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view src/core/ngx_crypt.c @ 8849:a736a7a613ea

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SSL: logging level of "application data after close notify". Such fatal errors are reported by OpenSSL 1.1.1, and similarly by BoringSSL, if application data is encountered during SSL shutdown, which started to be observed on the second SSL_shutdown() call after SSL shutdown fixes made in 09fb2135a589 (1.19.2). The error means that the client continues to send application data after receiving the "close_notify" alert (ticket #2318). Previously it was reported as SSL_shutdown() error of SSL_ERROR_SYSCALL.
author Sergey Kandaurov <pluknet@nginx.com>
date Tue, 08 Feb 2022 17:35:27 +0300
parents 1064ea81ed3a
children
line wrap: on
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/*
 * Copyright (C) Maxim Dounin
 */


#include <ngx_config.h>
#include <ngx_core.h>
#include <ngx_crypt.h>
#include <ngx_md5.h>
#include <ngx_sha1.h>


#if (NGX_CRYPT)

static ngx_int_t ngx_crypt_apr1(ngx_pool_t *pool, u_char *key, u_char *salt,
    u_char **encrypted);
static ngx_int_t ngx_crypt_plain(ngx_pool_t *pool, u_char *key, u_char *salt,
    u_char **encrypted);
static ngx_int_t ngx_crypt_ssha(ngx_pool_t *pool, u_char *key, u_char *salt,
    u_char **encrypted);
static ngx_int_t ngx_crypt_sha(ngx_pool_t *pool, u_char *key, u_char *salt,
    u_char **encrypted);


static u_char *ngx_crypt_to64(u_char *p, uint32_t v, size_t n);


ngx_int_t
ngx_crypt(ngx_pool_t *pool, u_char *key, u_char *salt, u_char **encrypted)
{
    if (ngx_strncmp(salt, "$apr1$", sizeof("$apr1$") - 1) == 0) {
        return ngx_crypt_apr1(pool, key, salt, encrypted);

    } else if (ngx_strncmp(salt, "{PLAIN}", sizeof("{PLAIN}") - 1) == 0) {
        return ngx_crypt_plain(pool, key, salt, encrypted);

    } else if (ngx_strncmp(salt, "{SSHA}", sizeof("{SSHA}") - 1) == 0) {
        return ngx_crypt_ssha(pool, key, salt, encrypted);

    } else if (ngx_strncmp(salt, "{SHA}", sizeof("{SHA}") - 1) == 0) {
        return ngx_crypt_sha(pool, key, salt, encrypted);
    }

    /* fallback to libc crypt() */

    return ngx_libc_crypt(pool, key, salt, encrypted);
}


static ngx_int_t
ngx_crypt_apr1(ngx_pool_t *pool, u_char *key, u_char *salt, u_char **encrypted)
{
    ngx_int_t          n;
    ngx_uint_t         i;
    u_char            *p, *last, final[16];
    size_t             saltlen, keylen;
    ngx_md5_t          md5, ctx1;

    /* Apache's apr1 crypt is Poul-Henning Kamp's md5 crypt with $apr1$ magic */

    keylen = ngx_strlen(key);

    /* true salt: no magic, max 8 chars, stop at first $ */

    salt += sizeof("$apr1$") - 1;
    last = salt + 8;
    for (p = salt; *p && *p != '$' && p < last; p++) { /* void */ }
    saltlen = p - salt;

    /* hash key and salt */

    ngx_md5_init(&md5);
    ngx_md5_update(&md5, key, keylen);
    ngx_md5_update(&md5, (u_char *) "$apr1$", sizeof("$apr1$") - 1);
    ngx_md5_update(&md5, salt, saltlen);

    ngx_md5_init(&ctx1);
    ngx_md5_update(&ctx1, key, keylen);
    ngx_md5_update(&ctx1, salt, saltlen);
    ngx_md5_update(&ctx1, key, keylen);
    ngx_md5_final(final, &ctx1);

    for (n = keylen; n > 0; n -= 16) {
        ngx_md5_update(&md5, final, n > 16 ? 16 : n);
    }

    ngx_memzero(final, sizeof(final));

    for (i = keylen; i; i >>= 1) {
        if (i & 1) {
            ngx_md5_update(&md5, final, 1);

        } else {
            ngx_md5_update(&md5, key, 1);
        }
    }

    ngx_md5_final(final, &md5);

    for (i = 0; i < 1000; i++) {
        ngx_md5_init(&ctx1);

        if (i & 1) {
            ngx_md5_update(&ctx1, key, keylen);

        } else {
            ngx_md5_update(&ctx1, final, 16);
        }

        if (i % 3) {
            ngx_md5_update(&ctx1, salt, saltlen);
        }

        if (i % 7) {
            ngx_md5_update(&ctx1, key, keylen);
        }

        if (i & 1) {
            ngx_md5_update(&ctx1, final, 16);

