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vim-mirror/src/crypt.c
T
Hirohito Higashi 3c79e33aeb patch 9.2.0298: Some internal variables are not modified 
Problem:  Some internal variables are not modified
Solution: Add const qualifier to static table data
          (Hirohito Higashi).

Several static arrays that are never modified at runtime were missing the
const qualifier. Add const to move them from .data to .rodata section.

closes: #19901

Signed-off-by: Hirohito Higashi <h.east.727@gmail.com>
Signed-off-by: Christian Brabandt <cb@256bit.org>
2026-04-04 09:09:13 +00:00

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/* vi:set ts=8 sts=4 sw=4 noet:
*
* VIM - Vi IMproved by Bram Moolenaar
*
* Do ":help uganda" in Vim to read copying and usage conditions.
* Do ":help credits" in Vim to see a list of people who contributed.
* See README.txt for an overview of the Vim source code.
*/
/*
* crypt.c: Generic encryption support.
*/
#include "vim.h"
#if defined(FEAT_CRYPT)
/*
* Optional encryption support.
* Mohsin Ahmed, mosh@sasi.com, 1998-09-24
* Based on zip/crypt sources.
* Refactored by David Leadbeater, 2014.
*
* NOTE FOR USA: Since 2000 exporting this code from the USA is allowed to
* most countries. There are a few exceptions, but that still should not be a
* problem since this code was originally created in Europe and India.
*
* Blowfish addition originally made by Mohsin Ahmed (20100314).
* Original link (www.cs.albany.edu/~mosh) is no longer available.
* Based on blowfish by Bruce Schneier (http://www.schneier.com/blowfish.html)
* and sha256 by Christophe Devine.
*/
typedef struct {
char *name; // encryption name as used in 'cryptmethod'
char *magic; // magic bytes stored in file header
int salt_len; // length of salt, or 0 when not using salt
int seed_len; // length of seed, or 0 when not using seed
int add_len; // additional length in the header needed for storing
// custom data
#ifdef CRYPT_NOT_INPLACE
int works_inplace; // encryption/decryption can be done in-place
#endif
int whole_undofile; // whole undo file is encrypted
// Optional function pointer for a self-test.
int (*self_test_fn)(void);
// Function pointer for initializing encryption/decryption.
int (* init_fn)(cryptstate_T *state, char_u *key, crypt_arg_T *arg);
// Function pointers for encoding/decoding from one buffer into another.
// Optional, however, these or the _buffer ones should be configured.
void (*encode_fn)(cryptstate_T *state, char_u *from, size_t len,
char_u *to, int last);
void (*decode_fn)(cryptstate_T *state, char_u *from, size_t len,
char_u *to, int last);
// Function pointers for encoding and decoding, can buffer data if needed.
// Optional (however, these or the above should be configured).
long (*encode_buffer_fn)(cryptstate_T *state, char_u *from, size_t len,
char_u **newptr, int last);
long (*decode_buffer_fn)(cryptstate_T *state, char_u *from, size_t len,
char_u **newptr, int last);
// Function pointers for in-place encoding and decoding, used for
// crypt_*_inplace(). "from" and "to" arguments will be equal.
// These may be the same as decode_fn and encode_fn above, however an
// algorithm may implement them in a way that is not interchangeable with
// the crypt_(en|de)code() interface (for example because it wishes to add
// padding to files).
// This method is used for swap and undo files which have a rigid format.
void (*encode_inplace_fn)(cryptstate_T *state, char_u *p1, size_t len,
char_u *p2, int last);
void (*decode_inplace_fn)(cryptstate_T *state, char_u *p1, size_t len,
char_u *p2, int last);
} cryptmethod_T;
static int crypt_sodium_init_(cryptstate_T *state, char_u *key, crypt_arg_T *arg);
static long crypt_sodium_buffer_decode(cryptstate_T *state, char_u *from, size_t len, char_u **buf_out, int last);
static long crypt_sodium_buffer_encode(cryptstate_T *state, char_u *from, size_t len, char_u **buf_out, int last);
#if defined(FEAT_SODIUM)
static void crypt_long_long_to_char(long long n, char_u *s);
static void crypt_int_to_char(int n, char_u *s);
static long long crypt_char_to_long_long(char_u *s);
static int crypt_char_to_int(char_u *s);
#endif
#if defined(FEAT_EVAL) && defined(FEAT_SODIUM)
static void crypt_sodium_report_hash_params(unsigned long long opslimit, unsigned long long ops_def, size_t memlimit, size_t mem_def, int alg, int alg_def);
#endif
// index is method_nr of cryptstate_T, CRYPT_M_*
static cryptmethod_T cryptmethods[CRYPT_M_COUNT] = {
// PK_Zip; very weak
{
"zip",
"VimCrypt~01!",
0,
0,
0,
#ifdef CRYPT_NOT_INPLACE
TRUE,
#endif
FALSE,
NULL,
crypt_zip_init,
crypt_zip_encode, crypt_zip_decode,
NULL, NULL,
crypt_zip_encode, crypt_zip_decode,
},
// Blowfish/CFB + SHA-256 custom key derivation; implementation issues.
{
"blowfish",
"VimCrypt~02!",
8,
8,
0,
#ifdef CRYPT_NOT_INPLACE
TRUE,
#endif
FALSE,
blowfish_self_test,
crypt_blowfish_init,
crypt_blowfish_encode, crypt_blowfish_decode,
NULL, NULL,
crypt_blowfish_encode, crypt_blowfish_decode,
},
// Blowfish/CFB + SHA-256 custom key derivation; fixed.
