mirror of
https://github.com/openssl/openssl.git
synced 2024-12-21 06:09:35 +08:00
aa6bb1352b
Reviewed-by: Richard Levitte <levitte@openssl.org>
605 lines
16 KiB
C
605 lines
16 KiB
C
/*
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* Copyright 1995-2016 The OpenSSL Project Authors. All Rights Reserved.
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*
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* Licensed under the OpenSSL license (the "License"). You may not use
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* this file except in compliance with the License. You can obtain a copy
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* in the file LICENSE in the source distribution or at
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* https://www.openssl.org/source/license.html
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*/
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/*-
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From: Arne Ansper <arne@cyber.ee>
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Why BIO_f_reliable?
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I wrote function which took BIO* as argument, read data from it
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and processed it. Then I wanted to store the input file in
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encrypted form. OK I pushed BIO_f_cipher to the BIO stack
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and everything was OK. BUT if user types wrong password
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BIO_f_cipher outputs only garbage and my function crashes. Yes
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I can and I should fix my function, but BIO_f_cipher is
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easy way to add encryption support to many existing applications
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and it's hard to debug and fix them all.
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So I wanted another BIO which would catch the incorrect passwords and
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file damages which cause garbage on BIO_f_cipher's output.
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The easy way is to push the BIO_f_md and save the checksum at
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the end of the file. However there are several problems with this
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approach:
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1) you must somehow separate checksum from actual data.
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2) you need lot's of memory when reading the file, because you
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must read to the end of the file and verify the checksum before
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letting the application to read the data.
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BIO_f_reliable tries to solve both problems, so that you can
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read and write arbitrary long streams using only fixed amount
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of memory.
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BIO_f_reliable splits data stream into blocks. Each block is prefixed
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with it's length and suffixed with it's digest. So you need only
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several Kbytes of memory to buffer single block before verifying
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it's digest.
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BIO_f_reliable goes further and adds several important capabilities:
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1) the digest of the block is computed over the whole stream
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-- so nobody can rearrange the blocks or remove or replace them.
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2) to detect invalid passwords right at the start BIO_f_reliable
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adds special prefix to the stream. In order to avoid known plain-text
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attacks this prefix is generated as follows:
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*) digest is initialized with random seed instead of
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standardized one.
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*) same seed is written to output
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*) well-known text is then hashed and the output
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of the digest is also written to output.
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reader can now read the seed from stream, hash the same string
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and then compare the digest output.
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Bad things: BIO_f_reliable knows what's going on in EVP_Digest. I
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initially wrote and tested this code on x86 machine and wrote the
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digests out in machine-dependent order :( There are people using
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this code and I cannot change this easily without making existing
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data files unreadable.
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*/
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#include <stdio.h>
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#include <errno.h>
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#include <assert.h>
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#include "internal/cryptlib.h"
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#include <openssl/buffer.h>
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#include "internal/bio.h"
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#include <openssl/evp.h>
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#include <openssl/rand.h>
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#include "internal/evp_int.h"
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static int ok_write(BIO *h, const char *buf, int num);
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static int ok_read(BIO *h, char *buf, int size);
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static long ok_ctrl(BIO *h, int cmd, long arg1, void *arg2);
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static int ok_new(BIO *h);
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static int ok_free(BIO *data);
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static long ok_callback_ctrl(BIO *h, int cmd, bio_info_cb *fp);
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static __owur int sig_out(BIO *b);
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static __owur int sig_in(BIO *b);
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static __owur int block_out(BIO *b);
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static __owur int block_in(BIO *b);
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#define OK_BLOCK_SIZE (1024*4)
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#define OK_BLOCK_BLOCK 4
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#define IOBS (OK_BLOCK_SIZE+ OK_BLOCK_BLOCK+ 3*EVP_MAX_MD_SIZE)
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#define WELLKNOWN "The quick brown fox jumped over the lazy dog's back."
