nuttx/libs/libc/hex2bin/lib_hex2bin.c
Xiang Xiao 055f1f33eb libc/stream: Rename [lib_stream_](put|get) to [lib_stream_](putc|getc)
to make the naming style consistent with each other

Signed-off-by: Xiang Xiao <xiaoxiang@xiaomi.com>
2022-12-05 14:27:55 +01:00

687 lines
20 KiB
C

/****************************************************************************
* libs/libc/hex2bin/lib_hex2bin.c
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership. The
* ASF licenses this file to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance with the
* License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
* License for the specific language governing permissions and limitations
* under the License.
*
****************************************************************************/
/****************************************************************************
* References:
* - http://en.wikipedia.org/wiki/Intel_HEX
* - Hexadecimal Object File Format Specification, Revision A January 6,
* 1988, Intel
*
****************************************************************************/
/****************************************************************************
* Included Files
****************************************************************************/
#include <nuttx/config.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#include <stdint.h>
#include <debug.h>
#include <errno.h>
#include <hex2bin.h>
#include <nuttx/streams.h>
#include "libc.h"
#ifdef CONFIG_LIBC_HEX2BIN
/****************************************************************************
* Pre-processor Definitions
****************************************************************************/
/* ASCII record sizes */
#define BYTECOUNT_ASCSIZE 2
#define ADDRESS_ASCSIZE 4
#define RECTYPE_ASCSIZE 2
#define BYTECOUNT_LINENDX (0)
#define ADDRESS_LINENDX (BYTECOUNT_LINENDX + BYTECOUNT_ASCSIZE)
#define RECTYPE_LINENDX (ADDRESS_LINENDX + ADDRESS_ASCSIZE)
#define DATA_LINENDX (RECTYPE_LINENDX + RECTYPE_ASCSIZE)
#define HEADER_ASCSIZE DATA_LINENDX
#define CHECKSUM_ASCSIZE 2
#define TRAILER_SIZE (CHECKSUM_ASCSIZE)
#define MAXDATA_BINSIZE 255
#define RECORD_ASCSIZE(n) (HEADER_ASCSIZE + TRAILER_SIZE + 2*(n))
#define MAXRECORD_ASCSIZE RECORD_ASCSIZE(MAXDATA_BINSIZE)
#define MINRECORD_ASCSIZE RECORD_ASCSIZE(0)
#define LINE_ALLOC MAXRECORD_ASCSIZE
/* Binary record sizes */
#define BYTECOUNT_BINSIZE 1
#define ADDRESS_BINSIZE 2
#define RECTYPE_BINSIZE 1
#define BYTECOUNT_BINNDX (0)
#define ADDRESS_BINNDX (BYTECOUNT_BINNDX + BYTECOUNT_BINSIZE)
#define RECTYPE_BINNDX (ADDRESS_BINNDX + ADDRESS_BINSIZE)
#define DATA_BINNDX (RECTYPE_BINNDX + RECTYPE_BINSIZE)
#define HEADER_BINSIZE DATA_BINNDX
#define CHECKSUM_BINSIZE 1
#define TRAILER_BINSIZE CHECKSUM_BINSIZE
#define RECORD_BINSIZE(n) (HEADER_BINSIZE + TRAILER_BINSIZE + (n))
#define MAXRECORD_BINSIZE RECORD_BINSIZE(MAXDATA_BINSIZE)
#define MINRECORD_BKINSIZE RECORD_BINSIZE(0)
#define BIN_ALLOC MAXRECORD_BINSIZE
/* Record start code */
#define RECORD_STARTCODE ':'
/* Record Types */
#define RECORD_DATA 0 /* Data */
#define RECORD_EOF 1 /* End of file */
#define RECORD_EXT_SEGADDR 2 /* Extended segment address record */
#define RECORD_START_SEGADDR 3 /* Start segment address record */
#define RECORD_EXT_LINADDR 4 /* Extended linear address record */
#define RECORD_START_LINADDR 5 /* Start linear address record */
/****************************************************************************
* Private Functions
****************************************************************************/
/****************************************************************************
* Name: nibble2bin
****************************************************************************/
static int nibble2bin(uint8_t ascii)
{
if (ascii >= '0' && ascii <= '9')
{
return (ascii - 0x30);
}
else if (ascii >= 'a' && ascii <= 'f')
{
return (ascii - 'a' + 10);
}
else if (ascii >= 'A' && ascii <= 'F')
{
return (ascii - 'A' + 10);
}
return -EINVAL;
}
/****************************************************************************
* Name: byte2bin
****************************************************************************/
static int byte2bin(FAR const uint8_t *ascii)