{
"blowfish2",
"VimCrypt~03!",
8,
8,
0,
#ifdef CRYPT_NOT_INPLACE
TRUE,
#endif
TRUE,
blowfish_self_test,
crypt_blowfish_init,
crypt_blowfish_encode, crypt_blowfish_decode,
NULL, NULL,
crypt_blowfish_encode, crypt_blowfish_decode,
},
// XChaCha20 using libsodium; implementation issues
{
"xchacha20",
"VimCrypt~04!",
#ifdef FEAT_SODIUM
crypto_pwhash_argon2id_SALTBYTES, // 16
#else
16,
#endif
8,
0,
#ifdef CRYPT_NOT_INPLACE
FALSE,
#endif
FALSE,
NULL,
crypt_sodium_init_,
NULL, NULL,
crypt_sodium_buffer_encode, crypt_sodium_buffer_decode,
NULL, NULL,
},
// XChaCha20 using libsodium; stores parameters in header
{
"xchacha20v2",
"VimCrypt~05!",
#ifdef FEAT_SODIUM
crypto_pwhash_argon2id_SALTBYTES, // 16
#else
16,
#endif
8,
// sizeof(crypto_pwhash_OPSLIMIT_INTERACTIVE + crypto_pwhash_MEMLIMIT_INTERACTIVE + crypto_pwhash_ALG_DEFAULT)
20,
#ifdef CRYPT_NOT_INPLACE
FALSE,
#endif
FALSE,
NULL,
crypt_sodium_init_,
NULL, NULL,
crypt_sodium_buffer_encode, crypt_sodium_buffer_decode,
NULL, NULL,
},
// NOTE: when adding a new method, use some random bytes for the magic key,
// to avoid that a text file is recognized as encrypted.
};
#if defined(FEAT_SODIUM)
typedef struct {
size_t count;
unsigned char key[crypto_box_SEEDBYTES];
// 32, same as crypto_secretstream_xchacha20poly1305_KEYBYTES
crypto_secretstream_xchacha20poly1305_state
state;
} sodium_state_T;
# ifdef DYNAMIC_SODIUM
# ifdef MSWIN
# define SODIUM_PROC FARPROC
# define load_dll vimLoadLib
# define symbol_from_dll GetProcAddress
# define close_dll FreeLibrary
# define load_dll_error GetWin32Error
# else
# error Dynamic loading of libsodium is not supported for now.
//# define HINSTANCE void*
//# define SODIUM_PROC void*
//# define load_dll(n) dlopen((n), RTLD_LAZY|RTLD_GLOBAL)
//# define symbol_from_dll dlsym
//# define close_dll dlclose
//# define load_dll_error dlerror
# endif
# define sodium_init load_sodium
# define sodium_free dll_sodium_free
# define sodium_malloc dll_sodium_malloc
# define sodium_memzero dll_sodium_memzero
# define sodium_mlock dll_sodium_mlock
# define sodium_munlock dll_sodium_munlock
# define crypto_secretstream_xchacha20poly1305_init_push \
dll_crypto_secretstream_xchacha20poly1305_init_push
# define crypto_secretstream_xchacha20poly1305_push \
dll_crypto_secretstream_xchacha20poly1305_push
# define crypto_secretstream_xchacha20poly1305_init_pull \
dll_crypto_secretstream_xchacha20poly1305_init_pull
# define crypto_secretstream_xchacha20poly1305_pull \
dll_crypto_secretstream_xchacha20poly1305_pull
# define crypto_pwhash dll_crypto_pwhash
# define randombytes_buf dll_randombytes_buf
# define randombytes_random dll_randombytes_random
static int (*dll_sodium_init)(void) = NULL;
static void (*dll_sodium_free)(void *) = NULL;
static void *(*dll_sodium_malloc)(const size_t) = NULL;
static void (*dll_sodium_memzero)(void * const, const size_t) = NULL;
static int (*dll_sodium_mlock)(void * const, const size_t) = NULL;
static int (*dll_sodium_munlock)(void * const, const size_t) = NULL;
static int (*dll_crypto_secretstream_xchacha20poly1305_init_push)
(crypto_secretstream_xchacha20poly1305_state *state,
unsigned char [],
const unsigned char []) = NULL;
static int (*dll_crypto_secretstream_xchacha20poly1305_push)
(crypto_secretstream_xchacha20poly1305_state *state,
unsigned char *c, unsigned long long *clen_p,
const unsigned char *m, unsigned long long mlen,
const unsigned char *ad, unsigned long long adlen, unsigned char tag)
= NULL;
static int (*dll_crypto_secretstream_xchacha20poly1305_init_pull)
(crypto_secretstream_xchacha20poly1305_state *state,
const unsigned char [],
const unsigned char []) = NULL;
static int (*dll_crypto_secretstream_xchacha20poly1305_pull)
(crypto_secretstream_xchacha20poly1305_state *state,
unsigned char *m, unsigned long long *mlen_p, unsigned char *tag_p,
const unsigned char *c, unsigned long long clen,
const unsigned char *ad, unsigned long long adlen) = NULL;
static int (*dll_crypto_pwhash)(unsigned char * const out,
unsigned long long outlen,
const char * const passwd, unsigned long long passwdlen,
const unsigned char * const salt,
