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- broken - reimplementing z85 decoder, using hyphens again, doesn't work yet...

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This commit is contained in:
git@daemon.de
2014-03-01 11:58:10 +01:00
parent 32b24a08c5
commit b8552af5e9
11 changed files with 363 additions and 68 deletions
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25
TODO
View File

@@ -16,30 +16,7 @@ enable formats for secret key exports as well
Add newlines to headers in define.h, so strlen() later catches the whole length.
Z85 headers:
- currently I use "----- BEGIN ... -----" and "----- END ... -----" as
header and footer for various z85 encoded outputs. The problem is, that
the "-" character is part of Z85 chars. An input of 0xc6,0x5a,0x0b,0x13 would
result z85 encoded as: "-----". So, I cannot be sure, when I find a header
delimiter, if it's really a delimiter or legitimate z85 encoded content.
Therefore, another delimiter must be used. "~~~~~ BEGIN .... ~~~~~" seems
to fit best and "~" is unused in Z85.
Then the parser can be enhanced as well. Eg: on startup if a ~ occurs,
ignore input until the first non-~ appears. Then decode input until a
~ or eof appears, ignore everything after. Comments would still be a
problem though. Currently I ignore lines containing whitespaces. But
if a file is read blockwise and the blocksize is very small, then a
comment line may span multiple blocks and isn't recognizable as a
"line" anymore. Maybe, comments shall start and end with a ~ as well, eg:
~ BEGIN KEY ~
~ Hash: 987298347 ~
[z85]
~ END KEY ~
Here I use the same aproach for the headers, since there would also be
the problem how to recognize them properly if a header crosses boundaries
or something. By using this scheme, if a ~ is found everything following
is marked as to be ignored which could be saved as a state when using
blockmode.
Z85 Stream encode: add newline after last.
Check is_utf8 license.
also found in https://gd.meizo.com/_files/lpc/ext/utf8.c

1
include/pcp.h
View File

@@ -8,6 +8,7 @@ extern "C" {
#include "pcp/config.h"
#include "pcp/base85.h"
#include "pcp/buffer.h"
#include "pcp/config.h"
#include "pcp/crypto.h"
#include "pcp/defines.h"
#include "pcp/digital_crc32.h"

9
include/pcp/defines.h
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@@ -74,6 +74,15 @@ typedef unsigned int qbyte; /* Quad byte = 32 bits */
#define PCP_KEY_VERSION 6
#define PCP_KEY_PRIMITIVE "CURVE25519-ED25519-SALSA20-POLY1305"
typedef enum _ZBEGINS {
PCP_ENCRYPTED_FILE,
Z85_ENCODED_FILE,
ED25519_SIGNED_MESSAGE,
ED25519_SIGNATURE,
ED25519_CURVE29915_PUBLIC_KEY,
ED25519_CURVE29915_PRIVATE_KEY,
} ZBEGINS;
/**
\addtogroup KEYS
@{

19
include/pcp/pcpstream.h
View File

@@ -62,6 +62,7 @@ struct _pcp_stream_t {
Buffer *b; /**< The backend Buffer object */
Buffer *cache; /**< The caching Buffer object (for look ahead read) */
Buffer *next; /**< The caching Next-Buffer object (for look ahead read) */
Buffer *save; /**< Temporary buffer to backup overflow data */
uint8_t is_buffer; /**< Set to 1 if the backend is a Buffer */
uint8_t eof; /**< Set to 1 if EOF reached */
uint8_t err; /**< Set to 1 if an error occured */
@@ -71,9 +72,15 @@ struct _pcp_stream_t {
size_t linewr; /**< Used for Z85 writing, number of chars written on last line */
size_t blocksize; /**< Blocksize used for z85, if requested */
uint8_t is_output; /**< marks the stream as output stream */
uint8_t have_begin; /**< flag to indicate we already got the begin header, if any */
size_t pos; /**< remember i/o position */
};
typedef enum _PSVARS {
PSMAXLINE = 20000
} PSVARS;
/** The name used everywhere */
typedef struct _pcp_stream_t Pcpstream;
@@ -268,7 +275,7 @@ void ps_unarmor(Pcpstream *stream);
/* read from primary source, decode z85 and out into cache.
if buf != NULL, consider it as the start of encoded data
and remove headers and comments, then continue as normal. */
size_t ps_read_decode(Pcpstream *stream, void *buf, size_t bufsize);
size_t ps_read_decode(Pcpstream *stream);
/* determine if primary source is z85 encoded, put the data
read from it into the cache */
@@ -294,6 +301,16 @@ size_t ps_write_buf(Pcpstream *stream, Buffer *z);
/* tell if we really reached eof, caching or not. 1=eof, 0=ok */
int ps_left(Pcpstream *stream);
/** Read a line from the stream.
\param[in] stream The stream object.
\param[out] line Linecontent will be written to this Buffer.
\return Returns the number of bytes read or -1 if PSMAXLINE have been
reached or the input doesn't have any newlines at all.
*/
int ps_readline(Pcpstream *stream, Buffer *line);
#endif // HAVE_PCP_PCPSTEAM_H

