pdfio/pdfio-value.c
2023-12-05 13:49:58 -05:00

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//
// PDF value functions for PDFio.
//
// Copyright © 2021-2023 by Michael R Sweet.
//
// Licensed under Apache License v2.0. See the file "LICENSE" for more
// information.
//
#include "pdfio-private.h"
//
// '_pdfioValueCopy()' - Copy a value to a PDF file.
//
_pdfio_value_t *
_pdfioValueCopy(pdfio_file_t *pdfdst, // I - Destination PDF file
_pdfio_value_t *vdst, // I - Destination value
pdfio_file_t *pdfsrc, // I - Source PDF file
_pdfio_value_t *vsrc) // I - Source value
{
pdfio_obj_t *obj; // Object reference
#ifdef DEBUG
static const char * const types[] = // Type strings for debug
{
"PDFIO_VALTYPE_NONE",
"PDFIO_VALTYPE_ARRAY",
"PDFIO_VALTYPE_BINARY",
"PDFIO_VALTYPE_BOOLEAN",
"PDFIO_VALTYPE_DATE",
"PDFIO_VALTYPE_DICT",
"PDFIO_VALTYPE_INDIRECT",
"PDFIO_VALTYPE_NAME",
"PDFIO_VALTYPE_NULL",
"PDFIO_VALTYPE_NUMBER",
"PDFIO_VALTYPE_STRING"
};
#endif // DEBUG
PDFIO_DEBUG("_pdfioValueCopy(pdfdst=%p, vdst=%p, pdfsrc=%p, vsrc=%p(%s))\n", pdfdst, vdst, pdfsrc, vsrc, types[vsrc->type]);
if (pdfdst == pdfsrc && vsrc->type != PDFIO_VALTYPE_BINARY)
{
// For the same document we can copy the values without any other effort
// unless there is a binary (hex string) value...
*vdst = *vsrc;
return (vdst);
}
// Not the same document or a binary value, do a deep copy...
switch (vsrc->type)
{
case PDFIO_VALTYPE_INDIRECT :
if ((obj = _pdfioFileFindMappedObj(pdfdst, pdfsrc, vsrc->value.indirect.number)) == NULL)
{
obj = pdfioObjCopy(pdfdst, pdfioFileFindObj(pdfsrc, vsrc->value.indirect.number));
}
if (!obj)
return (NULL);
vdst->value.indirect.number = obj->number;
vdst->value.indirect.generation = obj->generation;
break;
default :
return (NULL);
case PDFIO_VALTYPE_ARRAY :
vdst->value.array = pdfioArrayCopy(pdfdst, vsrc->value.array);
break;
case PDFIO_VALTYPE_BINARY :
if ((vdst->value.binary.data = (unsigned char *)malloc(vsrc->value.binary.datalen)) == NULL)
{
_pdfioFileError(pdfdst, "Unable to allocate memory for a binary string - %s", strerror(errno));
return (NULL);
}
vdst->value.binary.datalen = vsrc->value.binary.datalen;
memcpy(vdst->value.binary.data, vsrc->value.binary.data, vdst->value.binary.datalen);
break;
case PDFIO_VALTYPE_BOOLEAN :
case PDFIO_VALTYPE_DATE :
case PDFIO_VALTYPE_NUMBER :
*vdst = *vsrc;
return (vdst);
case PDFIO_VALTYPE_DICT :
vdst->value.dict = pdfioDictCopy(pdfdst, vsrc->value.dict);
break;
case PDFIO_VALTYPE_NAME :
case PDFIO_VALTYPE_STRING :
vdst->value.name = pdfioStringCreate(pdfdst, vsrc->value.name);
break;
}
vdst->type = vsrc->type;
return (vdst);
}
//
// '_pdfioValueDebug()' - Print the contents of a value.
