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-rw-r--r--contrib/zlib/test/infcover.c671
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diff --git a/contrib/zlib/test/infcover.c b/contrib/zlib/test/infcover.c
deleted file mode 100644
index 2be0164..0000000
--- a/contrib/zlib/test/infcover.c
+++ /dev/null
@@ -1,671 +0,0 @@
-/* infcover.c -- test zlib's inflate routines with full code coverage
- * Copyright (C) 2011, 2016 Mark Adler
- * For conditions of distribution and use, see copyright notice in zlib.h
- */
-
-/* to use, do: ./configure --cover && make cover */
-
-#include <stdio.h>
-#include <stdlib.h>
-#include <string.h>
-#include <assert.h>
-#include "zlib.h"
-
-/* get definition of internal structure so we can mess with it (see pull()),
- and so we can call inflate_trees() (see cover5()) */
-#define ZLIB_INTERNAL
-#include "inftrees.h"
-#include "inflate.h"
-
-#define local static
-
-/* -- memory tracking routines -- */
-
-/*
- These memory tracking routines are provided to zlib and track all of zlib's
- allocations and deallocations, check for LIFO operations, keep a current
- and high water mark of total bytes requested, optionally set a limit on the
- total memory that can be allocated, and when done check for memory leaks.
-
- They are used as follows:
-
- z_stream strm;
- mem_setup(&strm) initializes the memory tracking and sets the
- zalloc, zfree, and opaque members of strm to use
- memory tracking for all zlib operations on strm
- mem_limit(&strm, limit) sets a limit on the total bytes requested -- a
- request that exceeds this limit will result in an
- allocation failure (returns NULL) -- setting the
- limit to zero means no limit, which is the default
- after mem_setup()
- mem_used(&strm, "msg") prints to stderr "msg" and the total bytes used
- mem_high(&strm, "msg") prints to stderr "msg" and the high water mark
- mem_done(&strm, "msg") ends memory tracking, releases all allocations
- for the tracking as well as leaked zlib blocks, if
- any. If there was anything unusual, such as leaked
- blocks, non-FIFO frees, or frees of addresses not
- allocated, then "msg" and information about the
- problem is printed to stderr. If everything is
- normal, nothing is printed. mem_done resets the
- strm members to Z_NULL to use the default memory
- allocation routines on the next zlib initialization
- using strm.
- */
-
-/* these items are strung together in a linked list, one for each allocation */
-struct mem_item {
- void *ptr; /* pointer to allocated memory */
- size_t size; /* requested size of allocation */
- struct mem_item *next; /* pointer to next item in list, or NULL */
-};
-
-/* this structure is at the root of the linked list, and tracks statistics */
-struct mem_zone {
- struct mem_item *first; /* pointer to first item in list, or NULL */
- size_t total, highwater; /* total allocations, and largest total */
- size_t limit; /* memory allocation limit, or 0 if no limit */
- int notlifo, rogue; /* counts of non-LIFO frees and rogue frees */
-};
-
-/* memory allocation routine to pass to zlib */
-local void *mem_alloc(void *mem, unsigned count, unsigned size)
-{
- void *ptr;
- struct mem_item *item;
- struct mem_zone *zone = mem;
- size_t len = count * (size_t)size;
-
- /* induced allocation failure */
- if (zone == NULL || (zone->limit && zone->total + len > zone->limit))
- return NULL;
-
- /* perform allocation using the standard library, fill memory with a
- non-zero value to make sure that the code isn't depending on zeros */
- ptr = malloc(len);
- if (ptr == NULL)
- return NULL;
- memset(ptr, 0xa5, len);
-
- /* create a new item for the list */
- item = malloc(sizeof(struct mem_item));
- if (item == NULL) {
- free(ptr);
- return NULL;
- }
- item->ptr = ptr;
- item->size = len;
-
- /* insert item at the beginning of the list */
- item->next = zone->first;
