apply most of Jeromy's review
Jakub Sztandera
parent
01aabc6411
commit
5b03c22dd8
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@ -9,20 +9,20 @@ int mh_multihash_hash(const unsigned char *multihash, size_t len);
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// returns length of multihash or error (which is < 0)
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int mh_multihash_length(const unsigned char *multihash, size_t len);
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// gives access to raw digset inside multihash buffer
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// gives access to raw digest inside multihash buffer
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// returns 0 or negative error
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int mh_multihash_digset(const unsigned char *multihash, size_t len,
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const unsigned char **digset, size_t *digset_len);
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int mh_multihash_digest(const unsigned char *multihash, size_t len,
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const unsigned char **digest, size_t *digest_len);
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// returns length in bytes of buffer needed to store multihash
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// with given hashcode and with given digset length
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// with given hashcode and with given digest length
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// returns length or negative error code
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int mh_new_length(int code, size_t digset_len);
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int mh_new_length(int code, size_t digest_len);
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// writes multihash into a buffer, the buffer needs to be at least
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// mh_new_length() bytes long.
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// returns negative error code or 0
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int mh_new(unsigned char *buffer, int code, const unsigned char *digset,
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size_t digset_len);
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int mh_new(unsigned char *buffer, int code, const unsigned char *digest,
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size_t digest_len);
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#endif /* end of include guard */
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@ -40,11 +40,11 @@ static const struct hash_info *find_hash(int hash) {
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const char *mh_hash_name(int hash) {
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const struct hash_info *info = find_hash(hash);
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return info ? info->name : NULL;
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return (info != NULL) ? info->name : NULL;
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}
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int mh_hash_default_length(int hash) {
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const struct hash_info *info = find_hash(hash);
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return info ? info->length : MH_E_UNKNOWN_CODE;
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return (info != NULL) ? info->length : MH_E_UNKNOWN_CODE;
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}
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@ -10,66 +10,67 @@
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#define VARINT_MASK (1 << 7)
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static int check_len(size_t len) {
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if (len < 1) {
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if (len < 1)
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return MH_E_TOO_SHORT;
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} else if (len >= 128) {
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else if (len >= 128)
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return MH_E_TOO_LONG;
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}
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return MH_E_NO_ERROR;
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}
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static int check_multihash(const unsigned char mh[], size_t len) {
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int error;
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int err;
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if (len < 3)
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return MH_E_TOO_SHORT;
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if (mh[0] & VARINT_MASK) {
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// In near future multihash format will be
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// extended with varints, this is how we are protecting
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// against it.
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// This value is a varint, but there are currently no supported
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// values that require more than a single byte to represent.
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return MH_E_VARINT_NOT_SUPPORTED;
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} else if (mh[1] & VARINT_MASK) {
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return MH_E_VARINT_NOT_SUPPORTED;
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}
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error = check_len(mh[1]);
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if (error)
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return error;
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err = check_len(mh[1]);
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if (err)
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return err;
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return MH_E_NO_ERROR;
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return 0;
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}
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// returns hash code or error (which is < 0)
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int mh_multihash_hash(const unsigned char *mh, size_t len) {
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if (check_multihash(mh, len))
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return check_multihash(mh, len);
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int err = check_multihash(multihash, len);
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if (err)
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return err;
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return (int) mh[0];
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}
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// returns length of multihash or error (which is < 0)
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int mh_multihash_length(const unsigned char *mh, size_t len) {
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if (check_multihash(mh, len))
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return check_multihash(mh, len);
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int err = check_multihash(multihash, len);
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if (err)
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return err;
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return (int) mh[1];
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}
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// gives access to raw digset inside multihash buffer
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// gives access to raw digest inside multihash buffer
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// returns 0 or negative error
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int mh_multihash_digset(unsigned char *multihash, size_t len, unsigned char **digset,
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size_t *digset_len) {
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int error = check_multihash(multihash, len);
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if (error)
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return error;
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int mh_multihash_digest(unsigned char *multihash, size_t len, unsigned char **digest,
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size_t *digest_len) {
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int err = check_multihash(multihash, len);
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if (err)
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return err;
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(*digset_len) = (size_t) mh_multihash_length(multihash, len);
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(*digset) = multihash + 2; // Always true without varint
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(*digest_len) = (size_t) mh_multihash_length(multihash, len);
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(*digest) = multihash + 2; // Always true without varint
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return MH_E_NO_ERROR;
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return 0;
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}
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int mh_new_length(int code, size_t hash_len) {
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@ -79,17 +80,17 @@ int mh_new_length(int code, size_t hash_len) {
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return 2 + hash_len;
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}
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int mh_new(unsigned char *buffer, int code, const unsigned char *digset,
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size_t digset_len) {
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int mh_new(unsigned char *buffer, int code, const unsigned char *digest,
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size_t digest_len) {
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if (code & VARINT_MASK)
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return MH_E_VARINT_NOT_SUPPORTED;
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if (digset_len > 127)
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if (digest_len > 127)
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return MH_E_DIGSET_TOO_LONG;
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buffer[0] = (unsigned char) ((unsigned int) code) & 255;
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buffer[1] = (unsigned char) digset_len;
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memcpy(buffer + 2, digset, digset_len);
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buffer[1] = (unsigned char) digest_len;
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memcpy(buffer + 2, digest, digest_len);
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return MH_E_NO_ERROR;
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return 0;
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}
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@ -11,14 +11,14 @@ char error_buf[256];
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static char *test_multihash_new_crafts_right_multihash(void) {
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int error;
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unsigned char buf[256]; // much bigger than needed
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size_t digset_len = -1;
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const unsigned char *digset = NULL;
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size_t digest_len = -1;
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const unsigned char *digest = NULL;
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error = mh_multihash_digset(sha1_example, sha1_example_length,
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&digset, &digset_len);
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mu_assert("getting digset", error == MH_E_NO_ERROR);
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error = mh_multihash_digest(sha1_example, sha1_example_length,
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&digest, &digest_len);
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mu_assert("getting digest", error == MH_E_NO_ERROR);
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error = mh_new(buf, MH_H_SHA1, digset, digset_len);
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error = mh_new(buf, MH_H_SHA1, digest, digest_len);
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mu_assert("creating multihash", error == MH_E_NO_ERROR);
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mu_assert("crafted multihash is the same", memcmp(sha1_example, buf,
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@ -30,18 +30,18 @@ static char *test_multihash_new_crafts_right_multihash(void) {
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static char *test_multihash_new_is_reversible(void) {
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int error = MH_E_NO_ERROR;
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int code = MH_H_SHA3_512;
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const unsigned char *digset = random_512;
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const size_t digset_len = 512 / 8;
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const unsigned char *digest = random_512;
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const size_t digest_len = 512 / 8;
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unsigned char mh[256];
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const size_t mh_len = mh_new_length(code, digset_len);
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const size_t mh_len = mh_new_length(code, digest_len);
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error = mh_new(mh, MH_H_SHA3_512, digset, digset_len);
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error = mh_new(mh, MH_H_SHA3_512, digest, digest_len);
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mu_assert("creating multihash", error == MH_E_NO_ERROR);
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mu_assert("reading code", mh_multihash_hash(mh, mh_len) == MH_H_SHA3_512);
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mu_assert("reading length", mh_multihash_length(mh, mh_len) ==
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(int) digset_len);
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(int) digest_len);
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return NULL;
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}
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