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typedef struct ok_struct {
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size_t buf_len;
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size_t buf_off;
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size_t buf_len_save;
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size_t buf_off_save;
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int cont; /* <= 0 when finished */
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int finished;
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EVP_MD_CTX *md;
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int blockout; /* output block is ready */
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int sigio; /* must process signature */
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unsigned char buf[IOBS];
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} BIO_OK_CTX;
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static const BIO_METHOD methods_ok = {
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BIO_TYPE_CIPHER, "reliable",
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ok_write,
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ok_read,
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NULL, /* ok_puts, */
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NULL, /* ok_gets, */
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ok_ctrl,
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ok_new,
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ok_free,
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ok_callback_ctrl,
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};
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const BIO_METHOD *BIO_f_reliable(void)
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{
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return (&methods_ok);
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}
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static int ok_new(BIO *bi)
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{
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BIO_OK_CTX *ctx;
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ctx = OPENSSL_zalloc(sizeof(*ctx));
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if (ctx == NULL)
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return 0;
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ctx->cont = 1;
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ctx->sigio = 1;
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ctx->md = EVP_MD_CTX_new();
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if (ctx->md == NULL) {
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OPENSSL_free(ctx);
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return 0;
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}
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BIO_set_init(bi, 0);
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BIO_set_data(bi, ctx);
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return 1;
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}
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static int ok_free(BIO *a)
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{
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BIO_OK_CTX *ctx;
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if (a == NULL)
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return 0;
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ctx = BIO_get_data(a);
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EVP_MD_CTX_free(ctx->md);
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OPENSSL_clear_free(ctx, sizeof(BIO_OK_CTX));
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BIO_set_data(a, NULL);
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BIO_set_init(a, 0);
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return 1;
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}
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static int ok_read(BIO *b, char *out, int outl)
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{
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int ret = 0, i, n;
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BIO_OK_CTX *ctx;
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BIO *next;
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if (out == NULL)
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return 0;
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ctx = BIO_get_data(b);
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next = BIO_next(b);
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if ((ctx == NULL) || (next == NULL) || (BIO_get_init(b) == 0))
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return 0;
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while (outl > 0) {
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/* copy clean bytes to output buffer */
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if (ctx->blockout) {
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i = ctx->buf_len - ctx->buf_off;
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if (i > outl)
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i = outl;
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memcpy(out, &(ctx->buf[ctx->buf_off]), i);
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ret += i;
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out += i;
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outl -= i;
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ctx->buf_off += i;
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/* all clean bytes are out */
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if (ctx->buf_len == ctx->buf_off) {
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ctx->buf_off = 0;
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/*
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* copy start of the next block into proper place
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*/
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if (ctx->buf_len_save - ctx->buf_off_save > 0) {
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ctx->buf_len = ctx->buf_len_save - ctx->buf_off_save;
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memmove(ctx->buf, &(ctx->buf[ctx->buf_off_save]),
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ctx->buf_len);
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} else {
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ctx->buf_len = 0;
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}
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ctx->blockout = 0;
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}
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}
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/* output buffer full -- cancel */
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if (outl == 0)
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break;
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/* no clean bytes in buffer -- fill it */
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n = IOBS - ctx->buf_len;
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i = BIO_read(next, &(ctx->buf[ctx->buf_len]), n);
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if (i <= 0)