//
void
_pdfioValueDebug(_pdfio_value_t *v, // I - Value
FILE *fp) // I - Output file
{
switch (v->type)
{
case PDFIO_VALTYPE_ARRAY :
_pdfioArrayDebug(v->value.array, fp);
break;
case PDFIO_VALTYPE_BINARY :
{
size_t i; // Looping var
unsigned char *ptr; // Pointer into data
putc('<', fp);
for (i = v->value.binary.datalen, ptr = v->value.binary.data; i > 0; i --, ptr ++)
fprintf(fp, "%02X", *ptr);
putc('>', fp);
}
break;
case PDFIO_VALTYPE_BOOLEAN :
fputs(v->value.boolean ? " true" : " false", fp);
break;
case PDFIO_VALTYPE_DATE :
{
struct tm dateval; // Date value
#ifdef _WIN32
gmtime_s(&dateval, &v->value.date);
#else
gmtime_r(&v->value.date, &dateval);
#endif // _WIN32
fprintf(fp, "(D:%04d%02d%02d%02d%02d%02dZ)", dateval.tm_year + 1900, dateval.tm_mon + 1, dateval.tm_mday, dateval.tm_hour, dateval.tm_min, dateval.tm_sec);
}
break;
case PDFIO_VALTYPE_DICT :
fputs("<<", fp);
_pdfioDictDebug(v->value.dict, fp);
fputs(">>", fp);
break;
case PDFIO_VALTYPE_INDIRECT :
fprintf(fp, " %lu %u R", (unsigned long)v->value.indirect.number, v->value.indirect.generation);
break;
case PDFIO_VALTYPE_NAME :
fprintf(fp, "/%s", v->value.name);
break;
case PDFIO_VALTYPE_NULL :
fputs(" null", fp);
break;
case PDFIO_VALTYPE_NUMBER :
fprintf(fp, " %g", v->value.number);
break;
case PDFIO_VALTYPE_STRING :
fprintf(fp, "(%s)", v->value.string);
break;
default :
break;
}
}
//
// '_pdfioValueDelete()' - Free the memory used by a value.
//
void
_pdfioValueDelete(_pdfio_value_t *v) // I - Value
{
if (v->type == PDFIO_VALTYPE_BINARY)
free(v->value.binary.data);
}
//
// '_pdfioValueRead()' - Read a value from a file.
//
_pdfio_value_t * // O - Value or `NULL` on error/EOF
_pdfioValueRead(pdfio_file_t *pdf, // I - PDF file
pdfio_obj_t *obj, // I - Object, if any
_pdfio_token_t *tb, // I - Token buffer/stack
_pdfio_value_t *v, // I - Value
size_t depth) // I - Depth of value
{
char token[32768]; // Token buffer
#ifdef DEBUG
static const char * const valtypes[] =
{
"<<none>>", // No value, not set
"array", // Array
"hex-string", // Binary data
"boolean", // Boolean
"date", // Date/time
"dict", // Dictionary
"indirect", // Indirect object (N G obj)
"name", // Name
"null", // Null object
"number", // Number (integer or real)
"string" // String
};
#endif // DEBUG
PDFIO_DEBUG("_pdfioValueRead(pdf=%p, obj=%p, v=%p)\n", pdf, obj, v);
if (!_pdfioTokenGet(tb, token, sizeof(token)))
return (NULL);
if (!strcmp(token, "["))
{
// Start of array
if (depth >= PDFIO_MAX_DEPTH)
{
_pdfioFileError(pdf, "Too many nested arrays.");
return (NULL);
}
v->type = PDFIO_VALTYPE_ARRAY;
if ((v->value.array = _pdfioArrayRead(pdf, obj, tb, depth + 1)) == NULL)
return (NULL);
}
else if (!strcmp(token, "<<"))
{
// Start of dictionary
if (depth >= PDFIO_MAX_DEPTH)
{
_pdfioFileError(pdf, "Too many nested dictionaries.");
return (NULL);
}
v->type = PDFIO_VALTYPE_DICT;
if ((v->value.dict = _pdfioDictRead(pdf, obj, tb, depth + 1)) == NULL)
return (NULL);
}
else if (!strncmp(token, "(D:", 3))
{
// Possible date value of the form:
//
// (D:YYYYMMDDhhmmssZ)
// (D:YYYYMMDDhhmmss+HH'mm)
// (D:YYYYMMDDhhmmss-HH'mm)
//
int i; // Looping var
struct tm dateval; // Date value
int offset; // Date offset
for (i = 3; i < 17; i ++)
{
if (!isdigit(token[i] & 255))
break;
}
if (i >= 17)
{
if (token[i] == 'Z')
{
i ++;
}
else if (token[i] == '-' || token[i] == '+')
{
if (isdigit(token[i + 1] & 255) && isdigit(token[i + 2] & 255) && token[i + 3] == '\'' && isdigit(token[i + 4] & 255) && isdigit(token[i + 5] & 255))
{
i += 6;
if (token[i] == '\'')
i ++;
}
}
}
if (token[i])
{
// Just a string...
