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kc3-lang/libqrencode/qrinput.c
Kentaro Fukuchi
- qrinput.c
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/* * qrencode - QR Code encoder * * Input data chunk class * Copyright (C) 2006-2017 Kentaro Fukuchi <kentaro@fukuchi.org> * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ #if HAVE_CONFIG_H # include "config.h" #endif #include <stdio.h> #include <stdlib.h> #include <string.h> #include <errno.h> #include "qrencode.h" #include "qrspec.h" #include "mqrspec.h" #include "bitstream.h" #include "qrinput.h" /****************************************************************************** * Utilities *****************************************************************************/ int QRinput_isSplittableMode(QRencodeMode mode) { return (mode >= QR_MODE_NUM && mode <= QR_MODE_KANJI); } /****************************************************************************** * Entry of input data *****************************************************************************/ static QRinput_List *QRinput_List_newEntry(QRencodeMode mode, int size, const unsigned char *data) { QRinput_List *entry; if(QRinput_check(mode, size, data)) { errno = EINVAL; return NULL; } entry = (QRinput_List *)malloc(sizeof(QRinput_List)); if(entry == NULL) return NULL; entry->mode = mode; entry->size = size; entry->data = NULL; if(size > 0) { entry->data = (unsigned char *)malloc((size_t)size); if(entry->data == NULL) { free(entry); return NULL; } memcpy(entry->data, data, (size_t)size); } entry->bstream = NULL; entry->next = NULL; return entry; } static void QRinput_List_freeEntry(QRinput_List *entry) { if(entry != NULL) { free(entry->data); BitStream_free(entry->bstream); free(entry); } } static QRinput_List *QRinput_List_dup(QRinput_List *entry) { QRinput_List *n; n = (QRinput_List *)malloc(sizeof(QRinput_List)); if(n == NULL) return NULL; n->mode = entry->mode; n->size = entry->size; n->data = (unsigned char *)malloc((size_t)n->size); if(n->data == NULL) { free(n); return NULL; } memcpy(n->data, entry->data, (size_t)entry->size); n->bstream = NULL; n->next = NULL; return n; } /****************************************************************************** * Input Data *****************************************************************************/ QRinput *QRinput_new(void) { return QRinput_new2(0, QR_ECLEVEL_L); } QRinput *QRinput_new2(int version, QRecLevel level) { QRinput *input; if(version < 0 || version > QRSPEC_VERSION_MAX || level < 0 || level > QR_ECLEVEL_H) { errno = EINVAL; return NULL; } input = (QRinput *)malloc(sizeof(QRinput)); if(input == NULL) return NULL; input->head = NULL; input->tail = NULL; input->version = version; input->level = level; input->mqr = 0; input->fnc1 = 0; return input; } QRinput *QRinput_newMQR(int version, QRecLevel level) { QRinput *input; if(version <= 0 || version > MQRSPEC_VERSION_MAX) goto INVALID; if((MQRspec_getECCLength(version, level) == 0)) goto INVALID; input = QRinput_new2(version, level); if(input == NULL) return NULL; input->mqr = 1; return input; INVALID: errno = EINVAL; return NULL; } int QRinput_getVersion(QRinput *input) { return input->version; } int QRinput_setVersion(QRinput *input, int version) { if(input->mqr || version < 0 || version > QRSPEC_VERSION_MAX) { errno = EINVAL; return -1; } input->version = version; return 0; } QRecLevel QRinput_getErrorCorrectionLevel(QRinput *input) { return input->level; } int QRinput_setErrorCorrectionLevel(QRinput *input, QRecLevel level) { if(input->mqr || level > QR_ECLEVEL_H) { errno = EINVAL; return -1; } input->level = level; return 0; } int QRinput_setVersionAndErrorCorrectionLevel(QRinput *input, int version, QRecLevel level) { if(input->mqr) { if(version <= 0 || version > MQRSPEC_VERSION_MAX) goto INVALID; if((MQRspec_getECCLength(version, level) == 0)) goto INVALID; } else { if(version < 0 || version > QRSPEC_VERSION_MAX) goto INVALID; if(level > QR_ECLEVEL_H) goto INVALID; } input->version = version; input->level = level; return 0; INVALID: errno = EINVAL; return -1; } static void QRinput_appendEntry(QRinput *input, QRinput_List *entry) { if(input->tail == NULL) { input->head = entry; input->tail = entry; } else { input->tail->next = entry; input->tail = entry; } entry->next = NULL; } int QRinput_append(QRinput *input, QRencodeMode mode, int size, const