2
include/pcp/util.h
View File

@@ -74,7 +74,7 @@ char *_lc(char *in);
\return Returns the offset or -1 of the offset were not found.
*/
size_t _findoffset(byte *bin, size_t binlen, char *sigstart, size_t hlen);
long int _findoffset(byte *bin, size_t binlen, char *sigstart, size_t hlen);
/** XOR an input buffer with another buffer.

9
include/pcp/z85.h
View File

@@ -156,6 +156,15 @@ size_t _buffer_is_binary(byte *buf, size_t len);
*/
uint8_t _parse_zchar(Buffer *z, uint8_t c, uint8_t is_comment);
long int z85_header_startswith(Buffer *buf, char *what);
int z85_isheader(Buffer *buf);
int z85_isend(Buffer *buf);
int z85_isbegin(Buffer *buf);
int z85_iscomment(Buffer *buf);
int z85_isempty(Buffer *line);
#endif /* _HAVE_PCP_Z85_H */
/**@}*/

216
libpcp/pcpstream.c
View File

@@ -27,6 +27,7 @@ Pcpstream *ps_init(void) {
stream->cache = NULL;
stream->next = NULL;
stream->fd = NULL;
stream->save = buffer_new(32, "Pcpstreamsavebuf");
stream->is_buffer = 0;
stream->eof = 0;
stream->err = 0;
@@ -79,15 +80,46 @@ void ps_unarmor(Pcpstream *stream) {
stream->armor = 0;
}
void ps_rewind(Pcpstream *stream, void *buf, size_t bufsize) {
if(stream->is_buffer) {
stream->b->offset -= bufsize;
}
else {
buffer_clear(stream->save);
buffer_add(stream->save, buf, bufsize);
}
stream->pos -= bufsize;
stream->err = 0;
stream->eof = 0;
}
size_t ps_read_raw(Pcpstream *stream, void *buf, size_t readbytes) {
size_t gotbytes = 0;
size_t idx = 0;
if(buffer_left(stream->save) > 0) {
/* something left from last rewind, first use this */
if(buffer_left(stream->save) >= readbytes) {
gotbytes = buffer_get_chunk(stream->save, buf, readbytes);
if(buffer_left(stream->save) == 0)
buffer_clear(stream->save);
goto rawdone;
}
else {
/* fetch the remainder of the save buffer, remember how much
to fetch from source next */
idx = buffer_get_chunk(stream->save, buf, buffer_left(stream->save));
buffer_clear(stream->save);
readbytes -= idx;
}
}
if(stream->is_buffer) {
/* check if there's enough space in our buffer */
if(buffer_left(stream->b) < readbytes)
readbytes = buffer_left(stream->b);
gotbytes = buffer_get_chunk(stream->b, buf, readbytes);
gotbytes += buffer_get_chunk(stream->b, buf+idx, readbytes);
if(gotbytes == 0) {
/* this should not happen with buffers */
stream->eof = 1;
@@ -95,16 +127,15 @@ size_t ps_read_raw(Pcpstream *stream, void *buf, size_t readbytes) {
}
}
else {
gotbytes = fread(buf, 1, readbytes, stream->fd);
if(gotbytes == 0) {
if(feof(stream->fd) != 0)
stream->eof = 1;
if(ferror(stream->fd) != 0)
stream->err = 1;
}
size_t got = fread(buf+idx, 1, readbytes, stream->fd);
gotbytes += got;
if(feof(stream->fd) != 0)
stream->eof = 1;
if(ferror(stream->fd) != 0)
stream->err = 1;
}
stream->firstread = 1;
rawdone:
return gotbytes;
}
@@ -113,20 +144,23 @@ size_t ps_read_raw(Pcpstream *stream, void *buf, size_t readbytes) {
that */
size_t ps_read_cached(Pcpstream *stream, void *buf, size_t readbytes) {
/*
fprintf(stderr, "%ld <= %ld && %ld <= %ld\n",
readbytes, buffer_left(stream->cache), readbytes, stream->blocksize) ;
fprintf(stderr, "%d == 1 && %ld >= %ld\n", ps_left(stream), readbytes, buffer_left(stream->cache));
*/
if(readbytes <= buffer_left(stream->cache) && readbytes <= stream->blocksize) {
/* enough left in current cache */
fprintf(stderr, " get all from cache\n");
return buffer_get_chunk(stream->cache, buf, readbytes);
}
else if(ps_left(stream) == 1 && readbytes >= buffer_left(stream->cache)) {