v->type = PDFIO_VALTYPE_STRING;
v->value.string = pdfioStringCreate(pdf, token + 1);
}
else
{
// Date value...
memset(&dateval, 0, sizeof(dateval));
dateval.tm_year = (token[3] - '0') * 1000 + (token[4] - '0') * 100 + (token[5] - '0') * 10 + token[6] - '0' - 1900;
dateval.tm_mon = (token[7] - '0') * 10 + token[8] - '0' - 1;
dateval.tm_mday = (token[9] - '0') * 10 + token[10] - '0';
dateval.tm_hour = (token[11] - '0') * 10 + token[12] - '0';
dateval.tm_min = (token[13] - '0') * 10 + token[14] - '0';
dateval.tm_sec = (token[15] - '0') * 10 + token[16] - '0';
if (token[17] == 'Z')
{
offset = 0;
}
else
{
offset = (token[18] - '0') * 600 + (token[19] - '0') * 60 + (token[20] - '0') * 10 + token[21] - '0';
if (token[17] == '-')
offset = -offset;
}
v->type = PDFIO_VALTYPE_DATE;
v->value.date = mktime(&dateval) + offset;
}
}
else if (token[0] == '(')
{
// String
v->type = PDFIO_VALTYPE_STRING;
v->value.string = pdfioStringCreate(pdf, token + 1);
}
else if (token[0] == '/')
{
// Name
v->type = PDFIO_VALTYPE_NAME;
v->value.name = pdfioStringCreate(pdf, token + 1);
}
else if (token[0] == '<')
{
// Hex string
const char *tokptr; // Pointer into token
unsigned char *dataptr; // Pointer into data
v->type = PDFIO_VALTYPE_BINARY;
v->value.binary.datalen = strlen(token) / 2;
if ((v->value.binary.data = (unsigned char *)malloc(v->value.binary.datalen)) == NULL)
{
_pdfioFileError(pdf, "Out of memory for hex string.");
return (NULL);
}
// Convert hex to binary...
tokptr = token + 1;
dataptr = v->value.binary.data;
while (*tokptr)
{
int d; // Data value
if (isdigit(*tokptr))
d = (*tokptr++ - '0') << 4;
else
d = (tolower(*tokptr++) - 'a' + 10) << 4;
if (*tokptr)
{
// PDF allows writers to drop a trailing 0...
if (isdigit(*tokptr))
d |= *tokptr++ - '0';
else
d |= tolower(*tokptr++) - 'a' + 10;
}
*dataptr++ = (unsigned char)d;
}
if (obj && pdf->encryption)
{
// Decrypt the string...
