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chksum.c
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chksum.c
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/* This file is partially generated by genchksum.txr; see comment below. */
/* Copyright 2019-2024
* Kaz Kylheku <kaz@kylheku.com>
* Vancouver, Canada
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#include <stddef.h>
#include <wchar.h>
#include <limits.h>
#include <string.h>
#include <stdlib.h>
#include <stdarg.h>
#include <signal.h>
#include <stdio.h>
#include "config.h"
#include "lib.h"
#include "itypes.h"
#include "signal.h"
#include "unwind.h"
#include "eval.h"
#include "stream.h"
#include "utf8.h"
#include "buf.h"
#include "chksums/sha1.h"
#include "chksums/sha256.h"
#include "chksums/crc32.h"
#include "chksums/md5.h"
#include "chksum.h"
/* This file is not entirely generated. Parts of it are maintained by
* hand. The genchksum.txr program will extract the hand-maintained
* parts, and merge it with the generated parts.
*
* After working on this file, save your work (perhaps into a commit).
* Then run txr ./genchksum.txr and ensure that the updated
* chksum.c file is identical to your saved copy.
*
* The generated parts are these:
*
* - everything starting with the declaration "static val sha1_ctx_s ..."
* up to just before the crc32 section: the crc32_stream function.
*
* - a portion of the chksum_init function, up to the line
* which registers the crc32-stream function.
*
* Thus, material outside of these sections is editable; but edits
* must be validated to make sure they don't break the generation
* program.
*/
static val chksum_ensure_buf(val self, val buf_in,
val len, unsigned char **phash,
val hash_name)
{
if (null_or_missing_p(buf_in)) {
*phash = chk_malloc(c_unum(len, self));
return make_owned_buf(len, *phash);
} else {
*phash = buf_get(buf_in, self);
if (lt(length_buf(buf_in), len))
uw_throwf(error_s, lit("~s: buffer ~s too small for ~a hash"),
self, buf_in, hash_name, nao);
return buf_in;
}
}
static val sha1_ctx_s, sha256_ctx_s, md5_ctx_s;
static struct cobj_class *sha1_ctx_cls, *sha256_ctx_cls, *md5_ctx_cls;
static void sha1_stream_impl(val stream, val nbytes,
unsigned char *hash, val self)
{
SHA1_t ctx;
val buf = iobuf_get();
val bfsz = length_buf(buf);
SHA1_init(&ctx);
if (null_or_missing_p(nbytes)) {
for (;;) {
val read = fill_buf(buf, zero, stream);
cnum rd = c_num(read, self);
if (!rd)
break;
SHA1_update(&ctx, buf->b.data, rd);
}
} else {
while (ge(nbytes, bfsz)) {
val read = fill_buf(buf, zero, stream);
cnum rd = c_num(read, self);
if (zerop(read))
break;
SHA1_update(&ctx, buf->b.data, rd);
nbytes = minus(nbytes, read);
}
buf_set_length(buf, nbytes, nil);
{
val read = fill_buf(buf, zero, stream);
cnum rd = c_num(read, self);
if (rd)
SHA1_update(&ctx, buf->b.data, rd);
}
}
SHA1_final(&ctx, hash);
iobuf_put(buf);
}
val sha1_stream(val stream, val nbytes, val buf_in)
{
val self = lit("sha1-stream");
unsigned char *hash;
val buf = chksum_ensure_buf(self, buf_in,
num_fast(SHA1_DIGEST_LENGTH),
&hash, lit("SHA-1"));
sha1_stream_impl(stream, nbytes, hash, self);
return buf;
}
static void sha1_szmax_upd(SHA1_t *pctx, mem_t *data, ucnum len)
{
const size_t szmax = convert(size_t, -1) / 4 + 1;