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break; /* nothing new */
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ctx->buf_len += i;
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/* no signature yet -- check if we got one */
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if (ctx->sigio == 1) {
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if (!sig_in(b)) {
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BIO_clear_retry_flags(b);
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return 0;
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}
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}
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/* signature ok -- check if we got block */
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if (ctx->sigio == 0) {
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if (!block_in(b)) {
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BIO_clear_retry_flags(b);
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return 0;
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}
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}
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/* invalid block -- cancel */
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if (ctx->cont <= 0)
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break;
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}
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BIO_clear_retry_flags(b);
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BIO_copy_next_retry(b);
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return ret;
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}
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static int ok_write(BIO *b, const char *in, int inl)
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{
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int ret = 0, n, i;
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BIO_OK_CTX *ctx;
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BIO *next;
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if (inl <= 0)
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return inl;
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ctx = BIO_get_data(b);
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next = BIO_next(b);
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ret = inl;
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if ((ctx == NULL) || (next == NULL) || (BIO_get_init(b) == 0))
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return (0);
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if (ctx->sigio && !sig_out(b))
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return 0;
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do {
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BIO_clear_retry_flags(b);
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n = ctx->buf_len - ctx->buf_off;
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while (ctx->blockout && n > 0) {
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i = BIO_write(next, &(ctx->buf[ctx->buf_off]), n);
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if (i <= 0) {
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BIO_copy_next_retry(b);
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if (!BIO_should_retry(b))
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ctx->cont = 0;
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return (i);
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}
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ctx->buf_off += i;
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n -= i;
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}
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/* at this point all pending data has been written */
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ctx->blockout = 0;
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if (ctx->buf_len == ctx->buf_off) {
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ctx->buf_len = OK_BLOCK_BLOCK;
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ctx->buf_off = 0;
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}
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if ((in == NULL) || (inl <= 0))
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return (0);
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n = (inl + ctx->buf_len > OK_BLOCK_SIZE + OK_BLOCK_BLOCK) ?
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(int)(OK_BLOCK_SIZE + OK_BLOCK_BLOCK - ctx->buf_len) : inl;
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memcpy(&ctx->buf[ctx->buf_len], in, n);
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ctx->buf_len += n;
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inl -= n;
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in += n;
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if (ctx->buf_len >= OK_BLOCK_SIZE + OK_BLOCK_BLOCK) {
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if (!block_out(b)) {
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BIO_clear_retry_flags(b);
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return 0;
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}
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}
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} while (inl > 0);
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BIO_clear_retry_flags(b);
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BIO_copy_next_retry(b);
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return (ret);
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}
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static long ok_ctrl(BIO *b, int cmd, long num, void *ptr)
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{
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BIO_OK_CTX *ctx;
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EVP_MD *md;
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const EVP_MD **ppmd;
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long ret = 1;
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int i;
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BIO *next;
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ctx = BIO_get_data(b);
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next = BIO_next(b);
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switch (cmd) {
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case BIO_CTRL_RESET:
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ctx->buf_len = 0;
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ctx->buf_off = 0;
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ctx->buf_len_save = 0;
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ctx->buf_off_save = 0;
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ctx->cont = 1;
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ctx->finished = 0;
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ctx->blockout = 0;
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ctx->sigio = 1;
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ret = BIO_ctrl(next, cmd, num, ptr);
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break;
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case BIO_CTRL_EOF: /* More to read */
