/src/ghostpdl/base/sjbig2.c

Source (jump to first uncovered line)
/* Copyright (C) 2001-2023 Artifex Software, Inc.
   All Rights Reserved.

   This software is provided AS-IS with no warranty, either express or
   implied.

   This software is distributed under license and may not be copied,
   modified or distributed except as expressly authorized under the terms
   of the license contained in the file LICENSE in this distribution.

   Refer to licensing information at http://www.artifex.com or contact
   Artifex Software, Inc.,  39 Mesa Street, Suite 108A, San Francisco,
   CA 94129, USA, for further information.
*/


/* jbig2decode filter implementation -- hooks in libjbig2dec */

#include "stdint_.h"
#include "memory_.h"
#include "stdio_.h" /* sprintf() for debug output */

#include "gserrors.h"
#include "gdebug.h"
#include "strimpl.h"
#include "sjbig2.h"
#include <limits.h>                     /* UINT_MAX */

/* stream implementation */

/* The /JBIG2Decode filter is a fairly memory intensive one to begin with,
   particularly in the initial jbig2dec library implementation. Furthermore,
   as a PDF 1.4 feature, we can assume a fairly large (host-level) machine.
   We therefore dispense with the normal Ghostscript memory discipline and
   let the library allocate all its resources on the heap. The pointers to
   these are not enumerated and so will not be garbage collected. We rely
   on our release() proc being called to deallocate state.
 */

private_st_jbig2decode_state(); /* creates a gc object for our state, defined in sjbig2.h */

/* error callback for jbig2 decoder */
static void
s_jbig2decode_error(void *callback_data, const char *msg, Jbig2Severity severity,
               uint32_t seg_idx)
{
    s_jbig2_callback_data_t *error_data = (s_jbig2_callback_data_t *)callback_data;
    const char *type;
    char segment[22];

    switch (severity) {
        case JBIG2_SEVERITY_DEBUG:
            type = "DEBUG"; break;;
        case JBIG2_SEVERITY_INFO:
            type = "info"; break;;
        case JBIG2_SEVERITY_WARNING:
            type = "WARNING"; break;;
        case JBIG2_SEVERITY_FATAL:
            type = "FATAL ERROR decoding image:";
            /* pass the fatal error upstream if possible */
            if (error_data != NULL) error_data->error = gs_error_ioerror;
            break;;
        default: type = "unknown message:"; break;;
    }
    if (seg_idx == JBIG2_UNKNOWN_SEGMENT_NUMBER) segment[0] = '\0';
    else gs_snprintf(segment, sizeof(segment), "(segment 0x%02x)", seg_idx);

    if (error_data)
    {
        char *message;
        int len;

        len = snprintf(NULL, 0, "jbig2dec %s %s %s", type, msg, segment);
        if (len < 0)
            return;

        message = (char *)gs_alloc_bytes(error_data->memory, len + 1, "sjbig2decode_error(message)");
        if (message == NULL)
            return;

        len = snprintf(message, len + 1, "jbig2dec %s %s %s", type, msg, segment);
        if (len < 0)
        {
            gs_free_object(error_data->memory, message, "s_jbig2decode_error(message)");
            return;
        }

        if (error_data->last_message != NULL && strcmp(message, error_data->last_message)) {
            if (error_data->repeats > 1)
            {
                if (error_data->severity == JBIG2_SEVERITY_FATAL || error_data->severity == JBIG2_SEVERITY_WARNING) {
                    dmlprintf1(error_data->memory, "jbig2dec last message repeated %ld times\n", error_data->repeats);
                } else {
                    if_debug1m('w', error_data->memory, "[w] jbig2dec last message repeated %ld times\n", error_data->repeats);
                }
            }
            gs_free_object(error_data->memory, error_data->last_message, "s_jbig2decode_error(last_message)");
            if (severity == JBIG2_SEVERITY_FATAL || severity == JBIG2_SEVERITY_WARNING) {
                dmlprintf1(error_data->memory, "%s\n", message);
            } else {
                if_debug1m('w', error_data->memory, "[w] %s\n", message);
            }
            error_data->last_message = message;
            error_data->severity = severity;
            error_data->type = type;
            error_data->repeats = 0;
        }
        else if (error_data->last_message != NULL) {
            error_data->repeats++;
            if (error_data->repeats % 1000000 == 0)
            {
                if (error_data->severity == JBIG2_SEVERITY_FATAL || error_data->severity == JBIG2_SEVERITY_WARNING) {
                    dmlprintf1(error_data->memory, "jbig2dec last message repeated %ld times so far\n", error_data->repeats);
                } else {
                    if_debug1m('w', error_data->memory, "[w] jbig2dec last message repeated %ld times so far\n", error_data->repeats);
                }
            }
            gs_free_object(error_data->memory, message, "s_jbig2decode_error(message)");
        }
        else if (error_data->last_message == NULL) {
            if (severity == JBIG2_SEVERITY_FATAL || severity == JBIG2_SEVERITY_WARNING) {
                dmlprintf1(error_data->memory, "%s\n", message);
            } else {
                if_debug1m('w', error_data->memory, "[w] %s\n", message);
            }
            error_data->last_message = message;
            error_data->severity = severity;
            error_data->type = type;
            error_data->repeats = 0;
        }
    }
    else
    {
/*
        FIXME s_jbig2_callback_data_t should be updated so that jbig2_ctx_new is not called
        with a NULL argument (see jbig2.h) and we never reach here with a NULL state
*/
        if (severity == JBIG2_SEVERITY_FATAL) {
            dlprintf3("jbig2dec %s %s %s\n", type, msg, segment);
        } else {
            if_debug3('w', "[w] jbig2dec %s %s %s\n", type, msg, segment);
        }
    }
}