_pdfio_crypto_ctx_t ctx; // Decryption context
_pdfio_crypto_cb_t cb; // Decryption callback
size_t ivlen; // Number of initialization vector bytes
uint8_t temp[32768]; // Temporary buffer for decryption
size_t templen; // Number of actual data bytes
if (v->value.binary.datalen > (sizeof(temp) - 32))
{
_pdfioFileError(pdf, "Unable to read encrypted binary string - too long.");
return (false);
}
ivlen = v->value.binary.datalen;
if ((cb = _pdfioCryptoMakeReader(pdf, obj, &ctx, v->value.binary.data, &ivlen)) == NULL)
return (false);
templen = (cb)(&ctx, temp, v->value.binary.data + ivlen, v->value.binary.datalen - ivlen);
// Copy the decrypted string back to the value and adjust the length...
memcpy(v->value.binary.data, temp, templen);
if (pdf->encryption >= PDFIO_ENCRYPTION_AES_128)
v->value.binary.datalen = templen - temp[templen - 1];
else
v->value.binary.datalen = templen;
}
}
else if (strchr("0123456789-+.", token[0]) != NULL)
{
// Number or indirect object reference
if (isdigit(token[0]) && !strchr(token, '.'))
{
// Integer or object ref...
unsigned char *tempptr; // Pointer into buffer
#ifdef DEBUG
PDFIO_DEBUG("_pdfioValueRead: %d bytes left in buffer: '", (int)(tb->bufend - tb->bufptr));
for (tempptr = tb->bufptr; tempptr < tb->bufend; tempptr ++)
{
if (*tempptr < ' ' || *tempptr == 0x7f)
PDFIO_DEBUG("\\%03o", *tempptr);
else
PDFIO_DEBUG("%c", *tempptr);
}
PDFIO_DEBUG("'.\n");
#endif // DEBUG
if ((tb->bufend - tb->bufptr) < 10)
{
// Fill up buffer...
ssize_t bytes; // Bytes peeked
_pdfioTokenFlush(tb);
if ((bytes = (tb->peek_cb)(tb->cb_data, tb->buffer, sizeof(tb->buffer))) > 0)
tb->bufend = tb->buffer + bytes;
#ifdef DEBUG
PDFIO_DEBUG("_pdfioValueRead: %d bytes now in buffer: '", (int)(tb->bufend - tb->bufptr));
for (tempptr = tb->bufptr; tempptr < tb->bufend; tempptr ++)
{
if (*tempptr < ' ' || *tempptr == 0x7f)
PDFIO_DEBUG("\\%03o", *tempptr);
else
PDFIO_DEBUG("%c", *tempptr);
}
PDFIO_DEBUG("'.\n");
#endif // DEBUG
}
tempptr = tb->bufptr;
while (tempptr < tb->bufend && isspace(*tempptr & 255))
tempptr ++; // Skip whitespace as needed...
if (tempptr < tb->bufend && isdigit(*tempptr & 255))
{
// Integer...
long generation = 0; // Generation number
while (tempptr < tb->bufend && isdigit(*tempptr & 255))
{
generation = generation * 10 + *tempptr - '0';
tempptr ++;
}
while (tempptr < tb->bufend && isspace(*tempptr & 255))
tempptr ++; // Skip whitespace
if (tempptr < tb->bufend && *tempptr == 'R')
{
// Reference!
PDFIO_DEBUG("_pdfioValueRead: Consuming %d bytes.\n", (int)(tempptr - tb->bufptr + 1));
tb->bufptr = tempptr + 1;
#ifdef DEBUG
PDFIO_DEBUG("_pdfioValueRead: Next bytes are '");
for (tempptr = tb->bufptr; tempptr < tb->bufend; tempptr ++)
{
if (*tempptr < ' ' || *tempptr == 0x7f)
PDFIO_DEBUG("\\%03o", *tempptr);
else
PDFIO_DEBUG("%c", *tempptr);
}
PDFIO_DEBUG("'.\n");
#endif // DEBUG
v->type = PDFIO_VALTYPE_INDIRECT;
v->value.indirect.number = (size_t)strtoimax(token, NULL, 10);
v->value.indirect.generation = (unsigned short)generation;
PDFIO_DEBUG("_pdfioValueRead: Returning indirect value %lu %u R.\n", (unsigned long)v->value.indirect.number, v->value.indirect.generation);
return (v);
}
}
}
// If we get here, we have a number...