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if (ctx->cont <= 0)
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ret = 1;
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else
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ret = BIO_ctrl(next, cmd, num, ptr);
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break;
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case BIO_CTRL_PENDING: /* More to read in buffer */
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case BIO_CTRL_WPENDING: /* More to read in buffer */
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ret = ctx->blockout ? ctx->buf_len - ctx->buf_off : 0;
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if (ret <= 0)
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ret = BIO_ctrl(next, cmd, num, ptr);
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break;
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case BIO_CTRL_FLUSH:
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/* do a final write */
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if (ctx->blockout == 0)
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if (!block_out(b))
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return 0;
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while (ctx->blockout) {
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i = ok_write(b, NULL, 0);
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if (i < 0) {
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ret = i;
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break;
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}
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}
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ctx->finished = 1;
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ctx->buf_off = ctx->buf_len = 0;
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ctx->cont = (int)ret;
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/* Finally flush the underlying BIO */
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ret = BIO_ctrl(next, cmd, num, ptr);
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break;
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case BIO_C_DO_STATE_MACHINE:
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BIO_clear_retry_flags(b);
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ret = BIO_ctrl(next, cmd, num, ptr);
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BIO_copy_next_retry(b);
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break;
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case BIO_CTRL_INFO:
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ret = (long)ctx->cont;
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break;
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case BIO_C_SET_MD:
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md = ptr;
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if (!EVP_DigestInit_ex(ctx->md, md, NULL))
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return 0;
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BIO_set_init(b, 1);
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break;
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case BIO_C_GET_MD:
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if (BIO_get_init(b)) {
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ppmd = ptr;
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*ppmd = EVP_MD_CTX_md(ctx->md);
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} else
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ret = 0;
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break;
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default:
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ret = BIO_ctrl(next, cmd, num, ptr);
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break;
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}
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return ret;
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}
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static long ok_callback_ctrl(BIO *b, int cmd, bio_info_cb *fp)
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{
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long ret = 1;
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BIO *next;
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next = BIO_next(b);
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if (next == NULL)
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return 0;
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switch (cmd) {
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default:
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ret = BIO_callback_ctrl(next, cmd, fp);
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break;
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}
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return ret;
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}
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static void longswap(void *_ptr, size_t len)
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{
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const union {
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long one;
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char little;
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} is_endian = {
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1
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};
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if (is_endian.little) {
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size_t i;
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unsigned char *p = _ptr, c;
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for (i = 0; i < len; i += 4) {
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c = p[0], p[0] = p[3], p[3] = c;
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c = p[1], p[1] = p[2], p[2] = c;
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}
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}
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}
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static int sig_out(BIO *b)
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{
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BIO_OK_CTX *ctx;
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EVP_MD_CTX *md;
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const EVP_MD *digest;
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int md_size;
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void *md_data;
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ctx = BIO_get_data(b);
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md = ctx->md;
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digest = EVP_MD_CTX_md(md);
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md_size = EVP_MD_size(digest);
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md_data = EVP_MD_CTX_md_data(md);
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if (ctx->buf_len + 2 * md_size > OK_BLOCK_SIZE)
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return 1;
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if (!EVP_DigestInit_ex(md, digest, NULL))
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goto berr;