static void
s_jbig2decode_flush_errors(void *callback_data)
{
    s_jbig2_callback_data_t *error_data = (s_jbig2_callback_data_t *)callback_data;

    if (error_data == NULL)
        return;

    if (error_data->last_message != NULL) {
        if (error_data->repeats > 1)
        {
            if (error_data->severity == JBIG2_SEVERITY_FATAL || error_data->severity == JBIG2_SEVERITY_WARNING) {
                dmlprintf1(error_data->memory, "jbig2dec last message repeated %ld times\n", error_data->repeats);
            } else {
                if_debug1m('w', error_data->memory, "[w] jbig2dec last message repeated %ld times\n", error_data->repeats);
            }
        }
        gs_free_object(error_data->memory, error_data->last_message, "s_jbig2decode_error(last_message)");
        error_data->last_message = NULL;
        error_data->repeats = 0;
    }
}

/* invert the bits in a buffer */
/* jbig2 and postscript have different senses of what pixel
   value is black, so we must invert the image */
static void
s_jbig2decode_invert_buffer(unsigned char *buf, size_t length)
{
    size_t i;

    for (i = 0; i < length; i++)
        *buf++ ^= 0xFF;
}

typedef struct {
        Jbig2Allocator allocator;
        gs_memory_t *mem;
} s_jbig2decode_allocator_t;

static void *s_jbig2decode_alloc(Jbig2Allocator *_allocator, size_t size)
{
        s_jbig2decode_allocator_t *allocator = (s_jbig2decode_allocator_t *) _allocator;
        if (size > UINT_MAX)
            return NULL;
        return gs_alloc_bytes(allocator->mem, size, "s_jbig2decode_alloc");
}

static void s_jbig2decode_free(Jbig2Allocator *_allocator, void *p)
{
        s_jbig2decode_allocator_t *allocator = (s_jbig2decode_allocator_t *) _allocator;
        gs_free_object(allocator->mem, p, "s_jbig2decode_free");
}

static void *s_jbig2decode_realloc(Jbig2Allocator *_allocator, void *p, size_t size)
{
        s_jbig2decode_allocator_t *allocator = (s_jbig2decode_allocator_t *) _allocator;
        if (size > UINT_MAX)
            return NULL;
        return gs_resize_object(allocator->mem, p, size, "s_jbig2decode_realloc");
}

/* parse a globals stream packed into a gs_bytestring for us by the postscript
   layer and stuff the resulting context into a pointer for use in later decoding */
int
s_jbig2decode_make_global_data(gs_memory_t *mem, byte *data, uint length, void **result)
{
    Jbig2Ctx *ctx = NULL;
    int code;
    s_jbig2decode_allocator_t *allocator;

    /* the cvision encoder likes to include empty global streams */
    if (length == 0) {
        if_debug0('w', "[w] ignoring zero-length jbig2 global stream.\n");
        *result = NULL;
        return 0;
    }

    allocator = (s_jbig2decode_allocator_t *) gs_alloc_bytes(mem,
            sizeof (s_jbig2decode_allocator_t), "s_jbig2_make_global_data");
    if (allocator == NULL) {
        *result = NULL;
        return_error(gs_error_VMerror);
    }

    allocator->allocator.alloc = s_jbig2decode_alloc;
    allocator->allocator.free = s_jbig2decode_free;
    allocator->allocator.realloc = s_jbig2decode_realloc;
    allocator->mem = mem;

    /* allocate a context with which to parse our global segments */
    ctx = jbig2_ctx_new((Jbig2Allocator *) allocator, JBIG2_OPTIONS_EMBEDDED,
                            NULL, s_jbig2decode_error, NULL);
    if (ctx == NULL) {
        gs_free_object(mem, allocator, "s_jbig2_make_global_data");
        return_error(gs_error_VMerror);
    }