v->type = PDFIO_VALTYPE_NUMBER;
v->value.number = (double)strtod(token, NULL);
}
else if (!strcmp(token, "true") || !strcmp(token, "false"))
{
// Boolean value
v->type = PDFIO_VALTYPE_BOOLEAN;
v->value.boolean = !strcmp(token, "true");
}
else if (!strcmp(token, "null"))
{
// null value
v->type = PDFIO_VALTYPE_NULL;
}
else
{
_pdfioFileError(pdf, "Unexpected '%s' token seen.", token);
return (NULL);
}
PDFIO_DEBUG("_pdfioValueRead: Returning %s value.\n", valtypes[v->type]);
return (v);
}
//
// '_pdfioValueWrite()' - Write a value to a PDF file.
//
bool // O - `true` on success, `false` on failure
_pdfioValueWrite(pdfio_file_t *pdf, // I - PDF file
pdfio_obj_t *obj, // I - Object, if any
_pdfio_value_t *v, // I - Value
off_t *length)// O - Offset to /Length value, if any
{
switch (v->type)
{
default :
return (false);
case PDFIO_VALTYPE_ARRAY :
return (_pdfioArrayWrite(v->value.array, obj));
case PDFIO_VALTYPE_BINARY :
{
size_t databytes; // Bytes to write
uint8_t temp[32768], // Temporary buffer for encryption
*dataptr; // Pointer into data
if (obj && pdf->encryption)
{
// Write encrypted string...
_pdfio_crypto_ctx_t ctx; // Encryption context
_pdfio_crypto_cb_t cb; // Encryption callback
size_t ivlen; // Number of initialization vector bytes
if (v->value.binary.datalen > (sizeof(temp) - 32))
{
_pdfioFileError(pdf, "Unable to write encrypted binary string - too long.");
return (false);
}
cb = _pdfioCryptoMakeWriter(pdf, obj, &ctx, temp, &ivlen);
databytes = (cb)(&ctx, temp + ivlen, v->value.binary.data, v->value.binary.datalen) + ivlen;
dataptr = temp;
}
else
{
dataptr = v->value.binary.data;
databytes = v->value.binary.datalen;
}
if (!_pdfioFilePuts(pdf, "<"))
return (false);
for (; databytes > 1; databytes -= 2, dataptr += 2)
{
if (!_pdfioFilePrintf(pdf, "%02X%02X", dataptr[0], dataptr[1]))
return (false);
}
if (databytes > 0)
return (_pdfioFilePrintf(pdf, "%02X>", dataptr[0]));
else
return (_pdfioFilePuts(pdf, ">"));
}
case PDFIO_VALTYPE_BOOLEAN :
if (v->value.boolean)
return (_pdfioFilePuts(pdf, " true"));
else
return (_pdfioFilePuts(pdf, " false"));
case PDFIO_VALTYPE_DATE :
{
struct tm date; // Date values
char datestr[32]; // Formatted date value
#ifdef _WIN32
gmtime_s(&date, &v->value.date);
#else
gmtime_r(&v->value.date, &date);
#endif // _WIN32
snprintf(datestr, sizeof(datestr), "D:%04d%02d%02d%02d%02d%02dZ", date.tm_year + 1900, date.tm_mon + 1, date.tm_mday, date.tm_hour, date.tm_min, date.tm_sec);
if (obj && pdf->encryption)
{
// Write encrypted string...