unsigned long long opslimit, size_t memlimit, int alg)
= NULL;
static void (*dll_randombytes_buf)(void * const buf, const size_t size);
static uint32_t (*dll_randombytes_random)(void);
static struct {
const char *name;
SODIUM_PROC *ptr;
} sodium_funcname_table[] = {
{"sodium_init", (SODIUM_PROC*)&dll_sodium_init},
{"sodium_free", (SODIUM_PROC*)&dll_sodium_free},
{"sodium_malloc", (SODIUM_PROC*)&dll_sodium_malloc},
{"sodium_memzero", (SODIUM_PROC*)&dll_sodium_memzero},
{"sodium_mlock", (SODIUM_PROC*)&dll_sodium_mlock},
{"sodium_munlock", (SODIUM_PROC*)&dll_sodium_munlock},
{"crypto_secretstream_xchacha20poly1305_init_push", (SODIUM_PROC*)&dll_crypto_secretstream_xchacha20poly1305_init_push},
{"crypto_secretstream_xchacha20poly1305_push", (SODIUM_PROC*)&dll_crypto_secretstream_xchacha20poly1305_push},
{"crypto_secretstream_xchacha20poly1305_init_pull", (SODIUM_PROC*)&dll_crypto_secretstream_xchacha20poly1305_init_pull},
{"crypto_secretstream_xchacha20poly1305_pull", (SODIUM_PROC*)&dll_crypto_secretstream_xchacha20poly1305_pull},
{"crypto_pwhash", (SODIUM_PROC*)&dll_crypto_pwhash},
{"randombytes_buf", (SODIUM_PROC*)&dll_randombytes_buf},
{"randombytes_random", (SODIUM_PROC*)&dll_randombytes_random},
{NULL, NULL}
};
static int
sodium_runtime_link_init(int verbose)
{
static HINSTANCE hsodium = NULL;
const char *libname = DYNAMIC_SODIUM_DLL;
int i;
if (hsodium != NULL)
return OK;
hsodium = load_dll(libname);
if (hsodium == NULL)
{
if (verbose)
semsg(_(e_could_not_load_library_str_str), libname, load_dll_error());
return FAIL;
}
for (i = 0; sodium_funcname_table[i].ptr; ++i)
{
if ((*sodium_funcname_table[i].ptr = symbol_from_dll(hsodium,
sodium_funcname_table[i].name)) == NULL)
{
close_dll(hsodium);
hsodium = NULL;
if (verbose)
semsg(_(e_could_not_load_library_function_str), sodium_funcname_table[i].name);
return FAIL;
}
}
return OK;
}
static int
load_sodium(void)
{
if (sodium_runtime_link_init(TRUE) == FAIL)
return -1;
return dll_sodium_init();
}
# endif
# if defined(DYNAMIC_SODIUM)
int
sodium_enabled(int verbose)
{
return sodium_runtime_link_init(verbose) == OK;
}
# endif
#endif
#define CRYPT_MAGIC_LEN 12 // cannot change
static const char crypt_magic_head[] = "VimCrypt~";
/*
* Return int value for crypt method name.
* 0 for "zip", the old method. Also for any non-valid value.
* 1 for "blowfish".
* 2 for "blowfish2".
*/
int
crypt_method_nr_from_name(char_u *name)
{
int i;
for (i = 0; i < CRYPT_M_COUNT; ++i)
if (STRCMP(name, cryptmethods[i].name) == 0)
return i;
return 0;
}
/*
* Get the crypt method used for a file from "ptr[len]", the magic text at the
* start of the file.
* Returns -1 when no encryption used.
*/
int
crypt_method_nr_from_magic(char *ptr, int len)
{
int i;
if (len < CRYPT_MAGIC_LEN)
return -1;
for (i = 0; i < CRYPT_M_COUNT; i++)
if (memcmp(ptr, cryptmethods[i].magic, CRYPT_MAGIC_LEN) == 0)
return i;
i = (int)STRLEN(crypt_magic_head);
if (len >= i && memcmp(ptr, crypt_magic_head, i) == 0)
emsg(_(e_file_is_encrypted_with_unknown_method));
return -1;
}
#ifdef CRYPT_NOT_INPLACE
/*
* Return TRUE if the crypt method for "method_nr" can be done in-place.
*/
int
crypt_works_inplace(cryptstate_T *state)
{
return cryptmethods[state->method_nr].works_inplace;
}
#endif
/*
* Get the crypt method for buffer "buf" as a number.
*/
int
crypt_get_method_nr(buf_T *buf)
{
return crypt_method_nr_from_name(*buf->b_p_cm == NUL ? p_cm : buf->b_p_cm);
}
/*
* Returns True for Sodium Encryption.
*/
int
crypt_method_is_sodium(int method)
{
return method == CRYPT_M_SOD || method == CRYPT_M_SOD2;
}
/*
* Return TRUE when the buffer uses an encryption method that encrypts the
* whole undo file, not only the text.
*/
int
crypt_whole_undofile(int method_nr)
{
return cryptmethods[method_nr].whole_undofile;
}
/*
* Get crypt method specific length of the file header in bytes.
*/
int
crypt_get_header_len(int method_nr)
{
return CRYPT_MAGIC_LEN
+ cryptmethods[method_nr].salt_len
+ cryptmethods[method_nr].seed_len
+ cryptmethods[method_nr].add_len;
}
#if defined(FEAT_SODIUM)
/*
* Get maximum crypt method specific length of the file header in bytes.