    /* parse the global bitstream */
    code = jbig2_data_in(ctx, data, length);
    if (code) {
        /* error parsing the global stream */
        allocator = (s_jbig2decode_allocator_t *) jbig2_ctx_free(ctx);
        gs_free_object(allocator->mem, allocator, "s_jbig2_make_global_data");
        *result = NULL;
        return_error(gs_error_ioerror);
    }

    /* canonize and store our global state */
    *result = jbig2_make_global_ctx(ctx);

    return 0; /* todo: check for allocation failure */
}

/* release a global ctx pointer */
void
s_jbig2decode_free_global_data(void *data)
{
    Jbig2GlobalCtx *global_ctx = (Jbig2GlobalCtx*)data;
    s_jbig2decode_allocator_t *allocator;

    allocator = (s_jbig2decode_allocator_t *) jbig2_global_ctx_free(global_ctx);

    gs_free_object(allocator->mem, allocator, "s_jbig2decode_free_global_data");
}

/* store a global ctx pointer in our state structure.
 * If "gd" is NULL, then this library must free the global context.
 * If not-NULL, then it will be memory managed by caller, for example,
 * garbage collected in the case of the PS interpreter.
 * Currently gpdf will use NULL, and the PDF implemented in the gs interpreter would use
 * the garbage collection.
 */
int
s_jbig2decode_set_global_data(stream_state *ss, s_jbig2_global_data_t *gd, void *global_ctx)
{
    stream_jbig2decode_state *state = (stream_jbig2decode_state*)ss;
    state->global_struct = gd;
    state->global_ctx = global_ctx;
    return 0;
}

/* initialize the steam.
   this involves allocating the context structures, and
   initializing the global context from the /JBIG2Globals object reference
 */
static int
s_jbig2decode_init(stream_state * ss)
{
    stream_jbig2decode_state *const state = (stream_jbig2decode_state *) ss;
    Jbig2GlobalCtx *global_ctx = state->global_ctx; /* may be NULL */
    int code = 0;
    s_jbig2decode_allocator_t *allocator = NULL;

    state->callback_data = (s_jbig2_callback_data_t *)gs_alloc_bytes(
                                                ss->memory->non_gc_memory,
                                                sizeof(s_jbig2_callback_data_t),
            "s_jbig2decode_init(callback_data)");
    if (state->callback_data) {
        state->callback_data->memory = ss->memory->non_gc_memory;
        state->callback_data->error = 0;
        state->callback_data->last_message = NULL;
        state->callback_data->repeats = 0;

        allocator = (s_jbig2decode_allocator_t *) gs_alloc_bytes(ss->memory->non_gc_memory, sizeof (s_jbig2decode_allocator_t), "s_jbig2decode_init(allocator)");
        if (allocator == NULL) {
                s_jbig2decode_error(state->callback_data, "failed to allocate custom jbig2dec allocator", JBIG2_SEVERITY_FATAL, -1);
        }
        else {
                allocator->allocator.alloc = s_jbig2decode_alloc;
                allocator->allocator.free = s_jbig2decode_free;
                allocator->allocator.realloc = s_jbig2decode_realloc;
                allocator->mem = ss->memory->non_gc_memory;

                /* initialize the decoder with the parsed global context if any */
                state->decode_ctx = jbig2_ctx_new((Jbig2Allocator *) allocator, JBIG2_OPTIONS_EMBEDDED,
                             global_ctx, s_jbig2decode_error, state->callback_data);

                if (state->decode_ctx == NULL) {
                        gs_free_object(allocator->mem, allocator, "s_jbig2decode_release");
                }

        }

        code = state->callback_data->error;
    }
    else {
        code = gs_error_VMerror;
    }
    state->image = 0;


    return_error (code);
}

/* process a section of the input and return any decoded data.
   see strimpl.h for return codes.
 */
static int
s_jbig2decode_process(stream_state * ss, stream_cursor_read * pr,
                  stream_cursor_write * pw, bool last)
{
    stream_jbig2decode_state *const state = (stream_jbig2decode_state *) ss;
    Jbig2Image *image = state->image;
    size_t in_size = pr->limit - pr->ptr;
    size_t out_size = pw->limit - pw->ptr;
    int status = 0;

