ref: 867871515b0d0bce9d092e66a1a787b45681ad76
dir: /jbig2.c/
/* jbig2dec Copyright (c) 2002 artofcode LLC. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. $Id: jbig2.c,v 1.7 2002/06/17 21:06:38 giles Exp $ */ #include <stdint.h> #include <stdlib.h> #include <stdarg.h> #include <stdio.h> #include "jbig2.h" #include "jbig2_priv.h" #include "jbig2_arith.h" #include "jbig2_generic.h" #include "jbig2_symbol_dict.h" static void * jbig2_default_alloc (Jbig2Allocator *allocator, size_t size) { return malloc (size); } static void jbig2_default_free (Jbig2Allocator *allocator, void *p) { free (p); } static void * jbig2_default_realloc (Jbig2Allocator *allocator, void *p, size_t size) { return realloc (p, size); } static Jbig2Allocator jbig2_default_allocator = { jbig2_default_alloc, jbig2_default_free, jbig2_default_realloc }; void * jbig2_alloc (Jbig2Allocator *allocator, size_t size) { return allocator->alloc (allocator, size); } void jbig2_free (Jbig2Allocator *allocator, void *p) { allocator->free (allocator, p); } void * jbig2_realloc (Jbig2Allocator *allocator, void *p, size_t size) { return allocator->realloc (allocator, p, size); } int jbig2_error (Jbig2Ctx *ctx, Jbig2Severity severity, int seg_idx, const char *fmt, ...) { char buf[1024]; va_list ap; int n; int code; va_start (ap, fmt); n = vsnprintf (buf, sizeof(buf), fmt, ap); va_end (ap); if (n < 0 || n == sizeof(buf)) strcpy (buf, "jbig2_error: error in generating error string"); code = ctx->error_callback (ctx->error_callback_data, buf, severity, seg_idx); if (severity == JBIG2_SEVERITY_FATAL) code = -1; return code; } Jbig2Ctx * jbig2_ctx_new (Jbig2Allocator *allocator, Jbig2Options options, Jbig2GlobalCtx *global_ctx, Jbig2ErrorCallback error_callback, void *error_callback_data) { Jbig2Ctx *result; if (allocator == NULL) allocator = &jbig2_default_allocator; result = (Jbig2Ctx *)jbig2_alloc(allocator, sizeof(Jbig2Ctx)); result->allocator = allocator; result->options = options; result->global_ctx = (const Jbig2Ctx *)global_ctx; result->error_callback = error_callback; result->error_callback_data = error_callback_data; result->state = (options & JBIG2_OPTIONS_EMBEDDED) ? JBIG2_FILE_SEQUENTIAL_HEADER : JBIG2_FILE_HEADER; result->buf = NULL; result->sh_list = NULL; result->n_sh = 0; result->n_sh_max = 1; result->sh_ix = 0; result->n_results = 0; result->n_results_max = 16; result->results = (const Jbig2Result **)jbig2_alloc(allocator, result->n_results_max * sizeof(Jbig2Result *)); return result; } int32_t jbig2_get_int32 (const byte *buf) { return (buf[0] << 24) | (buf[1] << 16) | (buf[2] << 8) | buf[3]; } int16_t jbig2_get_int16 (const byte *buf) { return (buf[0] << 8) | buf[1]; } /** * jbig2_write: submit data for decoding * @ctx: The jbig2dec decoder context * @data: a pointer to the data buffer * @size: the size of the data buffer in bytes * * Copies the specified data into internal storage and attempts * to (continue to) parse it as part of a jbig2 data stream. * * Return code: 0 on success **/ int jbig2_write (Jbig2Ctx *ctx, const unsigned char *data, size_t size) { const int initial_buf_size = 1024; if (ctx->buf == NULL) { int buf_size = initial_buf_size; do buf_size <<= 