unsigned char *data) { QRinput_List *entry; entry = QRinput_List_newEntry(mode, size, data); if(entry == NULL) { return -1; } QRinput_appendEntry(input, entry); return 0; } /** * Insert a structured-append header to the head of the input data. * @param input input data. * @param size number of structured symbols. * @param number index number of the symbol. (1 <= number <= size) * @param parity parity among input data. (NOTE: each symbol of a set of structured symbols has the same parity data) * @retval 0 success. * @retval -1 error occurred and errno is set to indeicate the error. See Execptions for the details. * @throw EINVAL invalid parameter. * @throw ENOMEM unable to allocate memory. */ STATIC_IN_RELEASE int QRinput_insertStructuredAppendHeader(QRinput *input, int size, int number, unsigned char parity) { QRinput_List *entry; unsigned char buf[3]; if(size > MAX_STRUCTURED_SYMBOLS) { errno = EINVAL; return -1; } if(number <= 0 || number > size) { errno = EINVAL; return -1; } buf[0] = (unsigned char)size; buf[1] = (unsigned char)number; buf[2] = parity; entry = QRinput_List_newEntry(QR_MODE_STRUCTURE, 3, buf); if(entry == NULL) { return -1; } entry->next = input->head; input->head = entry; return 0; } int QRinput_appendECIheader(QRinput *input, unsigned int ecinum) { unsigned char data[4]; if(ecinum > 999999) { errno = EINVAL; return -1; } /* We manually create byte array of ecinum because (unsigned char *)&ecinum may cause bus error on some architectures, */ data[0] = ecinum & 0xff; data[1] = (ecinum >> 8) & 0xff; data[2] = (ecinum >> 16) & 0xff; data[3] = (ecinum >> 24) & 0xff; return QRinput_append(input, QR_MODE_ECI, 4, data); } void QRinput_free(QRinput *input) { QRinput_List *list, *next; if(input != NULL) { list = input->head; while(list != NULL) { next = list->next; QRinput_List_freeEntry(list); list = next; } free(input); } } static unsigned char QRinput_calcParity(QRinput *input) { unsigned char parity = 0; QRinput_List *list; int i; list = input->head; while(list != NULL) { if(list->mode != QR_MODE_STRUCTURE) { for(i = list->size-1; i >= 0; i--) { parity ^= list->data[i]; } } list = list->next; } return parity; } QRinput *QRinput_dup(QRinput *input) { QRinput *n; QRinput_List *list, *e; if(input->mqr) { n = QRinput_newMQR(input->version, input->level); } else { n = QRinput_new2(input->version, input->level); } if(n == NULL) return NULL; list = input->head; while(list != NULL) { e = QRinput_List_dup(list); if(e == NULL) { QRinput_free(n); return NULL; } QRinput_appendEntry(n, e); list = list->next; } return n; } /****************************************************************************** * Numeric data *****************************************************************************/ /** * Check the input data. * @param size * @param data * @return result */ static int QRinput_checkModeNum(int size, const char *data) { int i; for(i = 0; i < size; i++) { if(data[i] < '0' || data[i] > '9') return -1; } return 0; } /** * Estimate the length of the encoded bit stream of numeric data. * @param size * @return number of bits */ int QRinput_estimateBitsModeNum(int size) { int w; int bits; w = size / 3; bits = w * 10; switch(size - w * 3) { case 1: bits += 4; break; case 2: bits += 7; break; default: break; } return bits; } /** * Convert the number data and append to a bit stream. * @param entry * @param mqr * @retval 0 success * @retval -1 an error occurred and errno is set to indeicate the error. * See Execptions for the details. * @throw ENOMEM unable to allocate memory. */ static int QRinput_encodeModeNum(QRinput_List *entry, BitStream *bstream, int version, int mqr) { int words, i, ret; unsigned int val; if(mqr) { if(version > 1) { ret = BitStream_appendNum(bstream, (size_t)(version - 1), MQRSPEC_MODEID_NUM); if(ret < 0) return -1; } ret = BitStream_appendNum(bstream, (size_t)MQRspec_lengthIndicator(QR_MODE_NUM, version), (unsigned int)entry->size); if(ret < 0) return -1; } else { ret = BitStream_appendNum(bstream, 4, QRSPEC_MODEID_NUM); if(ret < 0) return -1; ret = BitStream_appendNum(bstream, (size_t)QRspec_lengthIndicator(QR_MODE_NUM, version), (unsigned int)entry->size); if(ret < 0) return -1; } words = entry->size / 3; for(i = 0; i < words; i++) { val = (unsigned int)(entry->data[i*3 ] - '0') * 100; val += (unsigned int)(entry->data[i*3+1] - '0') * 10; val += (unsigned