    /* there will only be a single page image,
       so pass all data in before looking for any output.
       note that the gs stream library expects offset-by-one
       indexing of the buffers, while jbig2dec uses normal 0 indexes */
    if (in_size > 0) {
        /* pass all available input to the decoder */
        jbig2_data_in(state->decode_ctx, pr->ptr + 1, in_size);
        pr->ptr += in_size;
        /* simulate end-of-page segment */
        if (last == 1) {
            jbig2_complete_page(state->decode_ctx);
        }
        /* handle fatal decoding errors reported through our callback */
        if (state->callback_data->error) return state->callback_data->error;
    } else {
        /* Ran out of input, try and terminate cleanly */
        if (last == 1) {
            jbig2_complete_page(state->decode_ctx);
        }
    }
    if (out_size > 0) {
        if (image == NULL) {
            /* see if a page image in available */
            image = jbig2_page_out(state->decode_ctx);
            if (image != NULL) {
                state->image = image;
                state->offset = 0;
            }
        }
        if (image != NULL) {
            /* copy data out of the decoded image, if any */
            size_t image_size = (size_t)image->height*image->stride;
            size_t usable = min(image_size - state->offset, out_size);
            memcpy(pw->ptr + 1, image->data + state->offset, usable);
            s_jbig2decode_invert_buffer(pw->ptr + 1, usable);
            state->offset += usable;
            pw->ptr += usable;
            status = (state->offset < image_size) ? 1 : 0;
        }
    }

    return status;
}

/* stream release.
   free all our decoder state.
 */
static void
s_jbig2decode_release(stream_state *ss)
{
    stream_jbig2decode_state *const state = (stream_jbig2decode_state *) ss;

    if (state->decode_ctx) {
        s_jbig2decode_allocator_t *allocator = NULL;

        if (state->image) jbig2_release_page(state->decode_ctx, state->image);
  state->image = NULL;
        s_jbig2decode_flush_errors(state->callback_data);
        allocator = (s_jbig2decode_allocator_t *) jbig2_ctx_free(state->decode_ctx);
  state->decode_ctx = NULL;

        gs_free_object(allocator->mem, allocator, "s_jbig2decode_release");
    }
    if (state->callback_data) {
        gs_memory_t *mem = state->callback_data->memory;
        gs_free_object(state->callback_data->memory, state->callback_data->last_message, "s_jbig2decode_release(message)");
        gs_free_object(mem, state->callback_data, "s_jbig2decode_release(callback_data)");
  state->callback_data = NULL;
    }
    if (state->global_struct != NULL) {
        /* the interpreter calls jbig2decode_free_global_data() separately */
    } else {
        /* We are responsible for freeing global context */
        if (state->global_ctx) {
            s_jbig2decode_free_global_data(state->global_ctx);
            state->global_ctx = NULL;
        }
    }
}

void
s_jbig2decode_finalize(const gs_memory_t *cmem, void *vptr)
{
    (void)cmem;

    s_jbig2decode_release((stream_state *)vptr);
}

/* set stream defaults.
   this hook exists to avoid confusing the gc with bogus
   pointers. we use it similarly just to NULL all the pointers.
   (could just be done in _init?)
 */
static void
s_jbig2decode_set_defaults(stream_state *ss)
{
    stream_jbig2decode_state *const state = (stream_jbig2decode_state *) ss;

    /* state->global_ctx is not owned by us */
    state->global_struct = NULL;
    state->global_ctx = NULL;
    state->decode_ctx = NULL;
    state->image = NULL;
    state->offset = 0;
    state->callback_data = NULL;
}

/* stream template */
const stream_template s_jbig2decode_template = {
    &st_jbig2decode_state,
    s_jbig2decode_init,
    s_jbig2decode_process,
    1, 1, /* min in and out buffer sizes we can handle --should be ~32k,64k for efficiency? */
    s_jbig2decode_release,
    s_jbig2decode_set_defaults
};