1; while (buf_size < size); ctx->buf = (byte *)jbig2_alloc (ctx->allocator, size); ctx->buf_size = buf_size; ctx->buf_rd_ix = 0; ctx->buf_wr_ix = 0; } else if (ctx->buf_wr_ix + size > ctx->buf_size) { if (ctx->buf_rd_ix <= (ctx->buf_size >> 1) && ctx->buf_wr_ix - ctx->buf_rd_ix + size <= ctx->buf_size) { memcpy (ctx->buf, ctx->buf + ctx->buf_rd_ix, ctx->buf_wr_ix - ctx->buf_rd_ix); } else { byte *buf; int buf_size = initial_buf_size; do buf_size <<= 1; while (buf_size < ctx->buf_wr_ix - ctx->buf_rd_ix + size); buf = (byte *)jbig2_alloc (ctx->allocator, buf_size); memcpy (buf, ctx->buf + ctx->buf_rd_ix, ctx->buf_wr_ix - ctx->buf_rd_ix); jbig2_free (ctx->allocator, ctx->buf); ctx->buf = buf; ctx->buf_size = buf_size; } ctx->buf_wr_ix -= ctx->buf_rd_ix; ctx->buf_rd_ix = 0; } memcpy (ctx->buf + ctx->buf_wr_ix, data, size); ctx->buf_wr_ix += size; /* data has now been added to buffer */ for (;;) { const byte jbig2_id_string[8] = { 0x97, 0x4a, 0x42, 0x32, 0x0d, 0x0a, 0x1a, 0x0a }; Jbig2SegmentHeader *sh; size_t header_size; int code; switch (ctx->state) { case JBIG2_FILE_HEADER: /* D.4.1 */ if (ctx->buf_wr_ix - ctx->buf_rd_ix < 9) return 0; if (memcmp(ctx->buf + ctx->buf_rd_ix, jbig2_id_string, 8)) return jbig2_error(ctx, JBIG2_SEVERITY_FATAL, -1, "Not a JBIG2 file header"); /* D.4.2 */ ctx->file_header_flags = ctx->buf[ctx->buf_rd_ix + 8]; /* D.4.3 */ if (!(ctx->file_header_flags & 2)) { if (ctx->buf_wr_ix - ctx->buf_rd_ix < 13) return 0; ctx->n_pages = jbig2_get_int32(ctx->buf + ctx->buf_rd_ix + 9); jbig2_error(ctx, JBIG2_SEVERITY_INFO, -1, "file header indicates %d pages", ctx->n_pages); ctx->buf_rd_ix += 13; } else ctx->buf_rd_ix += 9; /* determine the file organization based on the flags - D.4.2 again */ if (ctx->file_header_flags & 1) { ctx->state = JBIG2_FILE_SEQUENTIAL_HEADER; } else { ctx->state = JBIG2_FILE_RANDOM_HEADERS; ctx->n_sh_max = 16; } break; case JBIG2_FILE_SEQUENTIAL_HEADER: case JBIG2_FILE_RANDOM_HEADERS: sh = jbig2_parse_segment_header(ctx, ctx->buf + ctx->buf_rd_ix, ctx->buf_wr_ix - ctx->buf_rd_ix, &header_size); if (sh == NULL) return 0; ctx->buf_rd_ix += header_size; if (ctx->sh_list == NULL) ctx->sh_list = jbig2_alloc(ctx->allocator, ctx->n_sh_max * sizeof(Jbig2SegmentHeader *)); else if (ctx->n_sh == ctx->n_sh_max) /* Note to rillian: I usually define a macro to make this less ungainly. */ ctx->sh_list = (Jbig2SegmentHeader **)jbig2_realloc(ctx->allocator, ctx->sh_list, (ctx->n_sh_max <<= 2) * sizeof(Jbig2SegmentHeader *)); ctx->sh_list[ctx->n_sh++] = sh; if (ctx->state == JBIG2_FILE_RANDOM_HEADERS) { if ((sh->flags & 63) == 51) /* end of file */ ctx->state = JBIG2_FILE_RANDOM_BODIES; } else /* JBIG2_FILE_SEQUENTIAL_HEADER */ ctx->state = JBIG2_FILE_SEQUENTIAL_BODY; break; case JBIG2_FILE_SEQUENTIAL_BODY: case JBIG2_FILE_RANDOM_BODIES: sh = ctx->sh_list[ctx->sh_ix]; if (sh->data_length > ctx->buf_wr_ix - ctx->buf_rd_ix) return 0; code = jbig2_write_segment(ctx, sh, ctx->buf + ctx->buf_rd_ix); ctx->buf_rd_ix += sh->data_length; jbig2_free_segment_header(ctx, sh); ctx->sh_list[ctx->sh_ix] = NULL; if (ctx->state == JBIG2_FILE_RANDOM_BODIES) { ctx->sh_ix++; if (ctx->sh_ix == ctx->n_sh) ctx->state = JBIG2_FILE_EOF; } else /* JBIG2_FILE_SEQUENCIAL_BODY */ { ctx->n_sh = 0; ctx->state = JBIG2_FILE_SEQUENTIAL_HEADER; } if (code < 0) { ctx->state = JBIG2_FILE_EOF; return code; } break; case JBIG2_FILE_EOF: if (ctx->buf_rd_ix == ctx->buf_wr_ix) return 0; return jbig2_error(ctx, JBIG2_SEVERITY_WARNING, -1, "Garbage beyond end of file"); } } return 0; } void jbig2_ctx_free (Jbig2Ctx *ctx) { Jbig2Allocator *ca = ctx->allocator; int i; uint32_t seg_ix; jbig2_free(ca, ctx->buf); if (ctx->sh_list != NULL) { for (i = ctx->sh_ix; i < ctx->n_sh; i++) jbig2_free_segment_header(ctx, ctx->sh_list[i]); jbig2_free(ca, ctx->sh_list); } for (seg_ix = 0; seg_ix < ctx->n_results; seg_ix++) { const Jbig2Result *result = ctx->results[seg_ix]; if (result) result->free(result, ctx); } jbig2_free(ca, ctx->results); jbig2_free(ca, ctx); } Jbig2GlobalCtx *jbig2_make_global_ctx (Jbig2Ctx *ctx) { return (Jbig2GlobalCtx *)ctx; } void jbig2_global_ctx_free(Jbig2GlobalCtx *global_ctx) { jbig2_ctx_free((Jbig2Ctx *)global_ctx); } const Jbig2Result * jbig2_get_result(Jbig2Ctx *ctx, int32_t segment_number) { if (segment_number < 0 || segment_number >= ctx->n_results) { jbig2_error(ctx, JBIG2_SEVERITY_WARNING, segment_number, "Attempting to get invalid segment number"); return NULL; } return ctx->results[segment_number]; } int jbig2_put_result(Jbig2Ctx *ctx, const Jbig2Result *result) { int32_t segment_number = result->segment_number; int32_t i; if (ctx->n_results_max <= segment_number) { const Jbig2Result **new_results; do ctx->n_results_max <<= 1; while (ctx->n_results_max <= segment_number); new_results = (const Jbig2Result **)jbig2_realloc(ctx->allocator, ctx->results, ctx->n_results_max * sizeof(Jbig2Result *)); if (new_results == NULL) return jbig2_error(ctx, JBIG2_SEVERITY_FATAL, segment_number, "Allocation failure"); ctx->results = new_results; } for (i = ctx->n_results; i < segment_number; i++) ctx->results[i] = NULL; ctx->results[segment_number] = result; if (ctx->n_results < segment_number + 1) ctx->n_results = segment_number + 1; return 0; } typedef struct { Jbig2WordStream super; const byte *data; size_t size; } Jbig2WordStreamBuf; /* I'm not committed to keeping the word stream interface. It's handy when you think you may be streaming your input, but if you're not (as is currently the case), it just adds complexity. */ static uint32_t jbig2_word_stream_buf_get_next_word(Jbig2WordStream *self, int offset) { Jbig2WordStreamBuf *z = (Jbig2WordStreamBuf *)self; const byte *data = z->data; uint32_t result; if (offset + 4 < z->size) result = (data[offset] << 24) | (data[offset + 1] << 16) | (data[offset + 2] << 8) | data[offset + 3]; else { int i; result = 0; for (i = 0; i < z->size - offset; i++) result |= data[offset + i] << ((3 - i) << 3); } return result; } Jbig2WordStream * jbig2_word_stream_buf_new(Jbig2Ctx *ctx, const byte *data, size_t size) { Jbig2WordStreamBuf *result = (Jbig2WordStreamBuf *)jbig2_alloc(ctx->allocator, sizeof(Jbig2WordStreamBuf)); result->super.get_next_word = jbig2_word_stream_buf_get_next_word; result->data = data; result->size = size; return &result->super; } void jbig2_word_stream_buf_free(Jbig2Ctx *ctx, Jbig2WordStream *ws) { jbig2_free(ctx->allocator, ws); }