / CRC_FILE_READ_BLOCK;
for(i = 0; i < blocks; i++)
{
stat = f.read(block_data, bytes_to_read);
if(stat != Os::File::OP_OK || bytes_to_read != CRC_FILE_READ_BLOCK)
{
f.close();
return FAILED_FILE_READ;
}
hash.update(block_data, bytes_to_read);
}
remaining_bytes = int_file_size % CRC_FILE_READ_BLOCK;
bytes_to_read = remaining_bytes;
if(remaining_bytes > 0)
{
stat = f.read(block_data, bytes_to_read);
if(stat != Os::File::OP_OK || bytes_to_read != remaining_bytes)
{
f.close();
return FAILED_FILE_READ;
}
hash.update(block_data, remaining_bytes);
}
// close file
f.close();
// generate checksum
hash.final(checksum);
// open checksum file
s_stat = snprintf(hashFilename, CRC_MAX_FILENAME_SIZE, "%s%s", fname, HASH_EXTENSION_STRING);
FW_ASSERT(s_stat > 0);
stat = f.open(hashFilename, Os::File::OPEN_WRITE);
if(stat != Os::File::OP_OK)
{
return FAILED_FILE_CRC_OPEN;
}
// Write checksum file
bytes_to_write = sizeof(checksum);
stat = f.write(reinterpret_cast<U8*>(&checksum), bytes_to_write);
if(stat != Os::File::OP_OK || sizeof(checksum) != bytes_to_write)
{
f.close();
return FAILED_FILE_CRC_WRITE;
}
// close checksum file
f.close();
return PASSED_FILE_CRC_WRITE;
}
crc_stat_t read_crc32_from_file(const char* const fname, U32 &checksum_from_file) {
Os::File f;
Os::File::Status stat;
char hashFilename[CRC_MAX_FILENAME_SIZE];
FW_ASSERT(fname != NULL);
// open checksum file
I32 s_stat = snprintf(hashFilename, CRC_MAX_FILENAME_SIZE, "%s%s", fname, HASH_EXTENSION_STRING);
FW_ASSERT(s_stat > 0);
stat = f.open(hashFilename, Os::File::OPEN_READ);
if(stat != Os::File::OP_OK)
{
return FAILED_FILE_CRC_OPEN;
}
// Read checksum file
NATIVE_INT_TYPE checksum_from_file_size = sizeof(checksum_from_file);
stat = f.read(reinterpret_cast<U8*>(&checksum_from_file), checksum_from_file_size);
if(stat != Os::File::OP_OK || checksum_from_file_size != sizeof(checksum_from_file))
{
f.close();
return FAILED_FILE_CRC_READ;
}
// close checksum file
f.close();
return PASSED_FILE_CRC_CHECK;
}
crc_stat_t verify_checksum(const char* const fname, U32 &expected, U32 &actual)
{
FW_ASSERT(fname != NULL);
NATIVE_INT_TYPE i;
NATIVE_INT_TYPE blocks;
NATIVE_INT_TYPE remaining_bytes;
U64 filesize;
Os::File f;
Os::FileSystem::Status fs_stat;
Os::File::Status stat;
Utils::Hash hash;
U32 checksum;
U32 checksum_from_file;
NATIVE_INT_TYPE int_file_size;
NATIVE_INT_TYPE bytes_to_read;
char block_data[CRC_FILE_READ_BLOCK];
fs_stat = Os::FileSystem::getFileSize(fname, filesize);
if(fs_stat != Os::FileSystem::OP_OK)
{
return FAILED_FILE_SIZE;
}
int_file_size = filesize;
if(static_cast<U64>(int_file_size) != filesize)
{
return FAILED_FILE_SIZE_CAST;
}
// Open file
stat = f.open(fname, Os::File::OPEN_READ);
if(stat != Os::File::OP_OK)
{
return FAILED_FILE_OPEN;
}
// Read file
bytes_to_read = CRC_FILE_READ_BLOCK;
blocks = int_file_size / CRC_FILE_READ_BLOCK;
for(i = 0; i < blocks; i++)
{
stat = f.read(block_data, bytes_to_read);
if(stat != Os::File::OP_OK || bytes_to_read != CRC_FILE_READ_BLOCK)
{
f.close();
return FAILED_FILE_READ;
}
hash.update(block_data, bytes_to_read);
}
remaining_bytes = int_file_size % CRC_FILE_READ_BLOCK;
bytes_to_read = remaining_bytes;
if(remaining_bytes > 0)
{
stat = f.read(block_data, bytes_to_read);
if(stat != Os::File::OP_OK || bytes_to_read != remaining_bytes)
{
f.close();
return FAILED_FILE_READ;
}
hash.update(block_data, remaining_bytes);
}
// close file
f.close();
// generate checksum
hash.final(checksum);
crc_stat_t crcstat = read_crc32_from_file(fname, checksum_from_file);
if (crcstat != PASSED_FILE_CRC_CHECK) {
return crcstat;
}
// compare checksums
if(checksum != checksum_from_file)
{
expected = checksum_from_file;
actual = checksum;
return FAILED_FILE_CRC_CHECK;
}
expected = checksum_from_file;
actual = checksum;
return PASSED_FILE_CRC_CHECK;
}
}
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