else if(ps_end(stream) == 1 && readbytes >= buffer_left(stream->cache) ) {
fprintf(stderr, " get rest from cache\n");
return buffer_get_chunk(stream->cache, buf, buffer_left(stream->cache));
}
else {
fprintf(stderr, " fetch next\n");
/* request for chunk larger than what we've got in the cache */
Buffer *tmp = buffer_new(stream->blocksize, "Pcpreadchunktmp");
@@ -135,6 +169,8 @@ size_t ps_read_cached(Pcpstream *stream, void *buf, size_t readbytes) {
buffer_get_chunk_tobuf(stream->cache, tmp, buffer_left(stream->cache));
}
#error EOF reached, cache empty, save filled, doesnt call ps_read_next()
/* how much left to fetch */
long int left = readbytes - buffer_size(tmp);
@@ -184,10 +220,10 @@ size_t ps_read_cached(Pcpstream *stream, void *buf, size_t readbytes) {
/* read and decode the next chunk and put it into stream->next */
size_t ps_read_next(Pcpstream *stream) {
if(ps_left(stream) == 0) {
if(ps_left(stream) == 0 || buffer_left(stream->save)) {
if(stream->armor == 1) {
/* fetch next chunk and decode it */
return ps_read_decode(stream, NULL, 0);
return ps_read_decode(stream);
}
else {
/* unencoded source, fetch as is */
@@ -209,6 +245,7 @@ size_t ps_read(Pcpstream *stream, void *buf, size_t readbytes) {
else if(buffer_size(stream->cache) > 0) {
/* use cache */
got = ps_read_cached(stream, buf, readbytes);
fprintf(stderr, "%ld = use cache directly\n", got);
}
else {
/* no cache yet */
@@ -217,11 +254,13 @@ size_t ps_read(Pcpstream *stream, void *buf, size_t readbytes) {
recursively call ps_read() again to return the apropriate data */
ps_determine(stream);
got = ps_read(stream, buf, readbytes);
fprintf(stderr, "%ld = ps_read(stream, buf, readbytes);\n", got);
}
else if(stream->armor == 1) {
/* z85 encoding has already been determined, therefore the cache
is now filled, use it then */
got = ps_read_cached(stream, buf, readbytes);
fprintf(stderr, "%ld = ps_read_cached(stream, buf, readbytes);\n", got);
}
else {
/* read directly from source */
@@ -230,10 +269,44 @@ size_t ps_read(Pcpstream *stream, void *buf, size_t readbytes) {
}
stream->pos += got;
fprintf(stderr, " ps_read(): %ld\n", got);
return got;
}
int ps_readline(Pcpstream *stream, Buffer *line) {
int c = 0, max = 1;
byte b[1];
while(c<PSMAXLINE) {
if(ps_read_raw(stream, b, 1) < 1) {
max = 0;
break; /* eof or err */
}
if(*b == '\r') {
continue;
}
else if(*b == '\n' || ps_left(stream) == 1) {
max = 0;
break;
}
else {
buffer_add8(line, *b);
}
c++;
}
if(max) {
/* maxline reached without a newline.
backup the data we've got so far
for further processing */
buffer_add_buf(stream->save, line);
buffer_clear(line);
return -1;
}
return c;
}
void ps_determine(Pcpstream *stream) {
/* read a raw chunk from source */
void *buf = ucmalloc(stream->blocksize);
@@ -244,8 +317,11 @@ void ps_determine(Pcpstream *stream) {
/* no, it's armored */
stream->armor = 1;
/* put back raw data into read queue */
ps_rewind(stream, buf, got);
/* decode the first chunk */
ps_read_decode(stream, buf, got);
ps_read_decode(stream);
/* put it into the cache */
buffer_add_buf(stream->cache, stream->next);
@@ -255,42 +331,92 @@ void ps_determine(Pcpstream *stream) {
/* just put the raw stuff into the cache */
buffer_add(stream->cache, buf, got);
}
ucfree(buf, stream->blocksize);
stream->firstread = 1;
}
size_t ps_read_decode(Pcpstream *stream, void *buf, size_t bufsize) {
size_t i = 0;
uint8_t is_comment = 0;
uint8_t c;
Buffer *z = buffer_new(32, "ztemp");
byte *_buf = buf;
if(bufsize > 0) {