*/
int
crypt_get_max_header_len(void)
{
int i;
int max = 0;
int temp = 0;
for (i = 0; i < CRYPT_M_COUNT; ++i)
{
temp = crypt_get_header_len(i);
if (temp > max)
max = temp;
}
return max;
}
#endif
/*
* Set the crypt method for buffer "buf" to "method_nr" using the int value as
* returned by crypt_method_nr_from_name().
*/
void
crypt_set_cm_option(buf_T *buf, int method_nr)
{
free_string_option(buf->b_p_cm);
buf->b_p_cm = vim_strsave((char_u *)cryptmethods[method_nr].name);
}
/*
* If the crypt method for the current buffer has a self-test, run it and
* return OK/FAIL.
*/
int
crypt_self_test(void)
{
int method_nr = crypt_get_method_nr(curbuf);
if (cryptmethods[method_nr].self_test_fn == NULL)
return OK;
return cryptmethods[method_nr].self_test_fn();
}
/*
* Allocate a crypt state and initialize it.
* Return NULL for failure.
*/
cryptstate_T *
crypt_create(
int method_nr,
char_u *key,
crypt_arg_T *crypt_arg)
{
cryptstate_T *state = ALLOC_ONE(cryptstate_T);
if (state == NULL)
return state;
state->method_nr = method_nr;
if (cryptmethods[method_nr].init_fn(state, key, crypt_arg) == FAIL)
{
vim_free(state);
return NULL;
}
return state;
}
/*
* Allocate a crypt state from a file header and initialize it.
* Assumes that header contains at least the number of bytes that
* crypt_get_header_len() returns for "method_nr".
*/
cryptstate_T *
crypt_create_from_header(
int method_nr,
char_u *key,
char_u *header)
{
crypt_arg_T arg;
CLEAR_FIELD(arg);
arg.cat_init_from_file = TRUE;
arg.cat_salt_len = cryptmethods[method_nr].salt_len;
arg.cat_seed_len = cryptmethods[method_nr].seed_len;
arg.cat_add_len = cryptmethods[method_nr].add_len;
if (arg.cat_salt_len > 0)
arg.cat_salt = header + CRYPT_MAGIC_LEN;
if (arg.cat_seed_len > 0)
arg.cat_seed = header + CRYPT_MAGIC_LEN + arg.cat_salt_len;
if (arg.cat_add_len > 0)
arg.cat_add = header + CRYPT_MAGIC_LEN
+ arg.cat_salt_len + arg.cat_seed_len;
return crypt_create(method_nr, key, &arg);
}
/*
* Read the crypt method specific header data from "fp".
* Return an allocated cryptstate_T or NULL on error.
*/
cryptstate_T *
crypt_create_from_file(FILE *fp, char_u *key)
{
int method_nr;
int header_len;
char magic_buffer[CRYPT_MAGIC_LEN];
char_u *buffer;
cryptstate_T *state;
if (fread(magic_buffer, CRYPT_MAGIC_LEN, 1, fp) != 1)
return NULL;
method_nr = crypt_method_nr_from_magic(magic_buffer, CRYPT_MAGIC_LEN);
if (method_nr < 0)
return NULL;
header_len = crypt_get_header_len(method_nr);
if ((buffer = alloc(header_len)) == NULL)
return NULL;
mch_memmove(buffer, magic_buffer, CRYPT_MAGIC_LEN);
if (header_len > CRYPT_MAGIC_LEN
&& fread(buffer + CRYPT_MAGIC_LEN,
header_len - CRYPT_MAGIC_LEN, 1, fp) != 1)
{
vim_free(buffer);
return NULL;
}
state = crypt_create_from_header(method_nr, key, buffer);
vim_free(buffer);
return state;
}
/*
* Allocate a cryptstate_T for writing and initialize it with "key".
* Allocates and fills in the header and stores it in "header", setting
* "header_len". The header may include salt and seed, depending on
* cryptmethod. Caller must free header.
* Returns the state or NULL on failure.
*/
cryptstate_T *
crypt_create_for_writing(
int method_nr,
char_u *key,
char_u **header,
int *header_len)
{
int len = crypt_get_header_len(method_nr);
crypt_arg_T arg;
cryptstate_T *state;
CLEAR_FIELD(arg);
arg.cat_salt_len = cryptmethods[method_nr].salt_len;
arg.cat_seed_len = cryptmethods[method_nr].seed_len;
arg.cat_add_len = cryptmethods[method_nr].add_len;
arg.cat_init_from_file = FALSE;
*header_len = len;
*header = alloc(len);
if (*header == NULL)
return NULL;
mch_memmove(*header, cryptmethods[method_nr].magic, CRYPT_MAGIC_LEN);
if (arg.cat_salt_len > 0 || arg.cat_seed_len > 0 || arg.cat_add_len > 0)
{
if (arg.cat_salt_len > 0)
arg.cat_salt = *header + CRYPT_MAGIC_LEN;
if (arg.cat_seed_len > 0)
arg.cat_seed = *header + CRYPT_MAGIC_LEN + arg.cat_salt_len;
if (arg.cat_add_len > 0)
arg.cat_add = *header + CRYPT_MAGIC_LEN
+ arg.cat_salt_len + arg.cat_seed_len;
// TODO: Should this be crypt method specific? (Probably not worth
// it). sha2_seed is pretty bad for large amounts of entropy, so make
// that into something which is suitable for anything.
