mirror of
https://github.com/privatevoid-net/nix-super.git
synced 2024-11-11 08:46:16 +02:00
2c2fd4946f
This was a problem when writing a fetcher that uses e.g. sha256 hashes for revisions. This doesn't actually do anything new, but allows for creating such fetchers in the future (perhaps when support for Git's SHA256 object format gains more popularity).
420 lines
10 KiB
C++
420 lines
10 KiB
C++
#include <iostream>
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#include <cstring>
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#include <openssl/md5.h>
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#include <openssl/sha.h>
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#include "args.hh"
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#include "hash.hh"
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#include "archive.hh"
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#include "split.hh"
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#include "util.hh"
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#include <sys/types.h>
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#include <sys/stat.h>
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#include <fcntl.h>
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namespace nix {
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static size_t regularHashSize(HashType type) {
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switch (type) {
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case htMD5: return md5HashSize;
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case htSHA1: return sha1HashSize;
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case htSHA256: return sha256HashSize;
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case htSHA512: return sha512HashSize;
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}
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abort();
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}
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std::set<std::string> hashTypes = { "md5", "sha1", "sha256", "sha512" };
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Hash::Hash(HashType type) : type(type)
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{
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hashSize = regularHashSize(type);
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assert(hashSize <= maxHashSize);
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memset(hash, 0, maxHashSize);
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}
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bool Hash::operator == (const Hash & h2) const
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{
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if (hashSize != h2.hashSize) return false;
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for (unsigned int i = 0; i < hashSize; i++)
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if (hash[i] != h2.hash[i]) return false;
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return true;
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}
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bool Hash::operator != (const Hash & h2) const
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{
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return !(*this == h2);
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}
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bool Hash::operator < (const Hash & h) const
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{
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if (hashSize < h.hashSize) return true;
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if (hashSize > h.hashSize) return false;
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for (unsigned int i = 0; i < hashSize; i++) {
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if (hash[i] < h.hash[i]) return true;
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if (hash[i] > h.hash[i]) return false;
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}
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return false;
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}
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const std::string base16Chars = "0123456789abcdef";
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static std::string printHash16(const Hash & hash)
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{
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char buf[hash.hashSize * 2];
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for (unsigned int i = 0; i < hash.hashSize; i++) {
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buf[i * 2] = base16Chars[hash.hash[i] >> 4];
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buf[i * 2 + 1] = base16Chars[hash.hash[i] & 0x0f];
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}
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return std::string(buf, hash.hashSize * 2);
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}
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// omitted: E O U T
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const std::string base32Chars = "0123456789abcdfghijklmnpqrsvwxyz";
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static std::string printHash32(const Hash & hash)
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{
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assert(hash.hashSize);
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size_t len = hash.base32Len();
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assert(len);
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std::string s;
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s.reserve(len);
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for (int n = (int) len - 1; n >= 0; n--) {
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unsigned int b = n * 5;
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unsigned int i = b / 8;
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unsigned int j = b % 8;
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unsigned char c =
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(hash.hash[i] >> j)
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| (i >= hash.hashSize - 1 ? 0 : hash.hash[i + 1] << (8 - j));
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s.push_back(base32Chars[c & 0x1f]);
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}
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return s;
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}
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std::string printHash16or32(const Hash & hash)
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{
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assert(hash.type);
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return hash.to_string(hash.type == htMD5 ? Base16 : Base32, false);
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}
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std::string Hash::to_string(Base base, bool includeType) const
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{
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std::string s;
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if (base == SRI || includeType) {
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s += printHashType(type);
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s += base == SRI ? '-' : ':';
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}
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switch (base) {
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case Base16:
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s += printHash16(*this);
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break;
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case Base32:
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s += printHash32(*this);
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break;
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case Base64:
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case SRI:
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s += base64Encode(std::string((const char *) hash, hashSize));
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break;
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}
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return s;
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}
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Hash Hash::dummy(htSHA256);
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Hash Hash::parseSRI(std::string_view original) {
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auto rest = original;
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// Parse the has type before the separater, if there was one.
