/*
- silcrng.c
+ silcrng.c
- Author: Pekka Riikonen <priikone@poseidon.pspt.fi>
+ Author: Pekka Riikonen <priikone@silcnet.org>
- Copyright (C) 1997 - 2001 Pekka Riikonen
+ Copyright (C) 1997 - 2002 Pekka Riikonen
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
- the Free Software Foundation; either version 2 of the License, or
- (at your option) any later version.
-
+ the Free Software Foundation; version 2 of the License.
+
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
/* Byte size of the random data pool. */
#define SILC_RNG_POOLSIZE 1024
-static uint32 silc_rng_get_position(SilcRng rng);
+static SilcUInt32 silc_rng_get_position(SilcRng rng);
static void silc_rng_stir_pool(SilcRng rng);
-static void silc_rng_xor(SilcRng rng, uint32 val, unsigned int pos);
+static void silc_rng_xor(SilcRng rng, SilcUInt32 val, unsigned int pos);
static void silc_rng_exec_command(SilcRng rng, char *command);
static void silc_rng_get_hard_noise(SilcRng rng);
static void silc_rng_get_medium_noise(SilcRng rng);
from the same point of the pool. Short description of the fields
following.
- uint32 low
- uint32 pos
+ SilcUInt32 low
+ SilcUInt32 pos
The index for the random pool buffer. Lowest and current
positions.
*/
typedef struct SilcRngStateContext {
- uint32 low;
- uint32 pos;
+ SilcUInt32 low;
+ SilcUInt32 pos;
struct SilcRngStateContext *next;
} *SilcRngState;
random pool. This is allocated when RNG object is allocated and
free'd when RNG object is free'd.
- uint8 threshhold
+ SilcUInt8 threshold
- Threshhold to indicate when it is required to acquire more
+ Threshold to indicate when it is required to acquire more
noise from the environment. More soft noise is acquired after
64 bits of output and hard noise every 160 bits of output.
*/
-typedef struct SilcRngObjectStruct {
+struct SilcRngStruct {
unsigned char pool[SILC_RNG_POOLSIZE];
unsigned char key[64];
SilcRngState state;
SilcHash sha1;
- uint8 threshhold;
+ SilcUInt8 threshold;
char *devrandom;
int fd_devurandom;
-} SilcRngObject;
+};
/* Allocates new RNG object. */
-SilcRng silc_rng_alloc()
+SilcRng silc_rng_alloc(void)
{
SilcRng new;
memset(new->pool, 0, sizeof(new->pool));
memset(new->key, 0, sizeof(new->key));
new->state = NULL;
- silc_hash_alloc("sha1", &new->sha1);
+ if (!silc_hash_alloc("sha1", &new->sha1)) {
+ silc_free(new);
+ SILC_LOG_ERROR(("Could not allocate sha1 hash, probably not registered"));
+ return NULL;
+ }
new->devrandom = strdup("/dev/random");
#ifndef SILC_WIN32
struct tms ptime;
#endif
- uint32 pos;
+ SilcUInt32 pos;
pos = silc_rng_get_position(rng);
pclose(fd);
/* Add the buffer into random pool */
- silc_rng_add_noise(rng, buf, strlen(buf));
+ silc_rng_add_noise(rng, buf, i);
memset(buf, 0, sizeof(buf));
#endif
}
/* This function adds the contents of the buffer as noise into random
pool. After adding the noise the pool is stirred. */
-void silc_rng_add_noise(SilcRng rng, unsigned char *buffer, uint32 len)
+void silc_rng_add_noise(SilcRng rng, unsigned char *buffer, SilcUInt32 len)
{
- uint32 i, pos;
+ SilcUInt32 i, pos;
pos = silc_rng_get_position(rng);
/* XOR's data into the pool */
-static void silc_rng_xor(SilcRng rng, uint32 val, unsigned int pos)
+static void silc_rng_xor(SilcRng rng, SilcUInt32 val, unsigned int pos)
{
assert(rng != NULL);
rng->pool[pos] ^= val + val;
static void silc_rng_stir_pool(SilcRng rng)
{
int i;
- uint32 iv[5];
+ SilcUInt32 iv[5];
/* Get the IV */
memcpy(iv, &rng->pool[16], sizeof(iv));
/* Returns next position where data is fetched from the pool or