while (len >= szmax) {
SHA1_update(pctx, data, szmax);
data += szmax;
len -= szmax;
}
if (len > 0)
SHA1_update(pctx, data, len);
}
static void sha1_buf(val buf, unsigned char *hash, val self)
{
SHA1_t ctx;
SHA1_init(&ctx);
sha1_szmax_upd(&ctx, buf->b.data, c_unum(buf->b.len, self));
SHA1_final(&ctx, hash);
}
static void sha1_str(val str, unsigned char *hash, val self)
{
char *s = utf8_dup_to(c_str(str, self));
SHA1_t ctx;
SHA1_init(&ctx);
SHA1_update(&ctx, coerce(const unsigned char *, s), strlen(s));
free(s);
SHA1_final(&ctx, hash);
}
val sha1(val obj, val buf_in)
{
val self = lit("sha1");
unsigned char *hash;
val buf = chksum_ensure_buf(self, buf_in,
num_fast(SHA1_DIGEST_LENGTH),
&hash, lit("SHA-1"));
switch (type(obj)) {
case STR:
case LSTR:
case LIT:
sha1_str(obj, hash, self);
return buf;
case BUF:
sha1_buf(obj, hash, self);
return buf;
default:
uw_throwf(error_s,
lit("~a: cannot hash ~s, "
"only buffer and strings"),
self, obj, nao);
}
}
static struct cobj_ops sha1_ops = cobj_ops_init(cobj_equal_handle_op,
cobj_print_op,
cobj_destroy_free_op,
cobj_mark_op,
cobj_handle_hash_op,
0);
val sha1_begin(void)
{
SHA1_t *pctx = coerce(SHA1_t *, chk_malloc(sizeof *pctx));
SHA1_init(pctx);
return cobj(coerce(mem_t *, pctx), sha1_ctx_cls, &sha1_ops);
}
static int sha1_utf8_byte_callback(int b, mem_t *ctx)
{
SHA1_t *pctx = coerce(SHA1_t *, ctx);
unsigned char uc = b;
SHA1_update(pctx, &uc, 1);
return 1;
}
val sha1_hash(val ctx, val obj)
{
val self = lit("sha1-hash");
SHA1_t *pctx = coerce(SHA1_t *,
cobj_handle(self, ctx, sha1_ctx_cls));
switch (type(obj)) {
case STR:
case LSTR:
case LIT:
{
char *str = utf8_dup_to(c_str(obj, self));
SHA1_update(pctx, coerce(const unsigned char *, str), strlen(str));
free(str);
}
break;
case BUF:
sha1_szmax_upd(pctx, obj->b.data, c_unum(obj->b.len, self));
break;
case CHR:
utf8_encode(c_ch(obj), sha1_utf8_byte_callback,
coerce(mem_t *, pctx));
break;
case NUM:
{
cnum n = c_num(obj, self);
unsigned char uc = n;
if (n < 0 || n > 255)
uw_throwf(error_s,
lit("~a: byte value ~s out of range"),
self, obj, nao);
SHA1_update(pctx, &uc, 1);
}
break;
default:
uw_throwf(error_s, lit("~a: cannot hash ~s, "
"only buffer and strings"),
self, obj, nao);
}
return obj;
}
val sha1_end(val ctx, val buf_in)
{
val self = lit("sha1-end");
unsigned char *hash;
SHA1_t *pctx = coerce(SHA1_t *,
cobj_handle(self, ctx, sha1_ctx_cls));
val buf = chksum_ensure_buf(self, buf_in, num_fast(SHA1_DIGEST_LENGTH),
&hash, lit("SHA-1"));
SHA1_final(pctx, hash);
SHA1_init(pctx);
return buf;
}
static void sha256_stream_impl(val stream, val nbytes,
unsigned char *hash, val self)
{
SHA256_t ctx;
val buf = iobuf_get();
val bfsz = length_buf(buf);
SHA256_init(&ctx);
if (null_or_missing_p(nbytes)) {
for (;;) {
val read = fill_buf(buf, zero, stream);
cnum rd = c_num(read, self);
if (!rd)
break;
SHA256_update(&ctx, buf->b.data, rd);
}
} else {
while (ge(nbytes, bfsz)) {
val read = fill_buf(buf, zero, stream);
cnum rd = c_num(read, self);
if (zerop(read))
break;
SHA256_update(&ctx, buf->b.data, rd);
nbytes = minus(nbytes, read);
}
buf_set_length(buf, nbytes, nil);
{
val read = fill_buf(buf, zero, stream);
cnum rd = c_num(read, self);
if (rd)
SHA256_update(&ctx, buf->b.data, rd);