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/*
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* FIXME: there's absolutely no guarantee this makes any sense at all,
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* particularly now EVP_MD_CTX has been restructured.
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*/
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if (RAND_bytes(md_data, md_size) <= 0)
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goto berr;
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memcpy(&(ctx->buf[ctx->buf_len]), md_data, md_size);
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longswap(&(ctx->buf[ctx->buf_len]), md_size);
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ctx->buf_len += md_size;
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if (!EVP_DigestUpdate(md, WELLKNOWN, strlen(WELLKNOWN)))
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goto berr;
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if (!EVP_DigestFinal_ex(md, &(ctx->buf[ctx->buf_len]), NULL))
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goto berr;
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ctx->buf_len += md_size;
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ctx->blockout = 1;
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ctx->sigio = 0;
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return 1;
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berr:
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BIO_clear_retry_flags(b);
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return 0;
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}
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static int sig_in(BIO *b)
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{
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BIO_OK_CTX *ctx;
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EVP_MD_CTX *md;
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unsigned char tmp[EVP_MAX_MD_SIZE];
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int ret = 0;
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const EVP_MD *digest;
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int md_size;
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void *md_data;
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ctx = BIO_get_data(b);
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md = ctx->md;
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digest = EVP_MD_CTX_md(md);
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md_size = EVP_MD_size(digest);
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md_data = EVP_MD_CTX_md_data(md);
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if ((int)(ctx->buf_len - ctx->buf_off) < 2 * md_size)
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return 1;
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if (!EVP_DigestInit_ex(md, digest, NULL))
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goto berr;
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memcpy(md_data, &(ctx->buf[ctx->buf_off]), md_size);
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longswap(md_data, md_size);
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ctx->buf_off += md_size;
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if (!EVP_DigestUpdate(md, WELLKNOWN, strlen(WELLKNOWN)))
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goto berr;
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if (!EVP_DigestFinal_ex(md, tmp, NULL))
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goto berr;
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ret = memcmp(&(ctx->buf[ctx->buf_off]), tmp, md_size) == 0;
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ctx->buf_off += md_size;
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if (ret == 1) {
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ctx->sigio = 0;
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if (ctx->buf_len != ctx->buf_off) {
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memmove(ctx->buf, &(ctx->buf[ctx->buf_off]),
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ctx->buf_len - ctx->buf_off);
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}
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ctx->buf_len -= ctx->buf_off;
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ctx->buf_off = 0;
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} else {
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ctx->cont = 0;
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}
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return 1;
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berr:
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BIO_clear_retry_flags(b);
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return 0;
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}
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static int block_out(BIO *b)
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{
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BIO_OK_CTX *ctx;
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EVP_MD_CTX *md;
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unsigned long tl;
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const EVP_MD *digest;
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int md_size;
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ctx = BIO_get_data(b);
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md = ctx->md;
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digest = EVP_MD_CTX_md(md);
|
|
md_size = EVP_MD_size(digest);
|
|
|
|
tl = ctx->buf_len - OK_BLOCK_BLOCK;
|
|
ctx->buf[0] = (unsigned char)(tl >> 24);
|
|
ctx->buf[1] = (unsigned char)(tl >> 16);
|
|
ctx->buf[2] = (unsigned char)(tl >> 8);
|
|
ctx->buf[3] = (unsigned char)(tl);
|
|
if (!EVP_DigestUpdate(md,
|
|
(unsigned char *)&(ctx->buf[OK_BLOCK_BLOCK]), tl))
|
|
goto berr;
|
|
if (!EVP_DigestFinal_ex(md, &(ctx->buf[ctx->buf_len]), NULL))
|
|
goto berr;
|
|
ctx->buf_len += md_size;
|
|
ctx->blockout = 1;
|
|
return 1;
|
|
berr:
|
|
BIO_clear_retry_flags(b);
|
|
return 0;
|
|
}
|
|
|
|
static int block_in(BIO *b)
|
|
{
|
|
BIO_OK_CTX *ctx;
|
|
EVP_MD_CTX *md;
|
|
unsigned long tl = 0;
|
|
unsigned char tmp[EVP_MAX_MD_SIZE];
|
|
int md_size;
|
|
|
|
ctx = BIO_get_data(b);
|
|
md = ctx->md;
|
|
md_size = EVP_MD_size(EVP_MD_CTX_md(md));
|
|
|
|
assert(sizeof(tl) >= OK_BLOCK_BLOCK); /* always true */
|
|
tl = ctx->buf[0];
|
|
tl <<= 8;
|
|
tl |= ctx->buf[1];
|
|
tl <<= 8;
|
|
tl |= ctx->buf[2];
|
|
tl <<= 8;
|
|
tl |= ctx->buf[3];
|
|
|
|
if (ctx->buf_len < tl + OK_BLOCK_BLOCK + md_size)
|
|
return 1;
|
|
|
|
if (!EVP_DigestUpdate(md,
|
|
(unsigned char *)&(ctx->buf[OK_BLOCK_BLOCK]), tl))
|
|
goto berr;
|
|
if (!EVP_DigestFinal_ex(md, tmp, NULL))
|
|
goto berr;
|
|
if (memcmp(&(ctx->buf[tl + OK_BLOCK_BLOCK]), tmp, md_size) == 0) {
|
|
/* there might be parts from next block lurking around ! */
|
|
ctx->buf_off_save = tl + OK_BLOCK_BLOCK + md_size;
|
|
ctx->buf_len_save = ctx->buf_len;
|
|
ctx->buf_off = OK_BLOCK_BLOCK;
|
|
ctx->buf_len = tl + OK_BLOCK_BLOCK;
|
|
ctx->blockout = 1;
|
|
} else {
|
|
ctx->cont = 0;
|
|
}
|
|
return 1;
|
|
berr:
|
|
BIO_clear_retry_flags(b);
|
|
return 0;
|
|
}
|