Coverage Report

Created: 2025-06-10 07:26

Line	Count	Source (jump to first uncovered line)
1		/* Copyright (C) 2001-2023 Artifex Software, Inc.
2		All Rights Reserved.
3
4		This software is provided AS-IS with no warranty, either express or
5		implied.
6
7		This software is distributed under license and may not be copied,
8		modified or distributed except as expressly authorized under the terms
9		of the license contained in the file LICENSE in this distribution.
10
11		Refer to licensing information at http://www.artifex.com or contact
12		Artifex Software, Inc., 39 Mesa Street, Suite 108A, San Francisco,
13		CA 94129, USA, for further information.
14		*/
15
16
17		/* jbig2decode filter implementation -- hooks in libjbig2dec */
18
19		#include "stdint_.h"
20		#include "memory_.h"
21		#include "stdio_.h" /* sprintf() for debug output */
22
23		#include "gserrors.h"
24		#include "gdebug.h"
25		#include "strimpl.h"
26		#include "sjbig2.h"
27		#include <limits.h> /* UINT_MAX */
28
29		/* stream implementation */
30
31		/* The /JBIG2Decode filter is a fairly memory intensive one to begin with,
32		particularly in the initial jbig2dec library implementation. Furthermore,
33		as a PDF 1.4 feature, we can assume a fairly large (host-level) machine.
34		We therefore dispense with the normal Ghostscript memory discipline and
35		let the library allocate all its resources on the heap. The pointers to
36		these are not enumerated and so will not be garbage collected. We rely
37		on our release() proc being called to deallocate state.
38		*/
39
40		private_st_jbig2decode_state(); /* creates a gc object for our state, defined in sjbig2.h */
41
42		/* error callback for jbig2 decoder */
43		static void
44		s_jbig2decode_error(void callback_data, const char msg, Jbig2Severity severity,
45		uint32_t seg_idx)
46	252	{
47	252	s_jbig2_callback_data_t error_data = (s_jbig2_callback_data_t )callback_data;
48	252	const char *type;
49	252	char segment[22];
50
51	252	switch (severity) {
52	152	case JBIG2_SEVERITY_DEBUG:
53	152	type = "DEBUG"; break;;
54	73	case JBIG2_SEVERITY_INFO:
55	73	type = "info"; break;;
56	26	case JBIG2_SEVERITY_WARNING:
57	26	type = "WARNING"; break;;
58	1	case JBIG2_SEVERITY_FATAL:
59	1	type = "FATAL ERROR decoding image:";
60		/* pass the fatal error upstream if possible */
61	1	if (error_data != NULL) error_data->error = gs_error_ioerror;
62	1	break;;
63	0	default: type = "unknown message:"; break;;
64	252	}
65	252	if (seg_idx == JBIG2_UNKNOWN_SEGMENT_NUMBER) segment[0] = '\0';
66	223	else gs_snprintf(segment, sizeof(segment), "(segment 0x%02x)", seg_idx);
67
68	252	if (error_data)
69	252	{
70	252	char *message;
71	252	int len;
72
73	252	len = snprintf(NULL, 0, "jbig2dec %s %s %s", type, msg, segment);
74	252	if (len < 0)
75	0	return;
76
77	252	message = (char *)gs_alloc_bytes(error_data->memory, len + 1, "sjbig2decode_error(message)");
78	252	if (message == NULL)
79	0	return;
80
81	252	len = snprintf(message, len + 1, "jbig2dec %s %s %s", type, msg, segment);
82	252	if (len < 0)
83	0	{
84	0	gs_free_object(error_data->memory, message, "s_jbig2decode_error(message)");
85	0	return;
86	0	}
87
88	252	if (error_data->last_message != NULL && strcmp(message, error_data->last_message)) {
89	230	if (error_data->repeats > 1)
90	2	{
91	2	if (error_data->severity == JBIG2_SEVERITY_FATAL \|\| error_data->severity == JBIG2_SEVERITY_WARNING) {
92	2	dmlprintf1(error_data->memory, "jbig2dec last message repeated %ld times\n", error_data->repeats);
93	2	} else {
94	0	if_debug1m('w', error_data->memory, "[w] jbig2dec last message repeated %ld times\n", error_data->repeats);
95	0	}
96	2	}
97	230	gs_free_object(error_data->memory, error_data->last_message, "s_jbig2decode_error(last_message)");
98	230	if (severity == JBIG2_SEVERITY_FATAL \|\| severity == JBIG2_SEVERITY_WARNING) {
99	19	dmlprintf1(error_data->memory, "%s\n", message);
100	211	} else {
101	211	if_debug1m('w', error_data->memory, "[w] %s\n", message);
102	211	}
103	230	error_data->last_message = message;
104	230	error_data->severity = severity;
105	230	error_data->type = type;
106	230	error_data->repeats = 0;
107	230	}
108	22	else if (error_data->last_message != NULL) {
109	9	error_data->repeats++;
110	9	if (error_data->repeats % 1000000 == 0)
111	0	{
112	0	if (error_data->severity == JBIG2_SEVERITY_FATAL \|\| error_data->severity == JBIG2_SEVERITY_WARNING) {