#ifdef FEAT_SODIUM
if (sodium_init() >= 0)
{
if (arg.cat_salt_len > 0)
randombytes_buf(arg.cat_salt, arg.cat_salt_len);
if (arg.cat_seed_len > 0)
randombytes_buf(arg.cat_seed, arg.cat_seed_len);
}
else
#endif
sha2_seed(arg.cat_salt, arg.cat_salt_len, arg.cat_seed, arg.cat_seed_len);
}
state = crypt_create(method_nr, key, &arg);
if (state == NULL)
VIM_CLEAR(*header);
return state;
}
/*
* Free the crypt state.
*/
void
crypt_free_state(cryptstate_T *state)
{
#ifdef FEAT_SODIUM
if (crypt_method_is_sodium(state->method_nr))
{
sodium_munlock(((sodium_state_T *)state->method_state)->key,
crypto_box_SEEDBYTES);
sodium_memzero(state->method_state, sizeof(sodium_state_T));
sodium_free(state->method_state);
}
else
#endif
vim_free(state->method_state);
vim_free(state);
}
#ifdef CRYPT_NOT_INPLACE
/*
* Encode "from[len]" and store the result in a newly allocated buffer, which
* is stored in "newptr".
* Return number of bytes in "newptr", 0 for need more or -1 on error.
*/
long
crypt_encode_alloc(
cryptstate_T *state,
char_u *from,
size_t len,
char_u **newptr,
int last)
{
cryptmethod_T *method = &cryptmethods[state->method_nr];
if (method->encode_buffer_fn != NULL)
// Has buffer function, pass through.
return method->encode_buffer_fn(state, from, len, newptr, last);
if (len == 0)
// Not buffering, just return EOF.
return (long)len;
*newptr = alloc(len + 50);
if (*newptr == NULL)
return -1;
method->encode_fn(state, from, len, *newptr, last);
return (long)len;
}
/*
* Decrypt "ptr[len]" and store the result in a newly allocated buffer, which
* is stored in "newptr".
* Return number of bytes in "newptr", 0 for need more or -1 on error.
*/
long
crypt_decode_alloc(
cryptstate_T *state,
char_u *ptr,
long len,
char_u **newptr,
int last)
{
cryptmethod_T *method = &cryptmethods[state->method_nr];
if (method->decode_buffer_fn != NULL)
// Has buffer function, pass through.
return method->decode_buffer_fn(state, ptr, len, newptr, last);
if (len == 0)
// Not buffering, just return EOF.
return len;
*newptr = alloc(len);
if (*newptr == NULL)
return -1;
method->decode_fn(state, ptr, len, *newptr, last);
return len;
}
#endif
/*
* Encrypting "from[len]" into "to[len]".
*/
void
crypt_encode(
cryptstate_T *state,
char_u *from,
size_t len,
char_u *to,
int last)
{
cryptmethods[state->method_nr].encode_fn(state, from, len, to, last);
}
#if 0 // unused
/*
* decrypting "from[len]" into "to[len]".
*/
void
crypt_decode(
cryptstate_T *state,
char_u *from,
size_t len,
char_u *to,
int last)
{
cryptmethods[state->method_nr].decode_fn(state, from, len, to, last);
}
#endif
/*
* Simple inplace encryption, modifies "buf[len]" in place.
*/
void
crypt_encode_inplace(
cryptstate_T *state,
char_u *buf,
size_t len,
int last)
{
cryptmethods[state->method_nr].encode_inplace_fn(state, buf, len,
buf, last);
}
/*
* Simple inplace decryption, modifies "buf[len]" in place.
*/
void
crypt_decode_inplace(
cryptstate_T *state,
char_u *buf,
size_t len,
int last)
{
cryptmethods[state->method_nr].decode_inplace_fn(state, buf, len,
buf, last);
}
/*
* Free an allocated crypt key. Clear the text to make sure it doesn't stay
* in memory anywhere.
*/
void
crypt_free_key(char_u *key)
{
// Create a safe memset which cannot be optimized away by compiler
static void *(* volatile vim_memset_safe)(void *s, int c, size_t n) =
memset;
if (key != NULL)
{
#ifdef FEAT_SODIUM
if (sodium_init() >= 0)
sodium_memzero(key, STRLEN(key));
else
#endif
vim_memset_safe(key, 0, STRLEN(key));
vim_free(key);
}
}
/*
* Check the crypt method and give a warning if it's outdated.
*/
void
crypt_check_method(int method)
{
if (method < CRYPT_M_BF2 || method == CRYPT_M_SOD)
{
msg_scroll = TRUE;
msg(_("Warning: Using a weak encryption method; see :help 'cm'"));
}
}
/*
* If the crypt method for "curbuf" does not support encrypting the swap file
* then disable the swap file.
*/
void
crypt_check_swapfile_curbuf(void)
{
#ifdef FEAT_SODIUM
int method = crypt_get_method_nr(curbuf);
if (crypt_method_is_sodium(method))
{
// encryption uses padding and MAC, that does not work very well with
// swap and undo files, so disable them
mf_close_file(curbuf, TRUE); // remove the swap file
set_option_value_give_err((char_u *)"swf", 0, NULL, OPT_LOCAL);
msg_scroll = TRUE;
msg(_("Note: Encryption of swapfile not supported, disabling swap file"));
}
#endif
}
void
crypt_check_current_method(void)
{
crypt_check_method(crypt_get_method_nr(curbuf));
}
/*
* Ask the user for a crypt key.