int)(entry->data[i*3+2] - '0'); ret = BitStream_appendNum(bstream, 10, val); if(ret < 0) return -1; } if(entry->size - words * 3 == 1) { val = (unsigned int)(entry->data[words*3] - '0'); ret = BitStream_appendNum(bstream, 4, val); if(ret < 0) return -1; } else if(entry->size - words * 3 == 2) { val = (unsigned int)(entry->data[words*3 ] - '0') * 10; val += (unsigned int)(entry->data[words*3+1] - '0'); ret = BitStream_appendNum(bstream, 7, val); if(ret < 0) return -1; } return 0; } /****************************************************************************** * Alphabet-numeric data *****************************************************************************/ const signed char QRinput_anTable[128] = { -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, 36, -1, -1, -1, 37, 38, -1, -1, -1, -1, 39, 40, -1, 41, 42, 43, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 44, -1, -1, -1, -1, -1, -1, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1 }; /** * Check the input data. * @param size * @param data * @return result */ static int QRinput_checkModeAn(int size, const char *data) { int i; for(i = 0; i < size; i++) { if(QRinput_lookAnTable(data[i]) < 0) return -1; } return 0; } /** * Estimate the length of the encoded bit stream of alphabet-numeric data. * @param size * @return number of bits */ int QRinput_estimateBitsModeAn(int size) { int w; int bits; w = size / 2; bits = w * 11; if(size & 1) { bits += 6; } return bits; } /** * Convert the alphabet-numeric data and append to a bit stream. * @param entry * @param mqr * @retval 0 success * @retval -1 an error occurred and errno is set to indeicate the error. * See Execptions for the details. * @throw ENOMEM unable to allocate memory. * @throw EINVAL invalid version. */ static int QRinput_encodeModeAn(QRinput_List *entry, BitStream *bstream, int version, int mqr) { int words, i, ret; unsigned int val; if(mqr) { if(version < 2) { errno = ERANGE; return -1; } ret = BitStream_appendNum(bstream, (size_t)(version - 1), MQRSPEC_MODEID_AN); if(ret < 0) return -1; ret = BitStream_appendNum(bstream, (size_t)MQRspec_lengthIndicator(QR_MODE_AN, version), (unsigned int)entry->size); if(ret < 0) return -1; } else { ret = BitStream_appendNum(bstream, 4, QRSPEC_MODEID_AN); if(ret < 0) return -1; ret = BitStream_appendNum(bstream, (size_t)QRspec_lengthIndicator(QR_MODE_AN, version), (unsigned int)entry->size); if(ret < 0) return -1; } words = entry->size / 2; for(i = 0; i < words; i++) { val = (unsigned int)QRinput_lookAnTable(entry->data[i*2 ]) * 45; val += (unsigned int)QRinput_lookAnTable(entry->data[i*2+1]); ret = BitStream_appendNum(bstream, 11, val); if(ret < 0) return -1; } if(entry->size & 1) { val = (unsigned int)QRinput_lookAnTable(entry->data[words * 2]); ret = BitStream_appendNum(bstream, 6, val); if(ret < 0) return -1; } return 0; } /****************************************************************************** * 8 bit data *****************************************************************************/ /** * Estimate the length of the encoded bit stream of 8 bit data. * @param size * @return number of bits */ int QRinput_estimateBitsMode8(int size) { return size * 8; } /** * Convert the 8bits data and append to a bit stream. * @param entry * @param mqr * @retval 0 success * @retval -1 an error occurred and errno is set to indeicate the error. * See Execptions for the details. * @throw ENOMEM unable to allocate memory. */ static int QRinput_encodeMode8(QRinput_List *entry, BitStream *bstream, int version, int mqr) { int ret; if(mqr) { if(version < 3) { errno = ERANGE; return -1; } ret = BitStream_appendNum(bstream, (size_t)(version - 1), MQRSPEC_MODEID_8); if(ret < 0) return -1; ret = BitStream_appendNum(bstream, (size_t)MQRspec_lengthIndicator(QR_MODE_8, version), (unsigned int)entry->size); if(ret < 0) return -1; } else { ret = BitStream_appendNum(bstream, 4, QRSPEC_MODEID_8); if(ret < 0) return -1; ret = BitStream_appendNum(bstream, (size_t)QRspec_lengthIndicator(QR_MODE_8, version), (unsigned int)entry->size); if(ret < 0) return -1; } ret = BitStream_appendBytes(bstream, (size_t)entry->size, entry->data); if(ret < 0) return -1; return 0; } /****************************************************************************** * Kanji data *****************************************************************************/ /** * Estimate the