113	0	dmlprintf1(error_data->memory, "jbig2dec last message repeated %ld times so far\n", error_data->repeats);
114	0	} else {
115	0	if_debug1m('w', error_data->memory, "[w] jbig2dec last message repeated %ld times so far\n", error_data->repeats);
116	0	}
117	0	}
118	9	gs_free_object(error_data->memory, message, "s_jbig2decode_error(message)");
119	9	}
120	13	else if (error_data->last_message == NULL) {
121	13	if (severity == JBIG2_SEVERITY_FATAL \|\| severity == JBIG2_SEVERITY_WARNING) {
122	0	dmlprintf1(error_data->memory, "%s\n", message);
123	13	} else {
124	13	if_debug1m('w', error_data->memory, "[w] %s\n", message);
125	13	}
126	13	error_data->last_message = message;
127	13	error_data->severity = severity;
128	13	error_data->type = type;
129	13	error_data->repeats = 0;
130	13	}
131	252	}
132	0	else
133	0	{
134		/*
135		FIXME s_jbig2_callback_data_t should be updated so that jbig2_ctx_new is not called
136		with a NULL argument (see jbig2.h) and we never reach here with a NULL state
137		*/
138	0	if (severity == JBIG2_SEVERITY_FATAL) {
139	0	dlprintf3("jbig2dec %s %s %s\n", type, msg, segment);
140	0	} else {
141	0	if_debug3('w', "[w] jbig2dec %s %s %s\n", type, msg, segment);
142	0	}
143	0	}
144	252	}
145
146		static void
147		s_jbig2decode_flush_errors(void *callback_data)
148	13	{
149	13	s_jbig2_callback_data_t error_data = (s_jbig2_callback_data_t )callback_data;
150
151	13	if (error_data == NULL)
152	0	return;
153
154	13	if (error_data->last_message != NULL) {
155	13	if (error_data->repeats > 1)
156	0	{
157	0	if (error_data->severity == JBIG2_SEVERITY_FATAL \|\| error_data->severity == JBIG2_SEVERITY_WARNING) {
158	0	dmlprintf1(error_data->memory, "jbig2dec last message repeated %ld times\n", error_data->repeats);
159	0	} else {
160	0	if_debug1m('w', error_data->memory, "[w] jbig2dec last message repeated %ld times\n", error_data->repeats);
161	0	}
162	0	}
163	13	gs_free_object(error_data->memory, error_data->last_message, "s_jbig2decode_error(last_message)");
164	13	error_data->last_message = NULL;
165	13	error_data->repeats = 0;
166	13	}
167	13	}
168
169		/* invert the bits in a buffer */
170		/* jbig2 and postscript have different senses of what pixel
171		value is black, so we must invert the image */
172		static void
173		s_jbig2decode_invert_buffer(unsigned char *buf, size_t length)
174	2.67k	{
175	2.67k	size_t i;
176
177	5.46M	for (i = 0; i < length; i++)
178	5.45M	*buf++ ^= 0xFF;
179	2.67k	}
180
181		typedef struct {
182		Jbig2Allocator allocator;
183		gs_memory_t *mem;
184		} s_jbig2decode_allocator_t;
185
186		static void s_jbig2decode_alloc(Jbig2Allocator _allocator, size_t size)
187	422	{
188	422	s_jbig2decode_allocator_t allocator = (s_jbig2decode_allocator_t ) _allocator;
189	422	if (size > UINT_MAX)
190	0	return NULL;
191	422	return gs_alloc_bytes(allocator->mem, size, "s_jbig2decode_alloc");
192	422	}
193
194		static void s_jbig2decode_free(Jbig2Allocator _allocator, void p)
195	491	{
196	491	s_jbig2decode_allocator_t allocator = (s_jbig2decode_allocator_t ) _allocator;
197	491	gs_free_object(allocator->mem, p, "s_jbig2decode_free");
198	491	}
199
200		static void s_jbig2decode_realloc(Jbig2Allocator _allocator, void *p, size_t size)
201	0	{
202	0	s_jbig2decode_allocator_t allocator = (s_jbig2decode_allocator_t ) _allocator;
203	0	if (size > UINT_MAX)
204	0	return NULL;
205	0	return gs_resize_object(allocator->mem, p, size, "s_jbig2decode_realloc");
206	0	}
207
208		/* parse a globals stream packed into a gs_bytestring for us by the postscript
209		layer and stuff the resulting context into a pointer for use in later decoding */
210		int
211		s_jbig2decode_make_global_data(gs_memory_t mem, byte data, uint length, void **result)
212	0	{
213	0	Jbig2Ctx *ctx = NULL;
214	0	int code;
215	0	s_jbig2decode_allocator_t *allocator;
216
217		/* the cvision encoder likes to include empty global streams */
218	0	if (length == 0) {
219	0	if_debug0('w', "[w] ignoring zero-length jbig2 global stream.\n");
220	0	*result = NULL;
221	0	return 0;
222	0	}
223
224	0	allocator = (s_jbig2decode_allocator_t *) gs_alloc_bytes(mem,
225	0	sizeof (s_jbig2decode_allocator_t), "s_jbig2_make_global_data");
226	0	if (allocator == NULL) {
227	0	*result = NULL;
228	0	return_error(gs_error_VMerror);
229	0	}
230
231	0	allocator->allocator.alloc = s_jbig2decode_alloc;