- zone->first = item;
-
- /* update the statistics */
- zone->total += item->size;
- if (zone->total > zone->highwater)
- zone->highwater = zone->total;
-
- /* return the allocated memory */
- return ptr;
-}
-
-/* memory free routine to pass to zlib */
-local void mem_free(void *mem, void *ptr)
-{
- struct mem_item *item, *next;
- struct mem_zone *zone = mem;
-
- /* if no zone, just do a free */
- if (zone == NULL) {
- free(ptr);
- return;
- }
-
- /* point next to the item that matches ptr, or NULL if not found -- remove
- the item from the linked list if found */
- next = zone->first;
- if (next) {
- if (next->ptr == ptr)
- zone->first = next->next; /* first one is it, remove from list */
- else {
- do { /* search the linked list */
- item = next;
- next = item->next;
- } while (next != NULL && next->ptr != ptr);
- if (next) { /* if found, remove from linked list */
- item->next = next->next;
- zone->notlifo++; /* not a LIFO free */
- }
-
- }
- }
-
- /* if found, update the statistics and free the item */
- if (next) {
- zone->total -= next->size;
- free(next);
- }
-
- /* if not found, update the rogue count */
- else
- zone->rogue++;
-
- /* in any case, do the requested free with the standard library function */
- free(ptr);
-}
-
-/* set up a controlled memory allocation space for monitoring, set the stream
- parameters to the controlled routines, with opaque pointing to the space */
-local void mem_setup(z_stream *strm)
-{
- struct mem_zone *zone;
-
- zone = malloc(sizeof(struct mem_zone));
- assert(zone != NULL);
- zone->first = NULL;
- zone->total = 0;
- zone->highwater = 0;
- zone->limit = 0;
- zone->notlifo = 0;
- zone->rogue = 0;
- strm->opaque = zone;
- strm->zalloc = mem_alloc;
- strm->zfree = mem_free;
-}
-
-/* set a limit on the total memory allocation, or 0 to remove the limit */
-local void mem_limit(z_stream *strm, size_t limit)
-{
- struct mem_zone *zone = strm->opaque;
-
- zone->limit = limit;
-}
-
-/* show the current total requested allocations in bytes */
-local void mem_used(z_stream *strm, char *prefix)
-{
- struct mem_zone *zone = strm->opaque;
-
- fprintf(stderr, "%s: %lu allocated\n", prefix, zone->total);
-}
-
-/* show the high water allocation in bytes */
-local void mem_high(z_stream *strm, char *prefix)
-{
- struct mem_zone *zone = strm->opaque;
-
- fprintf(stderr, "%s: %lu high water mark\n", prefix, zone->highwater);
-}
-
-/* release the memory allocation zone -- if there are any surprises, notify */
-local void mem_done(z_stream *strm, char *prefix)
-{
- int count = 0;
- struct mem_item *item, *next;
- struct mem_zone *zone = strm->opaque;
-
- /* show high water mark */
- mem_high(strm, prefix);
-
- /* free leftover allocations and item structures, if any */
- item = zone->first;
- while (item != NULL) {
- free(item->ptr);
- next = item->next;
- free(item);
- item = next;
- count++;
- }
-
- /* issue alerts about anything unexpected */
- if (count || zone->total)
- fprintf(stderr, "** %s: %lu bytes in %d blocks not freed\n",
- prefix, zone->total, count);
- if (zone->notlifo)
- fprintf(stderr, "** %s: %d frees not LIFO\n", prefix, zone->notlifo);
- if (zone->rogue)
- fprintf(stderr, "** %s: %d frees not recognized\n",
- prefix, zone->rogue);
-
- /* free the zone and delete from the stream */
- free(zone);
- strm->opaque = Z_NULL;
- strm->zalloc = Z_NULL;
- strm->zfree = Z_NULL;
-}
-
-/* -- inflate test routines -- */
-
-/* Decode a hexadecimal string, set *len to length, in[] to the bytes. This
- decodes liberally, in that hex digits can be adjacent, in which case two in
- a row writes a byte. Or they can be delimited by any non-hex character,
- where the delimiters are ignored except when a single hex digit is followed
- by a delimiter, where that single digit writes a byte. The returned data is
- allocated and must eventually be freed. NULL is returned if out of memory.