* When "store" is TRUE, the new key is stored in the 'key' option, and the
* 'key' option value is returned: Don't free it.
* When "store" is FALSE, the typed key is returned in allocated memory.
* Returns NULL on failure.
*/
char_u *
crypt_get_key(
int store,
int twice) // Ask for the key twice.
{
char_u *p1, *p2 = NULL;
int round;
for (round = 0; ; ++round)
{
cmdline_star = TRUE;
cmdline_row = msg_row;
p1 = getcmdline_prompt(NUL, round == 0
? (char_u *)_("Enter encryption key: ")
: (char_u *)_("Enter same key again: "), 0, EXPAND_NOTHING,
NULL);
cmdline_star = FALSE;
if (p1 == NULL)
break;
if (round == twice)
{
if (p2 != NULL && STRCMP(p1, p2) != 0)
{
msg(_("Keys don't match!"));
crypt_free_key(p1);
crypt_free_key(p2);
p2 = NULL;
round = -1; // do it again
continue;
}
if (store)
{
set_option_value_give_err((char_u *)"key", 0L, p1, OPT_LOCAL);
crypt_free_key(p1);
p1 = curbuf->b_p_key;
crypt_check_swapfile_curbuf();
}
break;
}
p2 = p1;
}
// since the user typed this, no need to wait for return
if (!crypt_method_is_sodium(crypt_get_method_nr(curbuf)))
{
if (msg_didout)
msg_putchar('\n');
need_wait_return = FALSE;
msg_didout = FALSE;
}
crypt_free_key(p2);
return p1;
}
/*
* Append a message to IObuff for the encryption/decryption method being used.
*/
void
crypt_append_msg(
buf_T *buf)
{
if (crypt_get_method_nr(buf) == 0)
STRCAT(IObuff, _("[crypted]"));
else
{
STRCAT(IObuff, "[");
STRCAT(IObuff, *buf->b_p_cm == NUL ? p_cm : buf->b_p_cm);
STRCAT(IObuff, "]");
}
}
static int
crypt_sodium_init_(
cryptstate_T *state UNUSED,
char_u *key UNUSED,
crypt_arg_T *arg UNUSED)
{
#ifdef FEAT_SODIUM
// crypto_box_SEEDBYTES == crypto_secretstream_xchacha20poly1305_KEYBYTES
unsigned char dkey[crypto_box_SEEDBYTES]; // 32
sodium_state_T *sd_state;
int retval = 0;
unsigned long long opslimit;
unsigned long long memlimit;
int alg;
if (sodium_init() < 0)
return FAIL;
sd_state = (sodium_state_T *)sodium_malloc(sizeof(sodium_state_T));
sodium_memzero(sd_state, sizeof(sodium_state_T));
if ((state->method_nr == CRYPT_M_SOD2 && !arg->cat_init_from_file)
|| state->method_nr == CRYPT_M_SOD)
{
opslimit = crypto_pwhash_OPSLIMIT_INTERACTIVE;
memlimit = crypto_pwhash_MEMLIMIT_INTERACTIVE;
alg = crypto_pwhash_ALG_DEFAULT;
# if 0
// For testing
if (state->method_nr == CRYPT_M_SOD2)
{
opslimit = crypto_pwhash_OPSLIMIT_MODERATE;
memlimit = crypto_pwhash_MEMLIMIT_MODERATE;
}
# endif
// derive a key from the password
if (crypto_pwhash(dkey, sizeof(dkey), (const char *)key, STRLEN(key),
arg->cat_salt, opslimit, (size_t)memlimit, alg) != 0)
{
// out of memory
sodium_free(sd_state);
return FAIL;
}
memcpy(sd_state->key, dkey, crypto_box_SEEDBYTES);
retval += sodium_mlock(sd_state->key, crypto_box_SEEDBYTES);
retval += sodium_mlock(key, STRLEN(key));
if (retval < 0)
{
emsg(_(e_encryption_sodium_mlock_failed));
sodium_free(sd_state);
return FAIL;
}
// "cat_add" should not be NULL, check anyway for safety
if (state->method_nr == CRYPT_M_SOD2 && arg->cat_add != NULL)
{
char_u buffer[20];
char_u *p = buffer;
vim_memset(buffer, 0, 20);
crypt_long_long_to_char(opslimit, p);
p += sizeof(opslimit);
crypt_long_long_to_char(memlimit, p);
p += sizeof(memlimit);
crypt_int_to_char(alg, p);
memcpy(arg->cat_add, buffer, sizeof(opslimit) + sizeof(memlimit) + sizeof(alg));
}
}
else
{
char_u buffer[20];
char_u *p = buffer;
vim_memset(buffer, 0, 20);
int size = sizeof(opslimit) +
sizeof(memlimit) + sizeof(alg);
// Reading parameters from file
if (arg->cat_add_len < size)
{
sodium_free(sd_state);
return FAIL;
}
// derive the key from the file header
memcpy(p, arg->cat_add, size);
arg->cat_add += size;
opslimit = crypt_char_to_long_long(p);
p += sizeof(opslimit);
memlimit = crypt_char_to_long_long(p);
p += sizeof(memlimit);
alg = crypt_char_to_int(p);
p += sizeof(alg);
# ifdef FEAT_EVAL
crypt_sodium_report_hash_params(opslimit,
crypto_pwhash_OPSLIMIT_INTERACTIVE,
(size_t)memlimit, crypto_pwhash_MEMLIMIT_INTERACTIVE,
alg, crypto_pwhash_ALG_DEFAULT);
# endif
if (crypto_pwhash(dkey, sizeof(dkey), (const char *)key, STRLEN(key),
arg->cat_salt, opslimit, (size_t)memlimit, alg) != 0)
{
// out of memory
sodium_free(sd_state);
return FAIL;
}
memcpy(sd_state->key, dkey, crypto_box_SEEDBYTES);
retval += sodium_mlock(sd_state->key, crypto_box_SEEDBYTES);
retval += sodium_mlock(key, STRLEN(key));
if (retval < 0)
{
emsg(_(e_encryption_sodium_mlock_failed));
sodium_free(sd_state);
return FAIL;
}
}
sd_state->count = 0;
state->method_state = sd_state;
return OK;
#else
emsg(_(e_libsodium_not_built_in));
return FAIL;
#endif
}
/*
* Encrypt "from[len]" into "to[len]".