{
int nibble;
int byte;
/* Get the MS nibble (big endian order) */
nibble = nibble2bin(*ascii++);
if (nibble < 0)
{
return nibble;
}
byte = (nibble << 4);
/* Get the MS nibble */
nibble = nibble2bin(*ascii);
if (nibble < 0)
{
return nibble;
}
byte |= nibble;
return byte;
}
/****************************************************************************
* Name: word2bin
****************************************************************************/
#if 0 /* Not used */
static int word2bin(FAR const char *ascii)
{
int byte;
int word;
/* Get the MS byte (big endian order) */
byte = word2bin(ascii);
if (byte < 0)
{
return byte;
}
word = (byte << 8);
/* Get the MS byte */
byte = word2bin(ascii + 2);
if (byte < 0)
{
return byte;
}
word |= byte;
return word;
}
#endif
/****************************************************************************
* Name: data2bin
****************************************************************************/
int data2bin(FAR uint8_t *dest, FAR const uint8_t *src, int nsrcbytes)
{
int byte;
/* An even number of source bytes is expected */
if ((nsrcbytes & 1) != 0)
{
return -EINVAL;
}
/* Convert src bytes in groups of 2, writing one byte to the output on each
* pass through the loop.
*/
while (nsrcbytes > 0)
{
/* Get the MS nibble (big endian order) */
byte = byte2bin(src);
if (byte < 0)
{
return byte;
}
src += 2;
/* And write the byte to the destination */
*dest++ = byte;
nsrcbytes -= 2;
}
return OK;
}
/****************************************************************************
* Name: readstream
****************************************************************************/
static int readstream(FAR struct lib_instream_s *instream,
FAR uint8_t *line, unsigned int lineno)
{
int nbytes = 0;
int ch;
/* Skip until the beginning of line start code is encountered */
ch = lib_stream_getc(instream);
while (ch != RECORD_STARTCODE && ch != EOF)
{
ch = lib_stream_getc(instream);
}
/* Skip over the startcode */
if (ch != EOF)
{
ch = lib_stream_getc(instream);
}
/* Then read, verify, and buffer until the end of line is encountered */
while (ch != EOF && nbytes < (MAXRECORD_ASCSIZE - 1))
{
if (ch == '\n' || ch == '\r')
{
*line = '\0';
return nbytes;
}
/* Only hex data goes into the line buffer */
else if (isxdigit(ch))
{
*line++ = ch;
nbytes++;
}
else if (!isspace(ch)) /* Not expected */
{
lerr("Line %u ERROR: Unexpected character %c[%02x] in stream\n",
lineno, isprint(ch) ? ch : '.', ch);
break;
}
/* Read the next character from the input stream */
ch = lib_stream_getc(instream);
}
/* Some error occurred: Unexpected EOF, line too long, or bad character in
* stream
*/
lerr("Line %u ERROR: Failed to read line. %d characters read\n",
lineno, nbytes);
return EOF;
}
/****************************************************************************
* Name: hex2bin_swap16 and hex2bin_swap32
****************************************************************************/
static inline void hex2bin_swap16(FAR uint8_t *data, int bytecount)
{
for (; bytecount > 0; bytecount -= 2)
{
uint8_t b0 = data[0];
uint8_t b1 = data[1];
*data++ = b1;
*data++ = b0;
}
}
static inline void hex2bin_swap32(FAR uint8_t *data, int bytecount)
{
for (; bytecount > 0; bytecount -= 4)
{
uint8_t b0 = data[0];
uint8_t b1 = data[1];
uint8_t b2 = data[2];
uint8_t b3 = data[3];
*data++ = b3;
*data++ = b2;
*data++ = b1;
*data++ = b0;
}
}
/****************************************************************************
* Name: writedata
****************************************************************************/
static inline void writedata(FAR struct lib_sostream_s *outstream,
FAR uint8_t *data, int bytecount)
{
for (; bytecount > 0; bytecount--)
{
lib_stream_putc(outstream, *data++);
}
}
/****************************************************************************
* Public Functions
****************************************************************************/
/****************************************************************************
* Name: hex2bin
*
* Description:
* Read the Intel HEX ASCII data provided on the serial IN stream and write
* the binary to the seek-able serial OUT stream.