232	0	allocator->allocator.free = s_jbig2decode_free;
233	0	allocator->allocator.realloc = s_jbig2decode_realloc;
234	0	allocator->mem = mem;
235
236		/* allocate a context with which to parse our global segments */
237	0	ctx = jbig2_ctx_new((Jbig2Allocator *) allocator, JBIG2_OPTIONS_EMBEDDED,
238	0	NULL, s_jbig2decode_error, NULL);
239	0	if (ctx == NULL) {
240	0	gs_free_object(mem, allocator, "s_jbig2_make_global_data");
241	0	return_error(gs_error_VMerror);
242	0	}
243
244		/* parse the global bitstream */
245	0	code = jbig2_data_in(ctx, data, length);
246	0	if (code) {
247		/* error parsing the global stream */
248	0	allocator = (s_jbig2decode_allocator_t *) jbig2_ctx_free(ctx);
249	0	gs_free_object(allocator->mem, allocator, "s_jbig2_make_global_data");
250	0	*result = NULL;
251	0	return_error(gs_error_ioerror);
252	0	}
253
254		/* canonize and store our global state */
255	0	*result = jbig2_make_global_ctx(ctx);
256
257	0	return 0; /* todo: check for allocation failure */
258	0	}
259
260		/* release a global ctx pointer */
261		void
262		s_jbig2decode_free_global_data(void *data)
263	0	{
264	0	Jbig2GlobalCtx global_ctx = (Jbig2GlobalCtx)data;
265	0	s_jbig2decode_allocator_t *allocator;
266
267	0	allocator = (s_jbig2decode_allocator_t *) jbig2_global_ctx_free(global_ctx);
268
269	0	gs_free_object(allocator->mem, allocator, "s_jbig2decode_free_global_data");
270	0	}
271
272		/* store a global ctx pointer in our state structure.
273		* If "gd" is NULL, then this library must free the global context.
274		* If not-NULL, then it will be memory managed by caller, for example,
275		* garbage collected in the case of the PS interpreter.
276		* Currently gpdf will use NULL, and the PDF implemented in the gs interpreter would use
277		* the garbage collection.
278		*/
279		int
280		s_jbig2decode_set_global_data(stream_state ss, s_jbig2_global_data_t gd, void *global_ctx)
281	13	{
282	13	stream_jbig2decode_state state = (stream_jbig2decode_state)ss;
283	13	state->global_struct = gd;
284	13	state->global_ctx = global_ctx;
285	13	return 0;
286	13	}
287
288		/* initialize the steam.
289		this involves allocating the context structures, and
290		initializing the global context from the /JBIG2Globals object reference
291		*/
292		static int
293		s_jbig2decode_init(stream_state * ss)
294	13	{
295	13	stream_jbig2decode_state const state = (stream_jbig2decode_state ) ss;
296	13	Jbig2GlobalCtx global_ctx = state->global_ctx; / may be NULL */
297	13	int code = 0;
298	13	s_jbig2decode_allocator_t *allocator = NULL;
299
300	13	state->callback_data = (s_jbig2_callback_data_t *)gs_alloc_bytes(
301	13	ss->memory->non_gc_memory,
302	13	sizeof(s_jbig2_callback_data_t),
303	13	"s_jbig2decode_init(callback_data)");
304	13	if (state->callback_data) {
305	13	state->callback_data->memory = ss->memory->non_gc_memory;
306	13	state->callback_data->error = 0;
307	13	state->callback_data->last_message = NULL;
308	13	state->callback_data->repeats = 0;
309
310	13	allocator = (s_jbig2decode_allocator_t *) gs_alloc_bytes(ss->memory->non_gc_memory, sizeof (s_jbig2decode_allocator_t), "s_jbig2decode_init(allocator)");
311	13	if (allocator == NULL) {
312	0	s_jbig2decode_error(state->callback_data, "failed to allocate custom jbig2dec allocator", JBIG2_SEVERITY_FATAL, -1);
313	0	}
314	13	else {
315	13	allocator->allocator.alloc = s_jbig2decode_alloc;
316	13	allocator->allocator.free = s_jbig2decode_free;
317	13	allocator->allocator.realloc = s_jbig2decode_realloc;
318	13	allocator->mem = ss->memory->non_gc_memory;
319
320		/* initialize the decoder with the parsed global context if any */
321	13	state->decode_ctx = jbig2_ctx_new((Jbig2Allocator *) allocator, JBIG2_OPTIONS_EMBEDDED,
322	13	global_ctx, s_jbig2decode_error, state->callback_data);
323
324	13	if (state->decode_ctx == NULL) {
325	0	gs_free_object(allocator->mem, allocator, "s_jbig2decode_release");
326	0	}
327
328	13	}
329
330	13	code = state->callback_data->error;
331	13	}
332	0	else {
333	0	code = gs_error_VMerror;
334	0	}
335	13	state->image = 0;
336
337
338	13	return_error (code);
339	13	}
340
341		/* process a section of the input and return any decoded data.
342		see strimpl.h for return codes.
343		*/
344		static int
345		s_jbig2decode_process(stream_state * ss, stream_cursor_read * pr,
346		stream_cursor_write * pw, bool last)
347	2.76k	{