for(i=0; i<bufsize; ++i) {
c = _buf[i];
is_comment = _parse_zchar(z, c, is_comment);
}
size_t ps_read_decode(Pcpstream *stream) {
Buffer *z = buffer_new(32, "ztemp");
Buffer *line = buffer_new_str("line");
buffer_info(stream->save);
if(buffer_left(stream->save) >= stream->blocksize && stream->firstread == 1) {
/* use the save buffer instead */
buffer_get_chunk_tobuf(stream->save, z, stream->blocksize);
}
if(buffer_size(z) < stream->blocksize) {
/* blocksize not full, continue with stream source */
/* read in bytewise, ignore newlines and add until the block is full */
while (buffer_size(z) < stream->blocksize) {
if (ps_read_raw(stream, &c, 1) == 1) {
is_comment = _parse_zchar(z, c, is_comment);
else if(ps_left(stream) == 1 && buffer_left(stream->save) > 0) {
/* there's something left which doesn't end in a newline */
buffer_get_chunk_tobuf(stream->save, z, stream->blocksize);
}
else {
/* continue reading linewise */
while(buffer_size(z) < stream->blocksize) {
buffer_clear(line);
if(ps_readline(stream, line) >= 0) {
fprintf(stderr, "got: <%s>\n", buffer_get_str(line));
if(z85_isbegin(line) && stream->have_begin == 0) {
/* begin header encountered */
stream->have_begin = 1; /* otherwise ignore it */
continue;
}
else if(z85_isend(line)) {
/* end header encountered */
break;
}
else if(z85_isempty(line)) {
/* ignore empty lines */
continue;
}
else {
/* regular z85 encoded content */
fprintf(stderr, "regular\n");
if(buffer_size(z) + buffer_size(line) > stream->blocksize) {
/* we've got more than needed.
put what we need into z and the remainder
into the save buffer for further reading. */
fprintf(stderr, "overflow %ld + %ld > %ld\n",
buffer_size(z), buffer_size(line), stream->blocksize);
buffer_get_chunk_tobuf(line, z, stream->blocksize - buffer_size(z));
buffer_get_chunk_tobuf(line, stream->save, buffer_left(line));
buffer_add8(stream->save, '\n');
break;
}
else {
/* not enough yet, store it and go on */
buffer_add_buf(z, line);
}
}
}
else
else {
/* eof or err */
break;
}
}
}
fprintf(stderr, "Z: <%s>\n", buffer_get_str(z));
/* finally, decode it and put into next */
size_t binlen, outlen;
byte *bin = pcp_z85_decode(buffer_get_str(z), &binlen);
if(bin == NULL) {
/* it's not z85 encoded, so threat it as binary */
stream->armor = 0;
buffer_add_buf(stream->next, z);
outlen = buffer_size(stream->next);
if(stream->firstread) {
/* whoops, we're in the middle of z85 decoding and it failed */
stream->eof = 1;
stream->err = 1;
outlen = 0;
}
else {
stream->armor = 0;
buffer_add_buf(stream->next, z);
outlen = buffer_size(stream->next);
}
}
else {
/* yes, successfully decoded it, put into cache */
@@ -299,12 +425,13 @@ size_t ps_read_decode(Pcpstream *stream, void *buf, size_t bufsize) {
}
buffer_free(z);
buffer_free(line);
return outlen;
}
size_t ps_write(Pcpstream *stream, void *buf, size_t writebytes) {
Buffer *z = buffer_new(32, "Pcpwritetemp");
@@ -484,6 +611,8 @@ void ps_close(Pcpstream *stream) {
if(stream->next != NULL)
buffer_free(stream->next);
buffer_free(stream->save);
if(stream->is_buffer) {
buffer_clear(stream->b);
free(stream);
@@ -498,10 +627,17 @@ void ps_close(Pcpstream *stream) {
int ps_end(Pcpstream *stream) {
/* simulate open file if there's still something in the cache */
if(stream->cache != NULL)
if(stream->cache != NULL) {
if(buffer_left(stream->cache) > 0) {
return 0;
}
}
/* if there's a lookahead buffer, do the same */
if(buffer_left(stream->save) > 0) {
return 0;
}
return stream->eof;
}