}
}
SHA256_final(&ctx, hash);
iobuf_put(buf);
}
val sha256_stream(val stream, val nbytes, val buf_in)
{
val self = lit("sha256-stream");
unsigned char *hash;
val buf = chksum_ensure_buf(self, buf_in,
num_fast(SHA256_DIGEST_LENGTH),
&hash, lit("SHA-256"));
sha256_stream_impl(stream, nbytes, hash, self);
return buf;
}
static void sha256_szmax_upd(SHA256_t *pctx, mem_t *data, ucnum len)
{
const size_t szmax = convert(size_t, -1) / 4 + 1;
while (len >= szmax) {
SHA256_update(pctx, data, szmax);
data += szmax;
len -= szmax;
}
if (len > 0)
SHA256_update(pctx, data, len);
}
static void sha256_buf(val buf, unsigned char *hash, val self)
{
SHA256_t ctx;
SHA256_init(&ctx);
sha256_szmax_upd(&ctx, buf->b.data, c_unum(buf->b.len, self));
SHA256_final(&ctx, hash);
}
static void sha256_str(val str, unsigned char *hash, val self)
{
char *s = utf8_dup_to(c_str(str, self));
SHA256_t ctx;
SHA256_init(&ctx);
SHA256_update(&ctx, coerce(const unsigned char *, s), strlen(s));
free(s);
SHA256_final(&ctx, hash);
}
val sha256(val obj, val buf_in)
{
val self = lit("sha256");
unsigned char *hash;
val buf = chksum_ensure_buf(self, buf_in,
num_fast(SHA256_DIGEST_LENGTH),
&hash, lit("SHA-256"));
switch (type(obj)) {
case STR:
case LSTR:
case LIT:
sha256_str(obj, hash, self);
return buf;
case BUF:
sha256_buf(obj, hash, self);
return buf;
default:
uw_throwf(error_s,
lit("~a: cannot hash ~s, "
"only buffer and strings"),
self, obj, nao);
}
}
static struct cobj_ops sha256_ops = cobj_ops_init(cobj_equal_handle_op,
cobj_print_op,
cobj_destroy_free_op,
cobj_mark_op,
cobj_handle_hash_op,
0);
val sha256_begin(void)
{
SHA256_t *pctx = coerce(SHA256_t *, chk_malloc(sizeof *pctx));
SHA256_init(pctx);
return cobj(coerce(mem_t *, pctx), sha256_ctx_cls, &sha256_ops);
}
static int sha256_utf8_byte_callback(int b, mem_t *ctx)
{
SHA256_t *pctx = coerce(SHA256_t *, ctx);
unsigned char uc = b;
SHA256_update(pctx, &uc, 1);
return 1;
}
val sha256_hash(val ctx, val obj)
{
val self = lit("sha256-hash");
SHA256_t *pctx = coerce(SHA256_t *,
cobj_handle(self, ctx, sha256_ctx_cls));
switch (type(obj)) {
case STR:
case LSTR:
case LIT:
{
char *str = utf8_dup_to(c_str(obj, self));
SHA256_update(pctx, coerce(const unsigned char *, str), strlen(str));
free(str);
}
break;
case BUF:
sha256_szmax_upd(pctx, obj->b.data, c_unum(obj->b.len, self));
break;
case CHR:
utf8_encode(c_ch(obj), sha256_utf8_byte_callback,
coerce(mem_t *, pctx));
break;
case NUM:
{
cnum n = c_num(obj, self);
unsigned char uc = n;
if (n < 0 || n > 255)
uw_throwf(error_s,
lit("~a: byte value ~s out of range"),
self, obj, nao);
SHA256_update(pctx, &uc, 1);
}
break;
default:
uw_throwf(error_s, lit("~a: cannot hash ~s, "
"only buffer and strings"),
self, obj, nao);
}
return obj;
}
val sha256_end(val ctx, val buf_in)
{
val self = lit("sha256-end");
unsigned char *hash;
SHA256_t *pctx = coerce(SHA256_t *,
cobj_handle(self, ctx, sha256_ctx_cls));
val buf = chksum_ensure_buf(self, buf_in, num_fast(SHA256_DIGEST_LENGTH),
&hash, lit("SHA-256"));
SHA256_final(pctx, hash);
SHA256_init(pctx);
return buf;
}
static void md5_stream_impl(val stream, val nbytes,
unsigned char *hash, val self)
{
MD5_t ctx;
val buf = iobuf_get();
val bfsz = length_buf(buf);
MD5_init(&ctx);
