CMake/Source/cmCryptoHash.cxx

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Simplify CMake per-source license notices Per-source copyright/license notice headers that spell out copyright holder names and years are hard to maintain and often out-of-date or plain wrong. Precise contributor information is already maintained automatically by the version control tool. Ultimately it is the receiver of a file who is responsible for determining its licensing status, and per-source notices are merely a convenience. Therefore it is simpler and more accurate for each source to have a generic notice of the license name and references to more detailed information on copyright holders and full license terms. Our `Copyright.txt` file now contains a list of Contributors whose names appeared source-level copyright notices. It also references version control history for more precise information. Therefore we no longer need to spell out the list of Contributors in each source file notice. Replace CMake per-source copyright/license notice headers with a short description of the license and links to `Copyright.txt` and online information available from "https://cmake.org/licensing". The online URL also handles cases of modules being copied out of our source into other projects, so we can drop our notices about replacing links with full license text. Run the `Utilities/Scripts/filter-notices.bash` script to perform the majority of the replacements mechanically. Manually fix up shebang lines and trailing newlines in a few files. Manually update the notices in a few files that the script does not handle.
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/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying
file Copyright.txt or https://cmake.org/licensing for details. */
#include "cmCryptoHash.h"
#include "cm_sha2.h"
#include <cmsys/FStream.hxx>
#include <cmsys/MD5.h>
#include <string.h>
CM_AUTO_PTR<cmCryptoHash> cmCryptoHash::New(const char* algo)
{
if (strcmp(algo, "MD5") == 0) {
return CM_AUTO_PTR<cmCryptoHash>(new cmCryptoHashMD5);
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}
if (strcmp(algo, "SHA1") == 0) {
return CM_AUTO_PTR<cmCryptoHash>(new cmCryptoHashSHA1);
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}
if (strcmp(algo, "SHA224") == 0) {
return CM_AUTO_PTR<cmCryptoHash>(new cmCryptoHashSHA224);
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}
if (strcmp(algo, "SHA256") == 0) {
return CM_AUTO_PTR<cmCryptoHash>(new cmCryptoHashSHA256);
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}
if (strcmp(algo, "SHA384") == 0) {
return CM_AUTO_PTR<cmCryptoHash>(new cmCryptoHashSHA384);
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}
if (strcmp(algo, "SHA512") == 0) {
return CM_AUTO_PTR<cmCryptoHash>(new cmCryptoHashSHA512);
}
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return CM_AUTO_PTR<cmCryptoHash>(CM_NULLPTR);
}
bool cmCryptoHash::IntFromHexDigit(char input, char& output)
{
if (input >= '0' && input <= '9') {
output = char(input - '0');
return true;
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}
if (input >= 'a' && input <= 'f') {
output = char(input - 'a' + 0xA);
return true;
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}
if (input >= 'A' && input <= 'F') {
output = char(input - 'A' + 0xA);
return true;
}
return false;
}
std::string cmCryptoHash::ByteHashToString(
const std::vector<unsigned char>& hash)
{
// Map from 4-bit index to hexadecimal representation.
static char const hex[16] = { '0', '1', '2', '3', '4', '5', '6', '7',
'8', '9', 'a', 'b', 'c', 'd', 'e', 'f' };
std::string res;
for (std::vector<unsigned char>::const_iterator vit = hash.begin();
vit != hash.end(); ++vit) {
res.push_back(hex[(*vit) >> 4]);
res.push_back(hex[(*vit) & 0xF]);
}
return res;
}
std::vector<unsigned char> cmCryptoHash::ByteHashString(
const std::string& input)
{
this->Initialize();
this->Append(reinterpret_cast<unsigned char const*>(input.c_str()),
static_cast<int>(input.size()));
return this->Finalize();
}
std::vector<unsigned char> cmCryptoHash::ByteHashFile(const std::string& file)
{
cmsys::ifstream fin(file.c_str(), std::ios::in | std::ios::binary);
if (fin) {
this->Initialize();
{
// Should be efficient enough on most system:
cm_sha2_uint64_t buffer[512];
char* buffer_c = reinterpret_cast<char*>(buffer);
unsigned char const* buffer_uc =
reinterpret_cast<unsigned char const*>(buffer);
// This copy loop is very sensitive on certain platforms with
// slightly broken stream libraries (like HPUX). Normally, it is
// incorrect to not check the error condition on the fin.read()
// before using the data, but the fin.gcount() will be zero if an
// error occurred. Therefore, the loop should be safe everywhere.
while (fin) {
fin.read(buffer_c, sizeof(buffer));
if (int gcount = static_cast<int>(fin.gcount())) {
this->Append(buffer_uc, gcount);
}
}
}
if (fin.eof()) {
// Success
return this->Finalize();
}
// Finalize anyway
this->Finalize();
}
// Return without success
return std::vector<unsigned char>();
}
std::string cmCryptoHash::HashString(const std::string& input)
{
return ByteHashToString(this->ByteHashString(input));
}
std::string cmCryptoHash::HashFile(const std::string& file)
{
return ByteHashToString(this->ByteHashFile(file));
}
cmCryptoHashMD5::cmCryptoHashMD5()
: MD5(cmsysMD5_New())
{
}
cmCryptoHashMD5::~cmCryptoHashMD5()
{
cmsysMD5_Delete(this->MD5);
}
void cmCryptoHashMD5::Initialize()
{
cmsysMD5_Initialize(this->MD5);
}
void cmCryptoHashMD5::Append(unsigned char const* buf, int sz)
{
cmsysMD5_Append(this->MD5, buf, sz);
}
std::vector<unsigned char> cmCryptoHashMD5::Finalize()
{
std::vector<unsigned char> hash(16, 0);
cmsysMD5_Finalize(this->MD5, &hash[0]);
return hash;
}
#define cmCryptoHash_SHA_CLASS_IMPL(SHA) \
cmCryptoHash##SHA::cmCryptoHash##SHA() \
: SHA(new SHA_CTX) \
{ \
} \
cmCryptoHash##SHA::~cmCryptoHash##SHA() { delete this->SHA; } \
void cmCryptoHash##SHA::Initialize() { SHA##_Init(this->SHA); } \
void cmCryptoHash##SHA::Append(unsigned char const* buf, int sz) \
{ \
SHA##_Update(this->SHA, buf, sz); \
} \
std::vector<unsigned char> cmCryptoHash##SHA::Finalize() \
{ \
std::vector<unsigned char> hash(SHA##_DIGEST_LENGTH, 0); \
SHA##_Final(&hash[0], this->SHA); \
return hash; \
}
cmCryptoHash_SHA_CLASS_IMPL(SHA1) cmCryptoHash_SHA_CLASS_IMPL(SHA224)
cmCryptoHash_SHA_CLASS_IMPL(SHA256) cmCryptoHash_SHA_CLASS_IMPL(SHA384)
cmCryptoHash_SHA_CLASS_IMPL(SHA512)