length of the encoded bit stream of kanji data. * @param size * @return number of bits */ int QRinput_estimateBitsModeKanji(int size) { return (size / 2) * 13; } /** * Check the input data. * @param size * @param data * @return result */ static int QRinput_checkModeKanji(int size, const unsigned char *data) { int i; unsigned int val; if(size & 1) return -1; for(i = 0; i < size; i+=2) { val = ((unsigned int)data[i] << 8) | data[i+1]; if(val < 0x8140 || (val > 0x9ffc && val < 0xe040) || val > 0xebbf) { return -1; } } return 0; } /** * Convert the kanji data and append to a bit stream. * @param entry * @param mqr * @retval 0 success * @retval -1 an error occurred and errno is set to indeicate the error. * See Execptions for the details. * @throw ENOMEM unable to allocate memory. * @throw EINVAL invalid version. */ static int QRinput_encodeModeKanji(QRinput_List *entry, BitStream *bstream, int version, int mqr) { int ret, i; unsigned int val, h; if(mqr) { if(version < 2) { errno = ERANGE; return -1; } ret = BitStream_appendNum(bstream, (size_t)(version - 1), MQRSPEC_MODEID_KANJI); if(ret < 0) return -1; ret = BitStream_appendNum(bstream, (size_t)MQRspec_lengthIndicator(QR_MODE_KANJI, version), (unsigned int)entry->size/2); if(ret < 0) return -1; } else { ret = BitStream_appendNum(bstream, 4, QRSPEC_MODEID_KANJI); if(ret < 0) return -1; ret = BitStream_appendNum(bstream, (size_t)QRspec_lengthIndicator(QR_MODE_KANJI, version), (unsigned int)entry->size/2); if(ret < 0) return -1; } for(i = 0; i < entry->size; i+=2) { val = ((unsigned int)entry->data[i] << 8) | entry->data[i+1]; if(val <= 0x9ffc) { val -= 0x8140; } else { val -= 0xc140; } h = (val >> 8) * 0xc0; val = (val & 0xff) + h; ret = BitStream_appendNum(bstream, 13, val); if(ret < 0) return -1; } return 0; } /****************************************************************************** * Structured Symbol *****************************************************************************/ /** * Convert a structure symbol code and append to a bit stream. * @param entry * @param mqr * @retval 0 success * @retval -1 an error occurred and errno is set to indeicate the error. * See Execptions for the details. * @throw ENOMEM unable to allocate memory. * @throw EINVAL invalid entry. */ static int QRinput_encodeModeStructure(QRinput_List *entry, BitStream *bstream, int mqr) { int ret; if(mqr) { errno = EINVAL; return -1; } ret = BitStream_appendNum(bstream, 4, QRSPEC_MODEID_STRUCTURE); if(ret < 0) return -1; ret = BitStream_appendNum(bstream, 4, entry->data[1] - 1U); if(ret < 0) return -1; ret = BitStream_appendNum(bstream, 4, entry->data[0] - 1U); if(ret < 0) return -1; ret = BitStream_appendNum(bstream, 8, entry->data[2]); if(ret < 0) return -1; return 0; } /****************************************************************************** * FNC1 *****************************************************************************/ static int QRinput_checkModeFNC1Second(int size) { if(size != 1) return -1; /* No data check required. */ return 0; } static int QRinput_encodeModeFNC1Second(QRinput_List *entry, BitStream *bstream) { int ret; ret = BitStream_appendNum(bstream, 4, QRSPEC_MODEID_FNC1SECOND); if(ret < 0) return -1; ret = BitStream_appendBytes(bstream, 1, entry->data); if(ret < 0) return -1; return 0; } /****************************************************************************** * ECI header *****************************************************************************/ static unsigned int QRinput_decodeECIfromByteArray(unsigned char *data) { int i; unsigned int ecinum; ecinum = 0; for(i = 0; i < 4; i++) { ecinum = ecinum << 8; ecinum |= data[3-i]; } return ecinum; } static int QRinput_estimateBitsModeECI(unsigned char *data) { unsigned int ecinum; ecinum = QRinput_decodeECIfromByteArray(data); /* See Table 4 of JISX 0510:2004 pp.17. */ if(ecinum < 128) { return MODE_INDICATOR_SIZE + 8; } else if(ecinum < 16384) { return MODE_INDICATOR_SIZE + 16; } else { return MODE_INDICATOR_SIZE + 24; } } static int QRinput_encodeModeECI(QRinput_List *entry, BitStream *bstream) { int ret, words; unsigned int ecinum, code; ecinum = QRinput_decodeECIfromByteArray(entry->data); /* See Table 4 of JISX 0510:2004 pp.17. */ if(ecinum < 128) { words = 1; code = ecinum; } else if(ecinum < 16384) { words = 2; code = 0x8000 + ecinum; } else { words = 3; code = 0xc0000 + ecinum; } ret = BitStream_appendNum(bstream, 4, QRSPEC_MODEID_ECI); if(ret < 0) return -1; ret = BitStream_appendNum(bstream, (size_t)words * 8, code); if(ret < 0) return -1; return 0; } /****************************************************************************** * Validation *****************************************************************************/ int QRinput_check(QRencodeMode mode, int size, const unsigned char *data) { if((mode == QR_MODE_FNC1FIRST && size < 0) || size <= 0) return -1; switch(mode) { case QR_MODE_NUM: return QRinput_checkModeNum(size, (const char *)data); case QR_MODE_AN: return QRinput_checkModeAn(size, (const char *)data); case QR_MODE_KANJI: return QRinput_checkModeKanji(size, data); case QR_MODE_8: return 0; case QR_MODE_STRUCTURE: return 0; case QR_MODE_ECI: return 0; case QR_MODE_FNC1FIRST: return 0; case QR_MODE_FNC1SECOND: return QRinput_checkModeFNC1Second(size); case QR_MODE_NUL: break; } return -1; } /****************************************************************************** * Estimation of the bit length *****************************************************************************/ /** * Estimate the length of the encoded bit stream on the current version. * @param entry * @param version version of the symbol * @param mqr * @return number of bits */ static int QRinput_estimateBitStreamSizeOfEntry(QRinput_List *entry, int version, int mqr) { int bits = 0; int l, m; int num; if(version == 0) version = 1; switch(entry->mode) { case QR_MODE_NUM: bits = QRinput_estimateBitsModeNum(entry->size); break; case QR_MODE_AN: bits = QRinput_estimateBitsModeAn(entry->size); break; case QR_MODE_8: bits = QRinput_estimateBitsMode8(entry->size); break; case QR_MODE_KANJI: bits = QRinput_estimateBitsModeKanji(entry->size); break; case QR_MODE_STRUCTURE: return STRUCTURE_HEADER_SIZE; case QR_MODE_ECI: bits = QRinput_estimateBitsModeECI(entry->data); break; case QR_MODE_FNC1FIRST: return MODE_INDICATOR_SIZE; case QR_MODE_FNC1SECOND: return MODE_INDICATOR_SIZE + 8; default: return 0; } if(mqr) { l = MQRspec_lengthIndicator(entry->mode, version); m = version - 1; bits += l + m; } else { l = QRspec_lengthIndicator(entry->mode, version); m = 1 << l; if(entry->mode == QR_MODE_KANJI) { num = (entry->size/2 + m - 1) / m; } else { num = (entry->size + m - 1) / m; } bits += num * (MODE_INDICATOR_SIZE + l); } return bits; } /** * Estimate the length of the encoded bit stream of the data. * @param input input data * @param version version of the symbol * @return number of bits */ STATIC_IN_RELEASE int QRinput_estimateBitStreamSize(QRinput *input, int version) { QRinput_List *list; int bits = 0; list = input->head; while(list != NULL) { bits += QRinput_estimateBitStreamSizeOfEntry(list, version, input->mqr); list = list->next; } return bits; } /** * Estimate the required version number of the symbol. * @param input input data * @return required version number or -1 for failure. */ STATIC_IN_RELEASE int QRinput_estimateVersion(QRinput *input) { int bits; int version, prev; version = 0; do { prev = version; bits = QRinput_estimateBitStreamSize(input, prev); version = QRspec_getMinimumVersion((bits + 7) / 8, input->level); if(prev == 0 && version > 1) { version--; } } while (version > prev); return version; } /** * Return required length in bytes for specified mode, version and bits. * @param mode * @param version * @param bits * @return required length of code words in bytes. */ STATIC_IN_RELEASE int QRinput_lengthOfCode(QRencodeMode mode, int version, int bits) { int payload, size, chunks, remain, maxsize; payload = bits - 4 - QRspec_lengthIndicator(mode, version); switch(mode) { case QR_MODE_NUM: chunks = payload / 10; remain = payload - chunks * 10; size = chunks * 3; if(remain >= 7) { size += 2; } else if(remain >= 4) { size += 1; } break; case QR_MODE_AN: chunks = payload / 11; remain = payload - chunks * 11; size = chunks * 2; if(remain >= 6) size++; break; case QR_MODE_8: size = payload / 8; break; case QR_MODE_KANJI: size = (payload / 13) * 2; break; case QR_MODE_STRUCTURE: size = payload / 8; break; default: size = 0; break; } maxsize = QRspec_maximumWords(mode, version); if(size < 0) size = 0; if(maxsize > 0 && size > maxsize) size = maxsize; return size; } /****************************************************************************** * Data conversion *****************************************************************************/ /** * Convert the input data in the data chunk and append to a bit stream. * @param entry * @param bstream * @return number of bits (>0) or -1 for failure. */ static int QRinput_encodeBitStream(QRinput_List *entry, BitStream *bstream, int version, int mqr) { int words, ret; QRinput_List *st1 = NULL, *st2 = NULL; int prevsize; prevsize = (int)BitStream_size(bstream); if(mqr) { words = MQRspec_maximumWords(entry->mode, version); } else { words = QRspec_maximumWords(entry->mode, version); } if(words != 0 && entry->size > words) { st1 = QRinput_List_newEntry(entry->mode, words, entry->data); if(st1 == NULL) goto ABORT; st2 = QRinput_List_newEntry(entry->mode, entry->size - words, &entry->data[words]); if(st2 == NULL) goto ABORT; ret = QRinput_encodeBitStream(st1, bstream, version, mqr); if(ret < 0) goto ABORT; ret = QRinput_encodeBitStream(st2, bstream, version, mqr); if(ret < 0) goto ABORT; QRinput_List_freeEntry(st1); QRinput_List_freeEntry(st2); } else { ret = 0; switch(entry->mode) { case QR_MODE_NUM: ret = QRinput_encodeModeNum(entry, bstream, version, mqr); break; case QR_MODE_AN: ret = QRinput_encodeModeAn(entry, bstream, version, mqr); break; case QR_MODE_8: ret = QRinput_encodeMode8(entry, bstream, version, mqr); break; case QR_MODE_KANJI: ret = QRinput_encodeModeKanji(entry, bstream, version, mqr); break; case QR_MODE_STRUCTURE: ret = QRinput_encodeModeStructure(entry, bstream, mqr); break; case QR_MODE_ECI: ret = QRinput_encodeModeECI(entry, bstream); break; case QR_MODE_FNC1SECOND: ret = QRinput_encodeModeFNC1Second(entry, bstream); break; default: break; } if(ret < 0) return -1; } return (int)BitStream_size(bstream) - prevsize; ABORT: QRinput_List_freeEntry(st1); QRinput_List_freeEntry(st2); return -1; } /** * Convert the input data to a bit stream. * @param input input data. * @retval 0 success * @retval -1 an error occurred and errno is set to indeicate the error. * See Execptions for the details. * @throw ENOMEM unable to allocate memory. */ static int QRinput_createBitStream(QRinput *input, BitStream *bstream) { QRinput_List *list; int bits, total = 0; list = input->head; while(list != NULL) { bits = QRinput_encodeBitStream(list, bstream, input->version, input->mqr); if(bits < 0) return -1; total += bits; list = list->next; } return total; } /** * Convert the input data to a bit stream. * When the version number is given and that is not sufficient, it is increased * automatically. * @param input input data. * @param bstream where the converted data is stored. * @retval 0 success * @retval -1 an error occurred and errno is set to indeicate the error. * See Execptions for the details. * @throw ENOMEM unable to allocate memory. * @throw ERANGE input data is too large. */ static int QRinput_convertData(QRinput *input, BitStream *bstream) { int bits; int ver; ver = QRinput_estimateVersion(input); if(ver > QRinput_getVersion(input)) { QRinput_setVersion(input, ver); } for(;;) { BitStream_reset(bstream); bits = QRinput_createBitStream(input, bstream); if(bits < 0) return -1; ver = QRspec_getMinimumVersion((bits + 7) / 8, input->level); if(ver > QRinput_getVersion(input)) { QRinput_setVersion(input, ver); } else { break; } } return 0; } /** * Append padding bits for the input data. * @param bstream Bitstream to be appended. * @param input input data. * @retval 0 success * @retval -1 an error occurred and errno is set to indeicate the error. * See Execptions for the details. * @throw ERANGE input data is too large. * @throw ENOMEM unable to allocate memory. */ static int QRinput_appendPaddingBit(BitStream *bstream, QRinput *input) { int bits, maxbits, words, maxwords, i, ret; int padlen; bits = (int)BitStream_size(bstream); maxwords = QRspec_getDataLength(input->version, input->level); maxbits = maxwords * 8; if(maxbits < bits) { errno = ERANGE; return -1; } if(maxbits == bits) { return 0; } if(maxbits - bits <= 4) { return (int)BitStream_appendNum(bstream, (size_t)(maxbits - bits), 0); } words = (bits + 4 + 7) / 8; ret = (int)BitStream_appendNum(bstream, (size_t)(words * 8 - bits), 0); if(ret < 0) return ret; padlen = maxwords - words; if(padlen > 0) { for(i = 0; i < padlen; i++) { ret = (int)BitStream_appendNum(bstream, 8, (i&1)?0x11:0xec); if(ret < 0) { return ret; } } } return 0; } /** * Append