if (null_or_missing_p(nbytes)) {
for (;;) {
val read = fill_buf(buf, zero, stream);
cnum rd = c_num(read, self);
if (!rd)
break;
MD5_update(&ctx, buf->b.data, rd);
}
} else {
while (ge(nbytes, bfsz)) {
val read = fill_buf(buf, zero, stream);
cnum rd = c_num(read, self);
if (zerop(read))
break;
MD5_update(&ctx, buf->b.data, rd);
nbytes = minus(nbytes, read);
}
buf_set_length(buf, nbytes, nil);
{
val read = fill_buf(buf, zero, stream);
cnum rd = c_num(read, self);
if (rd)
MD5_update(&ctx, buf->b.data, rd);
}
}
MD5_final(&ctx, hash);
iobuf_put(buf);
}
val md5_stream(val stream, val nbytes, val buf_in)
{
val self = lit("md5-stream");
unsigned char *hash;
val buf = chksum_ensure_buf(self, buf_in,
num_fast(MD5_DIGEST_LENGTH),
&hash, lit("MD5"));
md5_stream_impl(stream, nbytes, hash, self);
return buf;
}
static void md5_szmax_upd(MD5_t *pctx, mem_t *data, ucnum len)
{
const size_t szmax = convert(size_t, -1) / 4 + 1;
while (len >= szmax) {
MD5_update(pctx, data, szmax);
data += szmax;
len -= szmax;
}
if (len > 0)
MD5_update(pctx, data, len);
}
static void md5_buf(val buf, unsigned char *hash, val self)
{
MD5_t ctx;
MD5_init(&ctx);
md5_szmax_upd(&ctx, buf->b.data, c_unum(buf->b.len, self));
MD5_final(&ctx, hash);
}
static void md5_str(val str, unsigned char *hash, val self)
{
char *s = utf8_dup_to(c_str(str, self));
MD5_t ctx;
MD5_init(&ctx);
MD5_update(&ctx, coerce(const unsigned char *, s), strlen(s));
free(s);
MD5_final(&ctx, hash);
}
val md5(val obj, val buf_in)
{
val self = lit("md5");
unsigned char *hash;
val buf = chksum_ensure_buf(self, buf_in,
num_fast(MD5_DIGEST_LENGTH),
&hash, lit("MD5"));
switch (type(obj)) {
case STR:
case LSTR:
case LIT:
md5_str(obj, hash, self);
return buf;
case BUF:
md5_buf(obj, hash, self);
return buf;
default:
uw_throwf(error_s,
lit("~a: cannot hash ~s, "
"only buffer and strings"),
self, obj, nao);
}
}
static struct cobj_ops md5_ops = cobj_ops_init(cobj_equal_handle_op,
cobj_print_op,
cobj_destroy_free_op,
cobj_mark_op,
cobj_handle_hash_op,
0);
val md5_begin(void)
{
MD5_t *pctx = coerce(MD5_t *, chk_malloc(sizeof *pctx));
MD5_init(pctx);
return cobj(coerce(mem_t *, pctx), md5_ctx_cls, &md5_ops);
}
static int md5_utf8_byte_callback(int b, mem_t *ctx)
{
MD5_t *pctx = coerce(MD5_t *, ctx);
unsigned char uc = b;
MD5_update(pctx, &uc, 1);
return 1;
}
val md5_hash(val ctx, val obj)
{
val self = lit("md5-hash");
MD5_t *pctx = coerce(MD5_t *,
cobj_handle(self, ctx, md5_ctx_cls));
switch (type(obj)) {
case STR:
case LSTR:
case LIT:
{
char *str = utf8_dup_to(c_str(obj, self));
MD5_update(pctx, coerce(const unsigned char *, str), strlen(str));
free(str);
}
break;
case BUF:
md5_szmax_upd(pctx, obj->b.data, c_unum(obj->b.len, self));
break;
case CHR:
utf8_encode(c_ch(obj), md5_utf8_byte_callback,
coerce(mem_t *, pctx));
break;
case NUM:
{
cnum n = c_num(obj, self);
unsigned char uc = n;
if (n < 0 || n > 255)
uw_throwf(error_s,
lit("~a: byte value ~s out of range"),
self, obj, nao);
MD5_update(pctx, &uc, 1);
}
break;
default:
uw_throwf(error_s, lit("~a: cannot hash ~s, "
"only buffer and strings"),
self, obj, nao);
}
return obj;
}
val md5_end(val ctx, val buf_in)
{
val self = lit("md5-end");
unsigned char *hash;
MD5_t *pctx = coerce(MD5_t *,