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auto hashRaw = splitPrefixTo(rest, '-');
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if (!hashRaw)
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throw BadHash("hash '%s' is not SRI", original);
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HashType parsedType = parseHashType(*hashRaw);
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return Hash(rest, parsedType, true);
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}
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// Mutates the string to eliminate the prefixes when found
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static std::pair<std::optional<HashType>, bool> getParsedTypeAndSRI(std::string_view & rest)
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{
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bool isSRI = false;
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// Parse the hash type before the separator, if there was one.
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std::optional<HashType> optParsedType;
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{
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auto hashRaw = splitPrefixTo(rest, ':');
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if (!hashRaw) {
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hashRaw = splitPrefixTo(rest, '-');
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if (hashRaw)
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isSRI = true;
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}
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if (hashRaw)
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optParsedType = parseHashType(*hashRaw);
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}
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return {optParsedType, isSRI};
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}
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Hash Hash::parseAnyPrefixed(std::string_view original)
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{
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auto rest = original;
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auto [optParsedType, isSRI] = getParsedTypeAndSRI(rest);
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// Either the string or user must provide the type, if they both do they
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// must agree.
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if (!optParsedType)
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throw BadHash("hash '%s' does not include a type", rest);
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return Hash(rest, *optParsedType, isSRI);
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}
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Hash Hash::parseAny(std::string_view original, std::optional<HashType> optType)
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{
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auto rest = original;
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auto [optParsedType, isSRI] = getParsedTypeAndSRI(rest);
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// Either the string or user must provide the type, if they both do they
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// must agree.
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if (!optParsedType && !optType)
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throw BadHash("hash '%s' does not include a type, nor is the type otherwise known from context", rest);
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else if (optParsedType && optType && *optParsedType != *optType)
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throw BadHash("hash '%s' should have type '%s'", original, printHashType(*optType));
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HashType hashType = optParsedType ? *optParsedType : *optType;
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return Hash(rest, hashType, isSRI);
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}
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Hash Hash::parseNonSRIUnprefixed(std::string_view s, HashType type)
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{
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return Hash(s, type, false);
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}
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Hash::Hash(std::string_view rest, HashType type, bool isSRI)
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: Hash(type)
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{
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if (!isSRI && rest.size() == base16Len()) {
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auto parseHexDigit = [&](char c) {
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if (c >= '0' && c <= '9') return c - '0';
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if (c >= 'A' && c <= 'F') return c - 'A' + 10;
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if (c >= 'a' && c <= 'f') return c - 'a' + 10;
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throw BadHash("invalid base-16 hash '%s'", rest);
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};
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for (unsigned int i = 0; i < hashSize; i++) {
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hash[i] =
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parseHexDigit(rest[i * 2]) << 4
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| parseHexDigit(rest[i * 2 + 1]);
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}
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}
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else if (!isSRI && rest.size() == base32Len()) {
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for (unsigned int n = 0; n < rest.size(); ++n) {
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char c = rest[rest.size() - n - 1];
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unsigned char digit;
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for (digit = 0; digit < base32Chars.size(); ++digit) /* !!! slow */
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if (base32Chars[digit] == c) break;
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if (digit >= 32)
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throw BadHash("invalid base-32 hash '%s'", rest);
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unsigned int b = n * 5;
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unsigned int i = b / 8;
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unsigned int j = b % 8;
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hash[i] |= digit << j;
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if (i < hashSize - 1) {
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hash[i + 1] |= digit >> (8 - j);
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} else {
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if (digit >> (8 - j))
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throw BadHash("invalid base-32 hash '%s'", rest);
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}
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}
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}
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else if (isSRI || rest.size() == base64Len()) {
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auto d = base64Decode(rest);
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if (d.size() != hashSize)
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throw BadHash("invalid %s hash '%s'", isSRI ? "SRI" : "base-64", rest);
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assert(hashSize);
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memcpy(hash, d.data(), hashSize);
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}
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else
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throw BadHash("hash '%s' has wrong length for hash type '%s'", rest, printHashType(this->type));
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}
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Hash newHashAllowEmpty(std::string_view hashStr, std::optional<HashType> ht)
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{
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if (hashStr.empty()) {
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if (!ht)
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throw BadHash("empty hash requires explicit hash type");
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Hash h(*ht);
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warn("found empty hash, assuming '%s'", h.to_string(SRI, true));
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return h;
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} else
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return Hash::parseAny(hashStr, ht);
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}
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union Ctx