348	2.76k	stream_jbig2decode_state const state = (stream_jbig2decode_state ) ss;
349	2.76k	Jbig2Image *image = state->image;
350	2.76k	size_t in_size = pr->limit - pr->ptr;
351	2.76k	size_t out_size = pw->limit - pw->ptr;
352	2.76k	int status = 0;
353
354		/* there will only be a single page image,
355		so pass all data in before looking for any output.
356		note that the gs stream library expects offset-by-one
357		indexing of the buffers, while jbig2dec uses normal 0 indexes */
358	2.76k	if (in_size > 0) {
359		/* pass all available input to the decoder */
360	90	jbig2_data_in(state->decode_ctx, pr->ptr + 1, in_size);
361	90	pr->ptr += in_size;
362		/* simulate end-of-page segment */
363	90	if (last == 1) {
364	13	jbig2_complete_page(state->decode_ctx);
365	13	}
366		/* handle fatal decoding errors reported through our callback */
367	90	if (state->callback_data->error) return state->callback_data->error;
368	2.67k	} else {
369		/* Ran out of input, try and terminate cleanly */
370	2.67k	if (last == 1) {
371	2.66k	jbig2_complete_page(state->decode_ctx);
372	2.66k	}
373	2.67k	}
374	2.76k	if (out_size > 0) {
375	2.76k	if (image == NULL) {
376		/* see if a page image in available */
377	102	image = jbig2_page_out(state->decode_ctx);
378	102	if (image != NULL) {
379	12	state->image = image;
380	12	state->offset = 0;
381	12	}
382	102	}
383	2.76k	if (image != NULL) {
384		/* copy data out of the decoded image, if any */
385	2.67k	size_t image_size = (size_t)image->height*image->stride;
386	2.67k	size_t usable = min(image_size - state->offset, out_size);
387	2.67k	memcpy(pw->ptr + 1, image->data + state->offset, usable);
388	2.67k	s_jbig2decode_invert_buffer(pw->ptr + 1, usable);
389	2.67k	state->offset += usable;
390	2.67k	pw->ptr += usable;
391	2.67k	status = (state->offset < image_size) ? 1 : 0;
392	2.67k	}
393	2.76k	}
394
395	2.76k	return status;
396	2.76k	}
397
398		/* stream release.
399		free all our decoder state.
400		*/
401		static void
402		s_jbig2decode_release(stream_state *ss)
403	26	{
404	26	stream_jbig2decode_state const state = (stream_jbig2decode_state ) ss;
405
406	26	if (state->decode_ctx) {
407	13	s_jbig2decode_allocator_t *allocator = NULL;
408
409	13	if (state->image) jbig2_release_page(state->decode_ctx, state->image);
410	13	state->image = NULL;
411	13	s_jbig2decode_flush_errors(state->callback_data);
412	13	allocator = (s_jbig2decode_allocator_t *) jbig2_ctx_free(state->decode_ctx);
413	13	state->decode_ctx = NULL;
414
415	13	gs_free_object(allocator->mem, allocator, "s_jbig2decode_release");
416	13	}
417	26	if (state->callback_data) {
418	13	gs_memory_t *mem = state->callback_data->memory;
419	13	gs_free_object(state->callback_data->memory, state->callback_data->last_message, "s_jbig2decode_release(message)");
420	13	gs_free_object(mem, state->callback_data, "s_jbig2decode_release(callback_data)");
421	13	state->callback_data = NULL;
422	13	}
423	26	if (state->global_struct != NULL) {
424		/* the interpreter calls jbig2decode_free_global_data() separately */
425	26	} else {
426		/* We are responsible for freeing global context */
427	26	if (state->global_ctx) {
428	0	s_jbig2decode_free_global_data(state->global_ctx);
429	0	state->global_ctx = NULL;
430	0	}
431	26	}
432	26	}
433
434		void
435		s_jbig2decode_finalize(const gs_memory_t cmem, void vptr)
436	13	{
437	13	(void)cmem;
438
439	13	s_jbig2decode_release((stream_state *)vptr);
440	13	}
441
442		/* set stream defaults.
443		this hook exists to avoid confusing the gc with bogus
444		pointers. we use it similarly just to NULL all the pointers.
445		(could just be done in _init?)
446		*/
447		static void
448		s_jbig2decode_set_defaults(stream_state *ss)
449	0	{
450	0	stream_jbig2decode_state const state = (stream_jbig2decode_state ) ss;
451
452		/* state->global_ctx is not owned by us */
453	0	state->global_struct = NULL;
454	0	state->global_ctx = NULL;
455	0	state->decode_ctx = NULL;
456	0	state->image = NULL;
457	0	state->offset = 0;
458	0	state->callback_data = NULL;
459	0	}
460
461		/* stream template */
462		const stream_template s_jbig2decode_template = {
463		&st_jbig2decode_state,
464		s_jbig2decode_init,
465		s_jbig2decode_process,
466		1, 1, /* min in and out buffer sizes we can handle --should be ~32k,64k for efficiency? */
467		s_jbig2decode_release,
468		s_jbig2decode_set_defaults
469		};