        } else {
            ngx_md5_update(&ctx1, key, keylen);
        }

        ngx_md5_final(final, &ctx1);
    }

    /* output */

    *encrypted = ngx_pnalloc(pool, sizeof("$apr1$") - 1 + saltlen + 1 + 22 + 1);
    if (*encrypted == NULL) {
        return NGX_ERROR;
    }

    p = ngx_cpymem(*encrypted, "$apr1$", sizeof("$apr1$") - 1);
    p = ngx_copy(p, salt, saltlen);
    *p++ = '$';

    p = ngx_crypt_to64(p, (final[ 0]<<16) | (final[ 6]<<8) | final[12], 4);
    p = ngx_crypt_to64(p, (final[ 1]<<16) | (final[ 7]<<8) | final[13], 4);
    p = ngx_crypt_to64(p, (final[ 2]<<16) | (final[ 8]<<8) | final[14], 4);
    p = ngx_crypt_to64(p, (final[ 3]<<16) | (final[ 9]<<8) | final[15], 4);
    p = ngx_crypt_to64(p, (final[ 4]<<16) | (final[10]<<8) | final[ 5], 4);
    p = ngx_crypt_to64(p, final[11], 2);
    *p = '\0';

    return NGX_OK;
}


static u_char *
ngx_crypt_to64(u_char *p, uint32_t v, size_t n)
{
    static u_char   itoa64[] =
        "./0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz";

    while (n--) {
        *p++ = itoa64[v & 0x3f];
        v >>= 6;
    }

    return p;
}


static ngx_int_t
ngx_crypt_plain(ngx_pool_t *pool, u_char *key, u_char *salt, u_char **encrypted)
{
    size_t   len;
    u_char  *p;

    len = ngx_strlen(key);

    *encrypted = ngx_pnalloc(pool, sizeof("{PLAIN}") - 1 + len + 1);
    if (*encrypted == NULL) {
        return NGX_ERROR;
    }

    p = ngx_cpymem(*encrypted, "{PLAIN}", sizeof("{PLAIN}") - 1);
    ngx_memcpy(p, key, len + 1);

    return NGX_OK;
}


static ngx_int_t
ngx_crypt_ssha(ngx_pool_t *pool, u_char *key, u_char *salt, u_char **encrypted)
{
    size_t       len;
    ngx_int_t    rc;
    ngx_str_t    encoded, decoded;
    ngx_sha1_t   sha1;

    /* "{SSHA}" base64(SHA1(key salt) salt) */

    /* decode base64 salt to find out true salt */

    encoded.data = salt + sizeof("{SSHA}") - 1;
    encoded.len = ngx_strlen(encoded.data);

    len = ngx_max(ngx_base64_decoded_length(encoded.len), 20);

    decoded.data = ngx_pnalloc(pool, len);
    if (decoded.data == NULL) {
        return NGX_ERROR;
    }

    rc = ngx_decode_base64(&decoded, &encoded);

    if (rc != NGX_OK || decoded.len < 20) {
        decoded.len = 20;
    }

    /* update SHA1 from key and salt */

    ngx_sha1_init(&sha1);
    ngx_sha1_update(&sha1, key, ngx_strlen(key));
    ngx_sha1_update(&sha1, decoded.data + 20, decoded.len - 20);
    ngx_sha1_final(decoded.data, &sha1);

    /* encode it back to base64 */

    len = sizeof("{SSHA}") - 1 + ngx_base64_encoded_length(decoded.len) + 1;

    *encrypted = ngx_pnalloc(pool, len);
    if (*encrypted == NULL) {
        return NGX_ERROR;
    }

    encoded.data = ngx_cpymem(*encrypted, "{SSHA}", sizeof("{SSHA}") - 1);
    ngx_encode_base64(&encoded, &decoded);
    encoded.data[encoded.len] = '\0';

    return NGX_OK;
}


static ngx_int_t
ngx_crypt_sha(ngx_pool_t *pool, u_char *key, u_char *salt, u_char **encrypted)
{
    size_t      len;
    ngx_str_t   encoded, decoded;
    ngx_sha1_t  sha1;
    u_char      digest[20];

    /* "{SHA}" base64(SHA1(key)) */

    decoded.len = sizeof(digest);
    decoded.data = digest;

    ngx_sha1_init(&sha1);
    ngx_sha1_update(&sha1, key, ngx_strlen(key));
    ngx_sha1_final(digest, &sha1);

    len = sizeof("{SHA}") - 1 + ngx_base64_encoded_length(decoded.len) + 1;

    *encrypted = ngx_pnalloc(pool, len);
    if (*encrypted == NULL) {
        return NGX_ERROR;
    }

    encoded.data = ngx_cpymem(*encrypted, "{SHA}", sizeof("{SHA}") - 1);
    ngx_encode_base64(&encoded, &decoded);
    encoded.data[encoded.len] = '\0';

    return NGX_OK;
}

#endif /* NGX_CRYPT */