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{
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MD5_CTX md5;
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SHA_CTX sha1;
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SHA256_CTX sha256;
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SHA512_CTX sha512;
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};
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static void start(HashType ht, Ctx & ctx)
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{
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if (ht == htMD5) MD5_Init(&ctx.md5);
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else if (ht == htSHA1) SHA1_Init(&ctx.sha1);
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else if (ht == htSHA256) SHA256_Init(&ctx.sha256);
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else if (ht == htSHA512) SHA512_Init(&ctx.sha512);
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}
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static void update(HashType ht, Ctx & ctx,
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std::string_view data)
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{
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if (ht == htMD5) MD5_Update(&ctx.md5, data.data(), data.size());
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else if (ht == htSHA1) SHA1_Update(&ctx.sha1, data.data(), data.size());
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else if (ht == htSHA256) SHA256_Update(&ctx.sha256, data.data(), data.size());
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else if (ht == htSHA512) SHA512_Update(&ctx.sha512, data.data(), data.size());
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}
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static void finish(HashType ht, Ctx & ctx, unsigned char * hash)
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{
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if (ht == htMD5) MD5_Final(hash, &ctx.md5);
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else if (ht == htSHA1) SHA1_Final(hash, &ctx.sha1);
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else if (ht == htSHA256) SHA256_Final(hash, &ctx.sha256);
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else if (ht == htSHA512) SHA512_Final(hash, &ctx.sha512);
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}
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Hash hashString(HashType ht, std::string_view s)
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{
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Ctx ctx;
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Hash hash(ht);
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start(ht, ctx);
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update(ht, ctx, s);
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finish(ht, ctx, hash.hash);
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return hash;
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}
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Hash hashFile(HashType ht, const Path & path)
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{
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HashSink sink(ht);
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readFile(path, sink);
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return sink.finish().first;
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}
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HashSink::HashSink(HashType ht) : ht(ht)
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{
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ctx = new Ctx;
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bytes = 0;
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start(ht, *ctx);
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}
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HashSink::~HashSink()
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{
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bufPos = 0;
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delete ctx;
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}
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void HashSink::write(std::string_view data)
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{
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bytes += data.size();
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update(ht, *ctx, data);
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}
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HashResult HashSink::finish()
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{
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flush();
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Hash hash(ht);
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nix::finish(ht, *ctx, hash.hash);
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return HashResult(hash, bytes);
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}
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HashResult HashSink::currentHash()
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{
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flush();
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Ctx ctx2 = *ctx;
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Hash hash(ht);
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nix::finish(ht, ctx2, hash.hash);
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return HashResult(hash, bytes);
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}
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HashResult hashPath(
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HashType ht, const Path & path, PathFilter & filter)
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{
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HashSink sink(ht);
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dumpPath(path, sink, filter);
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return sink.finish();
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}
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Hash compressHash(const Hash & hash, unsigned int newSize)
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{
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Hash h(hash.type);
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h.hashSize = newSize;
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for (unsigned int i = 0; i < hash.hashSize; ++i)
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h.hash[i % newSize] ^= hash.hash[i];
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return h;
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}
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std::optional<HashType> parseHashTypeOpt(std::string_view s)
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{
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if (s == "md5") return htMD5;
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else if (s == "sha1") return htSHA1;
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else if (s == "sha256") return htSHA256;
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else if (s == "sha512") return htSHA512;
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else return std::optional<HashType> {};
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}
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HashType parseHashType(std::string_view s)
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{
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auto opt_h = parseHashTypeOpt(s);
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if (opt_h)
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return *opt_h;
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else
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throw UsageError("unknown hash algorithm '%1%'", s);
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}
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std::string printHashType(HashType ht)
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{
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switch (ht) {
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case htMD5: return "md5";
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case htSHA1: return "sha1";
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case htSHA256: return "sha256";
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case htSHA512: return "sha512";
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default:
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// illegal hash type enum value internally, as opposed to external input
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// which should be validated with nice error message.
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assert(false);
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}
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}
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}
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