put to the pool. */
-static uint32 silc_rng_get_position(SilcRng rng)
+static SilcUInt32 silc_rng_get_position(SilcRng rng)
{
SilcRngState next;
- uint32 pos;
+ SilcUInt32 pos;
next = rng->state->next;
/* Returns random byte. */
-unsigned char silc_rng_get_byte(SilcRng rng)
+SilcUInt8 silc_rng_get_byte(SilcRng rng)
{
- rng->threshhold++;
+ rng->threshold++;
- /* Get more soft noise after 64 bits threshhold */
- if (rng->threshhold >= 8)
+ /* Get more soft noise after 64 bits threshold */
+ if (rng->threshold >= 8)
silc_rng_get_soft_noise(rng);
- /* Get hard noise after 160 bits threshhold, zero the threshhold. */
- if (rng->threshhold >= 20) {
- rng->threshhold = 0;
+ /* Get hard noise after 160 bits threshold, zero the threshold. */
+ if (rng->threshold >= 20) {
+ rng->threshold = 0;
silc_rng_get_hard_noise(rng);
}
/* Returns 16 bit random number */
-uint16 silc_rng_get_rn16(SilcRng rng)
+SilcUInt16 silc_rng_get_rn16(SilcRng rng)
{
unsigned char rn[2];
- uint16 num;
+ SilcUInt16 num;
rn[0] = silc_rng_get_byte(rng);
rn[1] = silc_rng_get_byte(rng);
/* Returns 32 bit random number */
-uint32 silc_rng_get_rn32(SilcRng rng)
+SilcUInt32 silc_rng_get_rn32(SilcRng rng)
{
unsigned char rn[4];
- uint16 num;
+ SilcUInt16 num;
rn[0] = silc_rng_get_byte(rng);
rn[1] = silc_rng_get_byte(rng);
/* Returns random number string. Returned string is in HEX format. */
-unsigned char *silc_rng_get_rn_string(SilcRng rng, uint32 len)
+unsigned char *silc_rng_get_rn_string(SilcRng rng, SilcUInt32 len)
{
int i;
unsigned char *string;
/* Returns random number binary data. */
-unsigned char *silc_rng_get_rn_data(SilcRng rng, uint32 len)
+unsigned char *silc_rng_get_rn_data(SilcRng rng, SilcUInt32 len)
{
int i;
unsigned char *data;
/* Initialize global RNG. If `rng' is provided it is set as the global
RNG object (it can be allocated by the application for example). */
-int silc_rng_global_init(SilcRng rng)
+bool silc_rng_global_init(SilcRng rng)
{
if (rng)
global_rng = rng;
/* Uninitialize global RNG */
-int silc_rng_global_uninit()
+bool silc_rng_global_uninit(void)
{
if (global_rng) {
silc_rng_free(global_rng);
/* These are analogous to the functions above. */
-unsigned char silc_rng_global_get_byte()
+SilcUInt8 silc_rng_global_get_byte(void)
{
return global_rng ? silc_rng_get_byte(global_rng) : 0;
}
/* Return random byte as fast as possible. Reads from /dev/urandom if
available. If not then return from normal RNG (not so fast). */
-unsigned char silc_rng_global_get_byte_fast()
+SilcUInt8 silc_rng_global_get_byte_fast(void)
{
#ifndef SILC_WIN32
unsigned char buf[1];
#endif
}
-uint16 silc_rng_global_get_rn16()
+SilcUInt16 silc_rng_global_get_rn16(void)
{
return global_rng ? silc_rng_get_rn16(global_rng) : 0;
}
-uint32 silc_rng_global_get_rn32()
+SilcUInt32 silc_rng_global_get_rn32(void)
{
return global_rng ? silc_rng_get_rn32(global_rng) : 0;
}
-unsigned char *silc_rng_global_get_rn_string(uint32 len)
+unsigned char *silc_rng_global_get_rn_string(SilcUInt32 len)
{
return global_rng ? silc_rng_get_rn_string(global_rng, len) : NULL;
}
-unsigned char *silc_rng_global_get_rn_data(uint32 len)
+unsigned char *silc_rng_global_get_rn_data(SilcUInt32 len)
{
return global_rng ? silc_rng_get_rn_data(global_rng, len) : NULL;
}
-void silc_rng_global_add_noise(unsigned char *buffer, uint32 len)
+void silc_rng_global_add_noise(unsigned char *buffer, SilcUInt32 len)
{
if (global_rng)
silc_rng_add_noise(global_rng, buffer, len);
projects / silc.git / blobdiff