* "from" and "to" can be equal to encrypt in place.
* Call needs to ensure that there is enough space in to (for the header)
*/
#if 0 // Currently unused
void
crypt_sodium_encode(
cryptstate_T *state UNUSED,
char_u *from UNUSED,
size_t len UNUSED,
char_u *to UNUSED,
int last UNUSED)
{
# ifdef FEAT_SODIUM
// crypto_box_SEEDBYTES == crypto_secretstream_xchacha20poly1305_KEYBYTES
sodium_state_T *sod_st = state->method_state;
unsigned char tag = last
? crypto_secretstream_xchacha20poly1305_TAG_FINAL : 0;
if (sod_st->count == 0)
{
if (len <= crypto_secretstream_xchacha20poly1305_HEADERBYTES)
{
emsg(_(e_libsodium_cannot_encrypt_header));
return;
}
crypto_secretstream_xchacha20poly1305_init_push(&sod_st->state,
to, sod_st->key);
to += crypto_secretstream_xchacha20poly1305_HEADERBYTES;
}
if (sod_st->count && len <= crypto_secretstream_xchacha20poly1305_ABYTES)
{
emsg(_(e_libsodium_cannot_encrypt_buffer));
return;
}
crypto_secretstream_xchacha20poly1305_push(&sod_st->state, to, NULL,
from, len, NULL, 0, tag);
sod_st->count++;
# endif
}
#endif
/*
* Decrypt "from[len]" into "to[len]".
* "from" and "to" can be equal to encrypt in place.
*/
#if 0 // Currently unused
void
crypt_sodium_decode(
cryptstate_T *state UNUSED,
char_u *from UNUSED,
size_t len UNUSED,
char_u *to UNUSED,
int last UNUSED)
{
# ifdef FEAT_SODIUM
// crypto_box_SEEDBYTES == crypto_secretstream_xchacha20poly1305_KEYBYTES
sodium_state_T *sod_st = state->method_state;
unsigned char tag;
unsigned long long buf_len;
char_u *p1 = from;
char_u *p2 = to;
char_u *buf_out;
if (sod_st->count == 0
&& len <= crypto_secretstream_xchacha20poly1305_HEADERBYTES)
{
emsg(_(e_libsodium_cannot_decrypt_header));
return;
}
buf_out = (char_u *)alloc(len);
if (buf_out == NULL)
{
emsg(_(e_libsodium_cannot_allocate_buffer));
return;
}
if (sod_st->count == 0)
{
if (crypto_secretstream_xchacha20poly1305_init_pull(
&sod_st->state, from, sod_st->key) != 0)
{
emsg(_(e_libsodium_decryption_failed_header_incomplete));
goto fail;
}
from += crypto_secretstream_xchacha20poly1305_HEADERBYTES;
len -= crypto_secretstream_xchacha20poly1305_HEADERBYTES;
if (p1 == p2)
to += crypto_secretstream_xchacha20poly1305_HEADERBYTES;
}
if (sod_st->count && len <= crypto_secretstream_xchacha20poly1305_ABYTES)
{
emsg(_(e_libsodium_cannot_decrypt_buffer));
goto fail;
}
if (crypto_secretstream_xchacha20poly1305_pull(&sod_st->state,
buf_out, &buf_len, &tag, from, len, NULL, 0) != 0)
{
emsg(_(e_libsodium_decryption_failed));
goto fail;
}
sod_st->count++;
if (tag == crypto_secretstream_xchacha20poly1305_TAG_FINAL && !last)
{
emsg(_(e_libsodium_decryption_failed_premature));
goto fail;
}
if (p1 == p2)
mch_memmove(p2, buf_out, buf_len);
fail:
vim_free(buf_out);
# endif
}
#endif
/*
* Encrypt "from[len]" into "to[len]".
* "from" and "to" can be equal to encrypt in place.