- If the length is not needed, then len can be NULL. */
-local unsigned char *h2b(const char *hex, unsigned *len)
-{
- unsigned char *in, *re;
- unsigned next, val;
-
- in = malloc((strlen(hex) + 1) >> 1);
- if (in == NULL)
- return NULL;
- next = 0;
- val = 1;
- do {
- if (*hex >= '0' && *hex <= '9')
- val = (val << 4) + *hex - '0';
- else if (*hex >= 'A' && *hex <= 'F')
- val = (val << 4) + *hex - 'A' + 10;
- else if (*hex >= 'a' && *hex <= 'f')
- val = (val << 4) + *hex - 'a' + 10;
- else if (val != 1 && val < 32) /* one digit followed by delimiter */
- val += 240; /* make it look like two digits */
- if (val > 255) { /* have two digits */
- in[next++] = val & 0xff; /* save the decoded byte */
- val = 1; /* start over */
- }
- } while (*hex++); /* go through the loop with the terminating null */
- if (len != NULL)
- *len = next;
- re = realloc(in, next);
- return re == NULL ? in : re;
-}
-
-/* generic inflate() run, where hex is the hexadecimal input data, what is the
- text to include in an error message, step is how much input data to feed
- inflate() on each call, or zero to feed it all, win is the window bits
- parameter to inflateInit2(), len is the size of the output buffer, and err
- is the error code expected from the first inflate() call (the second
- inflate() call is expected to return Z_STREAM_END). If win is 47, then
- header information is collected with inflateGetHeader(). If a zlib stream
- is looking for a dictionary, then an empty dictionary is provided.
- inflate() is run until all of the input data is consumed. */
-local void inf(char *hex, char *what, unsigned step, int win, unsigned len,
- int err)
-{
- int ret;
- unsigned have;
- unsigned char *in, *out;
- z_stream strm, copy;
- gz_header head;
-
- mem_setup(&strm);
- strm.avail_in = 0;
- strm.next_in = Z_NULL;
- ret = inflateInit2(&strm, win);
- if (ret != Z_OK) {
- mem_done(&strm, what);
- return;
- }
- out = malloc(len); assert(out != NULL);
- if (win == 47) {
- head.extra = out;
- head.extra_max = len;
- head.name = out;
- head.name_max = len;
- head.comment = out;
- head.comm_max = len;
- ret = inflateGetHeader(&strm, &head); assert(ret == Z_OK);
- }
- in = h2b(hex, &have); assert(in != NULL);
- if (step == 0 || step > have)
- step = have;
- strm.avail_in = step;
- have -= step;
- strm.next_in = in;
- do {
- strm.avail_out = len;
- strm.next_out = out;
- ret = inflate(&strm, Z_NO_FLUSH); assert(err == 9 || ret == err);
- if (ret != Z_OK && ret != Z_BUF_ERROR && ret != Z_NEED_DICT)
- break;
- if (ret == Z_NEED_DICT) {
- ret = inflateSetDictionary(&strm, in, 1);
- assert(ret == Z_DATA_ERROR);
- mem_limit(&strm, 1);
- ret = inflateSetDictionary(&strm, out, 0);
- assert(ret == Z_MEM_ERROR);
- mem_limit(&strm, 0);
- ((struct inflate_state *)strm.state)->mode = DICT;
- ret = inflateSetDictionary(&strm, out, 0);
- assert(ret == Z_OK);
- ret = inflate(&strm, Z_NO_FLUSH); assert(ret == Z_BUF_ERROR);
- }
- ret = inflateCopy(&copy, &strm); assert(ret == Z_OK);
- ret = inflateEnd(&copy); assert(ret == Z_OK);