uint8_t temp[32768], // Encrypted bytes
*tempptr; // Pointer into encrypted bytes
_pdfio_crypto_ctx_t ctx; // Encryption context
_pdfio_crypto_cb_t cb; // Encryption callback
size_t len = strlen(datestr),
// Length of value
ivlen, // Number of initialization vector bytes
tempbytes; // Number of output bytes
cb = _pdfioCryptoMakeWriter(pdf, obj, &ctx, temp, &ivlen);
tempbytes = (cb)(&ctx, temp + ivlen, (const uint8_t *)datestr, len) + ivlen;
if (!_pdfioFilePuts(pdf, "<"))
return (false);
for (tempptr = temp; tempbytes > 1; tempbytes -= 2, tempptr += 2)
{
if (!_pdfioFilePrintf(pdf, "%02X%02X", tempptr[0], tempptr[1]))
return (false);
}
if (tempbytes > 0)
return (_pdfioFilePrintf(pdf, "%02X>", *tempptr));
else
return (_pdfioFilePuts(pdf, ">"));
}
else
{
return (_pdfioFilePrintf(pdf, "(%s)", datestr));
}
}
case PDFIO_VALTYPE_DICT :
return (_pdfioDictWrite(v->value.dict, obj, length));
case PDFIO_VALTYPE_INDIRECT :
return (_pdfioFilePrintf(pdf, " %lu %u R", (unsigned long)v->value.indirect.number, v->value.indirect.generation));
case PDFIO_VALTYPE_NAME :
return (_pdfioFilePrintf(pdf, "/%s", v->value.name));
case PDFIO_VALTYPE_NULL :
return (_pdfioFilePuts(pdf, " null"));
case PDFIO_VALTYPE_NUMBER :
return (_pdfioFilePrintf(pdf, " %g", v->value.number));
case PDFIO_VALTYPE_STRING :
if (obj && pdf->encryption)
{
// Write encrypted string...
uint8_t temp[32768], // Encrypted bytes
*tempptr; // Pointer into encrypted bytes
_pdfio_crypto_ctx_t ctx; // Encryption context
_pdfio_crypto_cb_t cb; // Encryption callback
size_t len = strlen(v->value.string),
// Length of value
ivlen, // Number of initialization vector bytes
tempbytes; // Number of output bytes
if (len > (sizeof(temp) - 32))
{
_pdfioFileError(pdf, "Unable to write encrypted string - too long.");
return (false);
}
cb = _pdfioCryptoMakeWriter(pdf, obj, &ctx, temp, &ivlen);
tempbytes = (cb)(&ctx, temp + ivlen, (const uint8_t *)v->value.string, len) + ivlen;
if (!_pdfioFilePuts(pdf, "<"))
return (false);
for (tempptr = temp; tempbytes > 1; tempbytes -= 2, tempptr += 2)
{
if (!_pdfioFilePrintf(pdf, "%02X%02X", tempptr[0], tempptr[1]))
return (false);
}
if (tempbytes > 0)
return (_pdfioFilePrintf(pdf, "%02X>", *tempptr));
else
return (_pdfioFilePuts(pdf, ">"));
}
else
{
// Write unencrypted string...
const char *start, // Start of fragment
*end; // End of fragment
if (!_pdfioFilePuts(pdf, "("))
return (false);
// Write a quoted string value...
for (start = v->value.string; *start; start = end)
{
// Find the next character that needs to be quoted...
for (end = start; *end; end ++)
{
if (*end == '\\' || *end == ')' || (*end & 255) < ' ')
break;
}
if (end > start)
{
// Write unquoted (safe) characters...
if (!_pdfioFileWrite(pdf, start, (size_t)(end - start)))
return (false);
}
if (*end)
{
// Quote this character...
bool success; // Did the write work?
if (*end == '\\' || *end == ')')
success = _pdfioFilePrintf(pdf, "\\%c", *end);
else
success = _pdfioFilePrintf(pdf, "\\%03o", *end);
if (!success)
return (false);
end ++;
}
}
return (_pdfioFilePuts(pdf, ")"));
}
}
return (false);
}