*/
static long
crypt_sodium_buffer_encode(
cryptstate_T *state UNUSED,
char_u *from UNUSED,
size_t len UNUSED,
char_u **buf_out UNUSED,
int last UNUSED)
{
#ifdef FEAT_SODIUM
// crypto_box_SEEDBYTES == crypto_secretstream_xchacha20poly1305_KEYBYTES
unsigned long long out_len;
char_u *ptr;
unsigned char tag = last
? crypto_secretstream_xchacha20poly1305_TAG_FINAL : 0;
int length;
sodium_state_T *sod_st = state->method_state;
int first = (sod_st->count == 0);
length = (int)len + crypto_secretstream_xchacha20poly1305_ABYTES
+ (first ? crypto_secretstream_xchacha20poly1305_HEADERBYTES : 0);
*buf_out = alloc_clear(length);
if (*buf_out == NULL)
{
emsg(_(e_libsodium_cannot_allocate_buffer));
return -1;
}
ptr = *buf_out;
if (first)
{
crypto_secretstream_xchacha20poly1305_init_push(&sod_st->state,
ptr, sod_st->key);
ptr += crypto_secretstream_xchacha20poly1305_HEADERBYTES;
}
crypto_secretstream_xchacha20poly1305_push(&sod_st->state, ptr,
&out_len, from, len, NULL, 0, tag);
sod_st->count++;
return out_len + (first
? crypto_secretstream_xchacha20poly1305_HEADERBYTES : 0);
#else
return -1;
#endif
}
/*
* Decrypt "from[len]" into "to[len]".
* "from" and "to" can be equal to encrypt in place.
*/
static long
crypt_sodium_buffer_decode(
cryptstate_T *state UNUSED,
char_u *from UNUSED,
size_t len UNUSED,
char_u **buf_out UNUSED,
int last UNUSED)
{
#ifdef FEAT_SODIUM
// crypto_box_SEEDBYTES == crypto_secretstream_xchacha20poly1305_KEYBYTES
sodium_state_T *sod_st = state->method_state;
unsigned char tag;
unsigned long long out_len;
if (sod_st->count == 0
&& state->method_nr == CRYPT_M_SOD
&& len > WRITEBUFSIZE
+ crypto_secretstream_xchacha20poly1305_HEADERBYTES
+ crypto_secretstream_xchacha20poly1305_ABYTES)
len -= cryptmethods[CRYPT_M_SOD2].add_len;
*buf_out = alloc_clear(len);
if (*buf_out == NULL)
{
emsg(_(e_libsodium_cannot_allocate_buffer));
return -1;
}
if (sod_st->count == 0)
{
if (crypto_secretstream_xchacha20poly1305_init_pull(&sod_st->state,
from, sod_st->key) != 0)
{
emsg(_(e_libsodium_decryption_failed_header_incomplete));
return -1;
}
from += crypto_secretstream_xchacha20poly1305_HEADERBYTES;
len -= crypto_secretstream_xchacha20poly1305_HEADERBYTES;
sod_st->count++;
}
if (crypto_secretstream_xchacha20poly1305_pull(&sod_st->state,
*buf_out, &out_len, &tag, from, len, NULL, 0) != 0)
{
emsg(_(e_libsodium_decryption_failed));
return -1;
}
if (tag == crypto_secretstream_xchacha20poly1305_TAG_FINAL && !last)
emsg(_(e_libsodium_decryption_failed_premature));
return (long) out_len;
#else
return -1;
#endif
}
#if defined(FEAT_SODIUM)
void
crypt_sodium_lock_key(char_u *key)
{
if (sodium_init() >= 0)
sodium_mlock(key, STRLEN(key));
}
int
crypt_sodium_munlock(void *const addr, const size_t len)
{
return sodium_munlock(addr, len);
}
void
crypt_sodium_randombytes_buf(void *const buf, const size_t size)
{
randombytes_buf(buf, size);
}
int
crypt_sodium_init(void)
{
return sodium_init();
}
UINT32_T
crypt_sodium_randombytes_random(void)
{
return randombytes_random();
}
# if defined(FEAT_EVAL)
static void
crypt_sodium_report_hash_params(
unsigned long long opslimit,
unsigned long long ops_def,
size_t memlimit,
size_t mem_def,
int alg,
int alg_def)
{
if (p_verbose > 0)
{
verbose_enter();
if (opslimit != ops_def)
smsg(_("xchacha20v2: using custom opslimit \"%llu\" for Key derivation."), opslimit);
else
smsg(_("xchacha20v2: using default opslimit \"%llu\" for Key derivation."), opslimit);
if (memlimit != mem_def)
smsg(_("xchacha20v2: using custom memlimit \"%lu\" for Key derivation."), (unsigned long)memlimit);
else
smsg(_("xchacha20v2: using default memlimit \"%lu\" for Key derivation."), (unsigned long)memlimit);
if (alg != alg_def)
smsg(_("xchacha20v2: using custom algorithm \"%d\" for Key derivation."), alg);
else
smsg(_("xchacha20v2: using default algorithm \"%d\" for Key derivation."), alg);
verbose_leave();
}
}
# endif
static void
crypt_long_long_to_char(long long n, char_u *s)
{
int i;
for (i = 0; i < 8; i++)
{
s[i] = (char_u)(n & 0xff);
n = (unsigned long long)n >> 8;
}
}
static void
crypt_int_to_char(int n, char_u *s)
{
int i;
for (i = 0; i < 4; i++)
{
s[i] = (char_u)(n & 0xff);
n = (unsigned long long)n >> 8;
}
}
static long long
crypt_char_to_long_long(char_u *s)
{
unsigned long long retval = 0;
int i;
for (i = 7; i >= 0; i--)
{
if (i == 7)
retval = s[i];
else
retval |= s[i];
if (i > 0)
retval <<= 8;
}
return retval;
}
static int
crypt_char_to_int(char_u *s)
{
int retval = 0;
int i;
for (i = 3; i >= 0; i--)
{
if (i == 3)
retval = s[i];
else
retval |= s[i];
if (i > 0)
retval <<= 8;
}
return retval;
}
#endif
#endif // FEAT_CRYPT
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