*
* These streams may be files or, in another usage example, the IN stream
* could be a serial port and the OUT stream could be a memory stream.
* This would decode and write the serial input to memory.
*
* Input Parameters:
* instream - The incoming stream from which Intel HEX data will be
* received.
* outstream - The outgoing stream in which binary data will be written.
* baseaddr - The base address of the outgoing stream. Seeking in the
* output stream will be relative to this address.
* endpaddr - The end address (plus 1) of the outgoing stream. This
* value is used only for range checking. endpaddr must
* be larger than baseaddr. A zero value for endpaddr
* disables range checking.
* swap - Controls byte ordering. See enum hex2bin_swap_e for
* description of the values.
*
* Returned Value:
* Zero (OK) is returned on success; a negated errno value is returned on
* failure.
*
****************************************************************************/
int hex2bin(FAR struct lib_instream_s *instream,
FAR struct lib_sostream_s *outstream, uint32_t baseaddr,
uint32_t endpaddr, enum hex2bin_swap_e swap)
{
FAR uint8_t *alloc;
FAR uint8_t *line;
FAR uint8_t *bin;
int nbytes;
int bytecount;
uint32_t address;
uint32_t endaddr;
uint32_t expected;
uint32_t extension;
uint16_t address16;
uint8_t checksum;
unsigned int lineno;
int i;
int ret = OK;
/* Allocate buffer memory */
alloc = (FAR uint8_t *)lib_malloc(LINE_ALLOC + BIN_ALLOC);
if (alloc == NULL)
{
lerr("ERROR: Failed to allocate memory\n");
return -ENOMEM;
}
line = alloc;
bin = &alloc[LINE_ALLOC];
extension = 0;
expected = 0;
lineno = 0;
/* Read and process the HEX input stream stream until the end of file
* record is received (or until an error occurs)
*/
while ((nbytes = readstream(instream, line, lineno)) != EOF)
{
/* Increment the line number */
lineno++;
/* Did we read enough data to do anything? */
if (nbytes < MINRECORD_ASCSIZE)
{
lerr("Line %u ERROR: Record too short: %d\n", lineno, nbytes);
goto errout_with_einval;
}
/* We should always read an even number of bytes */
if ((nbytes & 1) != 0)
{
lerr("Line %u ERROR: Record length is odd: %d\n", lineno, nbytes);
goto errout_with_einval;
}
/* Get the data byte count */
bytecount = byte2bin(&line[BYTECOUNT_LINENDX]);
if (bytecount < 0)
{
lerr("Line %u ERROR: Failed to read bytecount: %d\n",
lineno, bytecount);
ret = bytecount;
goto errout_with_buffers;
}
/* Verify that the bytecount matches the length of the record */
if (RECORD_ASCSIZE(bytecount) != nbytes)
{
lerr("Line %u ERROR: Expected %d bytes, read %d\n",
lineno, RECORD_ASCSIZE(bytecount), nbytes);
goto errout_with_einval;
}
/* Convert the entire line to binary. We need to do this for
* checksum calculation which includes the entire line (minus
* the start code and the checksum at the end of the line itself)
*/
ret = data2bin(bin, line, nbytes);
if (ret < 0)
{
lerr("Line %u ERROR: Failed to convert line to binary: %d\n",
lineno, ret);
goto errout_with_buffers;
}
/* Calculate and verify the checksum over all of the data */
nbytes >>= 1; /* Number of bytes in bin[] */
checksum = 0;
for (i = 0; i < nbytes; i++)
{
checksum += bin[i];
}
if (checksum != 0)
{
lerr("Line %u ERROR: Bad checksum %02x\n", lineno, checksum);
goto errout_with_einval;
}
/* Get the 16-bit (unextended) address from the record */
address16 = (uint16_t)bin[ADDRESS_BINNDX] << 8 |
(uint16_t)bin[ADDRESS_BINNDX + 1];
/* Handle the record by its record type */
switch (bin[RECTYPE_BINNDX])
{
case RECORD_DATA: /* Data */
{
/* Swap data in place in the binary buffer as required */
switch (swap)
{
case HEX2BIN_NOSWAP: /* No swap, stream is the correct byte order */
break;
case HEX2BIN_SWAP16: /* Swap bytes in 16-bit values */
{
if ((bytecount & 1) != 0)
{
lerr("Line %d ERROR: Byte count %d is not a multiple "
"of 2\n",
lineno, bytecount);
goto errout_with_einval;
}
/* Do the byte swap */
hex2bin_swap16(&bin[DATA_BINNDX], bytecount);
}
break;
case HEX2BIN_SWAP32: /* Swap bytes in 32-bit values */
{
if ((bytecount & 3) != 0)
{
lerr("Line %d ERROR: Byte count %d is not a multiple "
"of 4\n",
lineno, bytecount);
goto errout_with_einval;
}
/* Do the byte swap */
hex2bin_swap32(&bin[DATA_BINNDX], bytecount);
}
break;
default:
{
lerr("ERROR: Invalid swap argument: %d\n", swap);
goto errout_with_einval;
}
}
/* Get and verify the full 32-bit address */
address = extension + (uint32_t)address16;
endaddr = address + bytecount;
if (address < baseaddr || (endpaddr != 0 && endaddr >= endpaddr))
{
lerr("Line %d ERROR: Extended address %08lx is out of "
"range\n",
lineno, (unsigned long)address);
goto errout_with_einval;
}
/* Seek to the correct position in the OUT stream if we have
* made an unexpected jump in the data address.