- err = 9; /* don't care next time around */
- have += strm.avail_in;
- strm.avail_in = step > have ? have : step;
- have -= strm.avail_in;
- } while (strm.avail_in);
- free(in);
- free(out);
- ret = inflateReset2(&strm, -8); assert(ret == Z_OK);
- ret = inflateEnd(&strm); assert(ret == Z_OK);
- mem_done(&strm, what);
-}
-
-/* cover all of the lines in inflate.c up to inflate() */
-local void cover_support(void)
-{
- int ret;
- z_stream strm;
-
- mem_setup(&strm);
- strm.avail_in = 0;
- strm.next_in = Z_NULL;
- ret = inflateInit(&strm); assert(ret == Z_OK);
- mem_used(&strm, "inflate init");
- ret = inflatePrime(&strm, 5, 31); assert(ret == Z_OK);
- ret = inflatePrime(&strm, -1, 0); assert(ret == Z_OK);
- ret = inflateSetDictionary(&strm, Z_NULL, 0);
- assert(ret == Z_STREAM_ERROR);
- ret = inflateEnd(&strm); assert(ret == Z_OK);
- mem_done(&strm, "prime");
-
- inf("63 0", "force window allocation", 0, -15, 1, Z_OK);
- inf("63 18 5", "force window replacement", 0, -8, 259, Z_OK);
- inf("63 18 68 30 d0 0 0", "force split window update", 4, -8, 259, Z_OK);
- inf("3 0", "use fixed blocks", 0, -15, 1, Z_STREAM_END);
- inf("", "bad window size", 0, 1, 0, Z_STREAM_ERROR);
-
- mem_setup(&strm);
- strm.avail_in = 0;
- strm.next_in = Z_NULL;
- ret = inflateInit_(&strm, ZLIB_VERSION - 1, (int)sizeof(z_stream));
- assert(ret == Z_VERSION_ERROR);
- mem_done(&strm, "wrong version");
-
- strm.avail_in = 0;
- strm.next_in = Z_NULL;
- ret = inflateInit(&strm); assert(ret == Z_OK);
- ret = inflateEnd(&strm); assert(ret == Z_OK);
- fputs("inflate built-in memory routines\n", stderr);
-}
-
-/* cover all inflate() header and trailer cases and code after inflate() */
-local void cover_wrap(void)
-{
- int ret;
- z_stream strm, copy;
- unsigned char dict[257];
-
- ret = inflate(Z_NULL, 0); assert(ret == Z_STREAM_ERROR);
- ret = inflateEnd(Z_NULL); assert(ret == Z_STREAM_ERROR);
- ret = inflateCopy(Z_NULL, Z_NULL); assert(ret == Z_STREAM_ERROR);
- fputs("inflate bad parameters\n", stderr);
-
- inf("1f 8b 0 0", "bad gzip method", 0, 31, 0, Z_DATA_ERROR);
- inf("1f 8b 8 80", "bad gzip flags", 0, 31, 0, Z_DATA_ERROR);
- inf("77 85", "bad zlib method", 0, 15, 0, Z_DATA_ERROR);
- inf("8 99", "set window size from header", 0, 0, 0, Z_OK);
- inf("78 9c", "bad zlib window size", 0, 8, 0, Z_DATA_ERROR);
- inf("78 9c 63 0 0 0 1 0 1", "check adler32", 0, 15, 1, Z_STREAM_END);
- inf("1f 8b 8 1e 0 0 0 0 0 0 1 0 0 0 0 0 0", "bad header crc", 0, 47, 1,
- Z_DATA_ERROR);
- inf("1f 8b 8 2 0 0 0 0 0 0 1d 26 3 0 0 0 0 0 0 0 0 0", "check gzip length",
- 0, 47, 0, Z_STREAM_END);
- inf("78 90", "bad zlib header check", 0, 47, 0, Z_DATA_ERROR);
- inf("8 b8 0 0 0 1", "need dictionary", 0, 8, 0, Z_NEED_DICT);
- inf("78 9c 63 0", "compute adler32", 0, 15, 1, Z_OK);
-
- mem_setup(&strm);
- strm.avail_in = 0;
- strm.next_in = Z_NULL;
- ret = inflateInit2(&strm, -8);
- strm.avail_in = 2;
- strm.next_in = (void *)"\x63";
- strm.avail_out = 1;
- strm.next_out = (void *)&ret;
- mem_limit(&strm, 1);
- ret = inflate(&strm, Z_NO_FLUSH); assert(ret == Z_MEM_ERROR);