padding bits for the input data - Micro QR Code version. * @param bstream Bitstream to be appended. * @param input input data. * @retval 0 success * @retval -1 an error occurred and errno is set to indeicate the error. * See Execptions for the details. * @throw ERANGE input data is too large. * @throw ENOMEM unable to allocate memory. */ static int QRinput_appendPaddingBitMQR(BitStream *bstream, QRinput *input) { int bits, maxbits, words, maxwords, i, ret, termbits; int padlen; bits = (int)BitStream_size(bstream); maxbits = MQRspec_getDataLengthBit(input->version, input->level); maxwords = maxbits / 8; if(maxbits < bits) { errno = ERANGE; return -1; } if(maxbits == bits) { return 0; } termbits = input->version * 2 + 1; if(maxbits - bits <= termbits) { return (int)BitStream_appendNum(bstream, (size_t)(maxbits - bits), 0); } bits += termbits; words = (bits + 7) / 8; if(maxbits - words * 8 > 0) { termbits += words * 8 - bits; if(words == maxwords) termbits += maxbits - words * 8; } else { termbits += words * 8 - bits; } ret = (int)BitStream_appendNum(bstream, (size_t)termbits, 0); if(ret < 0) return ret; padlen = maxwords - words; if(padlen > 0) { for(i = 0; i < padlen; i++) { ret = (int)BitStream_appendNum(bstream, 8, (i&1)?0x11:0xec); if(ret < 0) return ret; } termbits = maxbits - maxwords * 8; if(termbits > 0) { ret = (int)BitStream_appendNum(bstream, (size_t)termbits, 0); if(ret < 0) return ret; } } return 0; } static int QRinput_insertFNC1Header(QRinput *input) { QRinput_List *entry = NULL; if(input->fnc1 == 1) { entry = QRinput_List_newEntry(QR_MODE_FNC1FIRST, 0, NULL); } else if(input->fnc1 == 2) { entry = QRinput_List_newEntry(QR_MODE_FNC1SECOND, 1, &(input->appid)); } if(entry == NULL) { return -1; } if(input->head->mode != QR_MODE_STRUCTURE && input->head->mode != QR_MODE_ECI) { entry->next = input->head; input->head = entry; } else { entry->next = input->head->next; input->head->next = entry; } return 0; } /** * Merge all bit streams in the input data. * @param input input data. * @return merged bit stream */ STATIC_IN_RELEASE int QRinput_mergeBitStream(QRinput *input, BitStream *bstream) { if(input->mqr) { if(QRinput_createBitStream(input, bstream) < 0) { return -1; } } else { if(input->fnc1) { if(QRinput_insertFNC1Header(input) < 0) { return -1; } } if(QRinput_convertData(input, bstream) < 0) { return -1; } } return 0; } /** * Merge all bit streams in the input data and append padding bits * @param input input data. * @return padded merged bit stream */ STATIC_IN_RELEASE int QRinput_getBitStream(QRinput *input, BitStream *bstream) { int ret; ret = QRinput_mergeBitStream(input, bstream); if(ret < 0) return -1; if(input->mqr) { ret = QRinput_appendPaddingBitMQR(bstream, input); } else { ret = QRinput_appendPaddingBit(bstream, input); } if(ret < 0) return -1; return 0; } /** * Pack all bit streams padding bits into a byte array. * @param input input data. * @return padded merged byte stream */ unsigned char *QRinput_getByteStream(QRinput *input) { BitStream *bstream; unsigned char *array; int ret; bstream = BitStream_new(); if(bstream == NULL) { return NULL; } ret = QRinput_getBitStream(input, bstream); if(ret < 0) { BitStream_free(bstream); return NULL; } array = BitStream_toByte(bstream); BitStream_free(bstream); return array; } /****************************************************************************** * Structured input data *****************************************************************************/ static QRinput_InputList *QRinput_InputList_newEntry(QRinput *input) { QRinput_InputList *entry; entry = (QRinput_InputList *)malloc(sizeof(QRinput_InputList)); if(entry == NULL) return NULL; entry->input = input; entry->next = NULL; return entry; } static void QRinput_InputList_freeEntry(QRinput_InputList *entry) { if(entry != NULL) { QRinput_free(entry->input); free(entry); } } QRinput_Struct *QRinput_Struct_new(void) { QRinput_Struct *s; s = (QRinput_Struct *)malloc(sizeof(QRinput_Struct)); if(s == NULL) return NULL; s->size = 0; s->parity = -1; s->head = NULL; s->tail = NULL; return s; } void QRinput_Struct_setParity(QRinput_Struct *s, unsigned char parity) { s->parity = (int)parity; } int QRinput_Struct_appendInput(QRinput_Struct *s, QRinput *input) { QRinput_InputList *e; if(input->mqr) { errno = EINVAL; return -1; } e = QRinput_InputList_newEntry(input); if(e == NULL) return -1; s->size++; if(s->tail == NULL) { s->head = e; s->tail = e; } else { s->tail->next = e; s->tail = e; } return s->size; } void QRinput_Struct_free(QRinput_Struct *s) { QRinput_InputList *list, *next; if(s != NULL) { list = s->head; while(list != NULL) { next = list->next; QRinput_InputList_freeEntry(list); list = next; } free(s); } } static unsigned char QRinput_Struct_calcParity(QRinput_Struct *s) { QRinput_InputList *list; unsigned char parity = 0; list = s->head; while(list != NULL) { parity ^= QRinput_calcParity(list->input); list = list->next; } QRinput_Struct_setParity(s, parity); return parity; } static int QRinput_List_shrinkEntry(QRinput_List *entry, int bytes) { unsigned char *data; data = (unsigned char *)malloc((size_t)bytes); if(data == NULL) return -1; memcpy(data, entry->data, (size_t)bytes); free(entry->data); entry->data = data; entry->size = bytes; return 0; } STATIC_IN_RELEASE int QRinput_splitEntry(QRinput_List *entry, int bytes) { QRinput_List *e; int ret; e = QRinput_List_newEntry(entry->mode, entry->size - bytes, entry->data + bytes); if(e == NULL) { return -1; } ret = QRinput_List_shrinkEntry(entry, bytes); if(ret < 0) { QRinput_List_freeEntry(e); return -1; } e->next = entry->next; entry->next = e; return 0; } QRinput_Struct *QRinput_splitQRinputToStruct(QRinput *input) { QRinput *p = NULL; QRinput_Struct *s = NULL; int bits, maxbits, nextbits, bytes, ret; QRinput_List *list, *next, *prev; BitStream *bstream = NULL; if(input->mqr) { errno = EINVAL; return NULL; } s = QRinput_Struct_new(); if(s == NULL) return NULL; input = QRinput_dup(input); if(input == NULL) { QRinput_Struct_free(s); return NULL; } QRinput_Struct_setParity(s, QRinput_calcParity(input)); maxbits = QRspec_getDataLength(input->version, input->level) * 8 - STRUCTURE_HEADER_SIZE; if(maxbits <= 0) goto ABORT; bstream = BitStream_new(); if(bstream == NULL) goto ABORT; bits = 0; list = input->head; prev = NULL; while(list != NULL) { nextbits = QRinput_estimateBitStreamSizeOfEntry(list, input->version, input->mqr); if(bits + nextbits <= maxbits) { BitStream_reset(bstream); ret = QRinput_encodeBitStream(list, bstream, input->version, input->mqr); if(ret < 0) goto ABORT; bits += ret; prev = list; list = list->next; } else { bytes = QRinput_lengthOfCode(list->mode, input->version, maxbits - bits); p = QRinput_new2(input->version, input->level); if(p == NULL) goto ABORT; if(bytes > 0) { /* Splits this entry into 2 entries. */ ret = QRinput_splitEntry(list, bytes); if(ret < 0) { QRinput_free(p); goto ABORT; } /* First half is the tail of the current input. */ next = list->next; list->next = NULL; /* Second half is the head of the next input, p.*/ p->head = next; /* Renew QRinput.tail. */ p->tail = input->tail; input->tail = list; /* Point to the next entry. */ prev = list; list = next; } else { /* Current entry will go to the next input. */ prev->next = NULL; p->head = list; p->tail = input->tail; input->tail = prev; } ret = QRinput_Struct_appendInput(s, input); if(ret < 0) { QRinput_free(p); goto ABORT; } input = p; bits = 0; } } ret = QRinput_Struct_appendInput(s, input); if(ret < 0) goto ABORT; if(s->size > MAX_STRUCTURED_SYMBOLS) { errno = ERANGE; QRinput_Struct_free(s); BitStream_free(bstream); return NULL; } ret = QRinput_Struct_insertStructuredAppendHeaders(s); if(ret < 0) { QRinput_Struct_free(s); BitStream_free(bstream); return NULL; } BitStream_free(bstream); return s; ABORT: BitStream_free(bstream); QRinput_free(input); QRinput_Struct_free(s); return NULL; } int QRinput_Struct_insertStructuredAppendHeaders(QRinput_Struct *s) { int i; QRinput_InputList *list; if(s->size == 1) { return 0; } if(s->parity < 0) { QRinput_Struct_calcParity(s); } i = 1; list = s->head; while(list != NULL) { if(QRinput_insertStructuredAppendHeader(list->input, s->size, i, s->parity)) return -1; i++; list = list->next; } return 0; } /****************************************************************************** * Extended encoding mode (FNC1 and ECI) *****************************************************************************/ int QRinput_setFNC1First(QRinput *input) { if(input->mqr) { errno = EINVAL; return -1; } input->fnc1 = 1; return 0; } int QRinput_setFNC1Second(QRinput *input, unsigned char appid) { if(input->mqr) { errno = EINVAL; return -1; } input->fnc1 = 2; input->appid = appid; return 0; }