*/
if (address != expected)
{
off_t pos = lib_stream_seek(outstream,
address - baseaddr, SEEK_SET);
if (pos == (off_t)-1)
{
lerr("Line %u ERROR: Seek to address %08lu failed\n",
lineno, (unsigned long)address);
ret = -ESPIPE;
goto errout_with_buffers;
}
}
/* Transfer data to the OUT stream */
writedata(outstream, &bin[DATA_BINNDX], bytecount);
/* This is the next data address that we expect to see */
expected = address + bytecount;
}
break;
case RECORD_EOF: /* End of file */
/* End Of File record. Must occur exactly once per file in the
* last line of the file. The byte count is 00 and the data field
* is empty. Usually the address field is also 0000.
*/
if (bytecount == 0)
{
ret = OK;
goto exit_with_buffers;
}
lerr("Line %u ERROR: Nonzero bytecount %d in EOF\n",
lineno, bytecount);
goto errout_with_einval;
case RECORD_EXT_SEGADDR: /* Extended segment address record */
/* The address specified by the data field is multiplied by 16
* (shifted 4 bits left) and added to the subsequent data record
* addresses. This allows addressing of up to a megabyte of
* address space. The address field of this record has to be
* 0000, the byte count is 02 (the segment is 16-bit). The
* least significant hex digit of the segment address is always
* 0.
*/
if (bytecount != 2 || address16 != 0 || bin[DATA_BINNDX + 1] != 0)
{
lerr("Line %u ERROR: Invalid segment address\n", lineno);
lerr(" bytecount=%d address=%04x segment=%02x%02x\n",
bytecount, address16, bin[DATA_BINNDX],
bin[DATA_BINNDX + 1]);
goto errout_with_einval;
}
extension = (uint32_t)bin[DATA_BINNDX] << 12;
break;
case RECORD_START_SEGADDR: /* Start segment address record */
/* For 80x86 processors, it specifies the initial content of
* the CS:IP registers. The address field is 0000, the byte
* count is 04, the first two bytes are the CS value, the
* latter two are the IP value.
*/
break;
case RECORD_EXT_LINADDR: /* Extended linear address record */
/* The address field is 0000, the byte count is 02. The two
* data bytes (two hex digit pairs in big endian order)
* represent the upper 16 bits of the 32 bit address for
* all subsequent 00 type records until the next 04 type
* record comes. If there is not a 04 type record, the
* upper 16 bits default to 0000. To get the absolute
* address for subsequent 00 type records, the address
* specified by the data field of the most recent 04 record
* is added to the 00 record addresses.
*/
if (bytecount != 2 || address16 != 0)
{
lerr("Line %u ERROR: Invalid linear address\n", lineno);
lerr(" bytecount=%d address=%04x\n", bytecount, address16);
goto errout_with_einval;
}
extension = (uint32_t)bin[DATA_BINNDX] << 24 |
(uint32_t)bin[DATA_BINNDX + 1] << 16;
break;
case RECORD_START_LINADDR: /* Start linear address record */
/* The address field is 0000, the byte count is 04. The 4
* data bytes represent the 32-bit value loaded into the EIP
* register of the 80386 and higher CPU.
*/
break;
default:
break;
}
}
lerr("ERROR: No EOF record found\n");
errout_with_einval:
ret = -EINVAL;
errout_with_buffers:
exit_with_buffers:
lib_free(alloc);
return ret;
}
#endif /* CONFIG_LIBC_HEX2BIN */