4
libpcp/util.c
View File

@@ -31,9 +31,9 @@ char *_lc(char *in) {
}
/* find the offset of the beginning of a certain string within binary data */
size_t _findoffset(byte *bin, size_t binlen, char *sigstart, size_t hlen) {
long int _findoffset(byte *bin, size_t binlen, char *sigstart, size_t hlen) {
size_t i;
size_t offset = 0;
long int offset = 0;
int m = 0;
for(i=0; i<binlen-hlen; ++i) {

119
libpcp/z85.c
View File

@@ -22,6 +22,19 @@
#include "z85.h"
static char *begins[] = {
/* grep -r BEGIN * | egrep "\.h:" | awk -F '-----' '{print $2}' | sed -e 's/.*BEGIN /"/' -e 's/$/",/' */
"PCP ENCRYPTED FILE ",
"Z85 ENCODED FILE ",
"ED25519 SIGNED MESSAGE ",
"ED25519 SIGNATURE ",
"ED25519-CURVE29915 PUBLIC KEY",
"ED25519-CURVE29915 PRIVATE KEY",
NULL
};
uint8_t is_utf8(const byte *bytes) {
if( (// non-overlong 2-byte
(0xC2 <= bytes[0] && bytes[0] <= 0xDF) &&
@@ -293,3 +306,109 @@ char *pcp_readz85string(byte *input, size_t bufsize) {
return NULL;
}
int z85_isheader(Buffer *buf) {
size_t len = buffer_size(buf);
byte *line = buffer_get(buf);
if(len < 15) {
/* minimum requirement: "----- END -----" */
return 0;
}
if(memcmp(line, "-----", 5)) {
/* doesn't start with hyphens */
return 0;
}
if(memcmp(line+(len-5), "-----", 5)) {
/* doesn't end with hyphens */
return 0;
}
/* true */
return 1;
}
long int z85_header_startswith(Buffer *buf, char *what) {
size_t len = buffer_size(buf);
byte *line = buffer_get(buf);
long int offset = 0;
if((offset = _findoffset(line+6, len-6, what, strlen(what))) >= 0) {
return offset;
}
/* nope */
return -1;
}
int z85_isend(Buffer *buf) {
if(! z85_isheader(buf))
return 0;
if(z85_header_startswith(buf, "END") < 0)
return 0;
/* true */
return 1;
}
int z85_isbegin(Buffer *buf) {
size_t len;
size_t blen;
const char *begin;
long int offset;
int i;
if(! z85_isheader(buf))
return 0;
if((offset = z85_header_startswith(buf, "BEGIN")) < 0)
return 0;
/* determine type */
len = buffer_left(buf);
byte *line = ucmalloc(len); /* FIXME: maybe wrong, check it */
buffer_get_chunk(buf, line, offset);
for(i=0; (begin=begins[i]); i++ ) {
if(begin == NULL) break;
blen = strlen(begin);
if(blen <= len)
if(_findoffset(line+buf->offset, len, (char *)begin, blen) >= 0)
return i; /* i = ENUM ZBEGINS */
}
/* unknown but valid */
return -1;
}
int z85_iscomment(Buffer *buf) {
char *line = buffer_get_str(buf);
if(strchr(line, ' ') == NULL || strchr(line, '\t') == NULL)
return 0; /* non whitespace */
else
return 1; /* true */
}
int z85_isempty(Buffer *buf) {
byte *line = buffer_get(buf);
size_t len = buffer_size(buf);
size_t sp = 0;
if(len == 0)
return 1; /* true */
/* lines with whitespaces only are empty as well */
while(*line != '\0') {
if(*line == ' ' || *line == '\t')
sp++;
line++;
}
if(sp<len)
return 0; /* non-space chars found */
else
return 1; /* true */
}

2
tests/pipetest.c
View File

@@ -50,9 +50,11 @@ int main(int argc, char **argv) {
void *buf = ucmalloc(rblocksize);
while(!ps_end(in)) {
fprintf(stderr, "=== read:\n");
got = ps_read(in, buf, rblocksize);
if(got > 0)
ps_write(out, buf, got);
fprintf(stderr, "======= got: %ld\n", got);
}
ps_finish(out);

25
tests/streamtest.c
View File

@@ -4,8 +4,33 @@
#include <pcp.h>
int linetest() {
FILE *in;
if((in = fopen("x", "rb")) == NULL) {
fprintf(stderr, "oops, could not open file!\n");
return 1;
}
Pcpstream *pin = ps_new_file(in);
ps_setdetermine(pin, 8);
size_t got;
byte data[9] = {0};
while(!ps_end(pin)) {
if((got = ps_read(pin, data, 8)) > 0) {
fwrite(data, 1, got, stdout);
}
}
ps_close(pin);
return 0;
}
int main() {
/* create a file with "encrypted" data */
return linetest();
FILE *out, *in;
unsigned char clear[8] = "ABCDEFGH";
unsigned char key[8] = "IxD8Lq1K";