cobj_handle(self, ctx, md5_ctx_cls));
val buf = chksum_ensure_buf(self, buf_in, num_fast(MD5_DIGEST_LENGTH),
&hash, lit("MD5"));
MD5_final(pctx, hash);
MD5_init(pctx);
return buf;
}
val crc32_stream(val stream, val nbytes, val init)
{
val self = lit("crc32-stream");
val buf = iobuf_get();
val bfsz = length_buf(buf);
u32_t crc = if3(missingp(init), 0, c_u32(init, self));
if (null_or_missing_p(nbytes)) {
for (;;) {
val read = fill_buf(buf, zero, stream);
cnum rd = c_num(read, self);
if (!rd)
break;
crc = crc32_cont(buf->b.data, rd, crc);
}
} else {
while (ge(nbytes, bfsz)) {
val read = fill_buf(buf, zero, stream);
cnum rd = c_num(read, self);
if (zerop(read))
break;
crc = crc32_cont(buf->b.data, rd, crc);
nbytes = minus(nbytes, read);
}
buf_set_length(buf, nbytes, nil);
{
val read = fill_buf(buf, zero, stream);
cnum rd = c_num(read, self);
if (rd)
crc = crc32_cont(buf->b.data, rd, crc);
}
}
iobuf_put(buf);
return unum(crc);
}
static val crc32_buf(val buf, val init, val self)
{
ucnum len = c_unum(buf->b.len, self);
mem_t *data = buf->b.data;
const size_t szmax = convert(size_t, -1) / 4 + 1;
u32_t crc = if3(missingp(init), 0, c_u32(init, self));
while (len >= szmax) {
crc = crc32_cont(data, szmax, crc);
data += szmax;
len -= szmax;
}
if (len > 0)
crc = crc32_cont(data, len, crc);
return unum(crc);
}
static val crc32_str(val str, val init)
{
val s = make_byte_input_stream(str);
return crc32_stream(s, nil, init);
}
static val crc32(val obj, val init)
{
val self = lit("crc32");
switch (type(obj)) {
case STR:
case LSTR:
case LIT:
return crc32_str(obj, init);
case BUF:
return crc32_buf(obj, init, self);
default:
uw_throwf(error_s, lit("~a: cannot hash ~s, only buffer and strings"),
self, obj, nao);
}
}
void chksum_init(void)
{
sha1_ctx_s = intern(lit("sha1-ctx"), user_package);
sha256_ctx_s = intern(lit("sha256-ctx"), user_package);
md5_ctx_s = intern(lit("md5-ctx"), user_package);
sha1_ctx_cls = cobj_register(sha1_ctx_s);
sha256_ctx_cls = cobj_register(sha256_ctx_s);
md5_ctx_cls = cobj_register(md5_ctx_s);
reg_fun(intern(lit("sha1-stream"), user_package), func_n3o(sha1_stream, 1));
reg_fun(intern(lit("sha1"), user_package), func_n2o(sha1, 1));
reg_fun(intern(lit("sha1-begin"), user_package), func_n0(sha1_begin));
reg_fun(intern(lit("sha1-hash"), user_package), func_n2(sha1_hash));
reg_fun(intern(lit("sha1-end"), user_package), func_n2o(sha1_end, 1));
reg_fun(intern(lit("sha256-stream"), user_package), func_n3o(sha256_stream, 1));
reg_fun(intern(lit("sha256"), user_package), func_n2o(sha256, 1));
reg_fun(intern(lit("sha256-begin"), user_package), func_n0(sha256_begin));
reg_fun(intern(lit("sha256-hash"), user_package), func_n2(sha256_hash));
reg_fun(intern(lit("sha256-end"), user_package), func_n2o(sha256_end, 1));
reg_fun(intern(lit("md5-stream"), user_package), func_n3o(md5_stream, 1));
reg_fun(intern(lit("md5"), user_package), func_n2o(md5, 1));
reg_fun(intern(lit("md5-begin"), user_package), func_n0(md5_begin));
reg_fun(intern(lit("md5-hash"), user_package), func_n2(md5_hash));
reg_fun(intern(lit("md5-end"), user_package), func_n2o(md5_end, 1));
reg_fun(intern(lit("crc32-stream"), user_package), func_n3o(crc32_stream, 1));
reg_fun(intern(lit("crc32"), user_package), func_n2o(crc32, 1));
}