- ret = inflate(&strm, Z_NO_FLUSH); assert(ret == Z_MEM_ERROR);
- mem_limit(&strm, 0);
- memset(dict, 0, 257);
- ret = inflateSetDictionary(&strm, dict, 257);
- assert(ret == Z_OK);
- mem_limit(&strm, (sizeof(struct inflate_state) << 1) + 256);
- ret = inflatePrime(&strm, 16, 0); assert(ret == Z_OK);
- strm.avail_in = 2;
- strm.next_in = (void *)"\x80";
- ret = inflateSync(&strm); assert(ret == Z_DATA_ERROR);
- ret = inflate(&strm, Z_NO_FLUSH); assert(ret == Z_STREAM_ERROR);
- strm.avail_in = 4;
- strm.next_in = (void *)"\0\0\xff\xff";
- ret = inflateSync(&strm); assert(ret == Z_OK);
- (void)inflateSyncPoint(&strm);
- ret = inflateCopy(&copy, &strm); assert(ret == Z_MEM_ERROR);
- mem_limit(&strm, 0);
- ret = inflateUndermine(&strm, 1); assert(ret == Z_DATA_ERROR);
- (void)inflateMark(&strm);
- ret = inflateEnd(&strm); assert(ret == Z_OK);
- mem_done(&strm, "miscellaneous, force memory errors");
-}
-
-/* input and output functions for inflateBack() */
-local unsigned pull(void *desc, unsigned char **buf)
-{
- static unsigned int next = 0;
- static unsigned char dat[] = {0x63, 0, 2, 0};
- struct inflate_state *state;
-
- if (desc == Z_NULL) {
- next = 0;
- return 0; /* no input (already provided at next_in) */
- }
- state = (void *)((z_stream *)desc)->state;
- if (state != Z_NULL)
- state->mode = SYNC; /* force an otherwise impossible situation */
- return next < sizeof(dat) ? (*buf = dat + next++, 1) : 0;
-}
-
-local int push(void *desc, unsigned char *buf, unsigned len)
-{
- buf += len;
- return desc != Z_NULL; /* force error if desc not null */
-}
-
-/* cover inflateBack() up to common deflate data cases and after those */
-local void cover_back(void)
-{
- int ret;
- z_stream strm;
- unsigned char win[32768];
-
- ret = inflateBackInit_(Z_NULL, 0, win, 0, 0);
- assert(ret == Z_VERSION_ERROR);
- ret = inflateBackInit(Z_NULL, 0, win); assert(ret == Z_STREAM_ERROR);
- ret = inflateBack(Z_NULL, Z_NULL, Z_NULL, Z_NULL, Z_NULL);
- assert(ret == Z_STREAM_ERROR);
- ret = inflateBackEnd(Z_NULL); assert(ret == Z_STREAM_ERROR);
- fputs("inflateBack bad parameters\n", stderr);
-
- mem_setup(&strm);
- ret = inflateBackInit(&strm, 15, win); assert(ret == Z_OK);
- strm.avail_in = 2;
- strm.next_in = (void *)"\x03";
- ret = inflateBack(&strm, pull, Z_NULL, push, Z_NULL);
- assert(ret == Z_STREAM_END);
- /* force output error */
- strm.avail_in = 3;
- strm.next_in = (void *)"\x63\x00";
- ret = inflateBack(&strm, pull, Z_NULL, push, &strm);
- assert(ret == Z_BUF_ERROR);
- /* force mode error by mucking with state */
- ret = inflateBack(&strm, pull, &strm, push, Z_NULL);
- assert(ret == Z_STREAM_ERROR);
- ret = inflateBackEnd(&strm); assert(ret == Z_OK);
- mem_done(&strm, "inflateBack bad state");
-
- ret = inflateBackInit(&strm, 15, win); assert(ret == Z_OK);
- ret = inflateBackEnd(&strm); assert(ret == Z_OK);
- fputs("inflateBack built-in memory routines\n", stderr);
-}
-
-/* do a raw inflate of data in hexadecimal with both inflate and inflateBack */
-local int try(char *hex, char *id, int err)
-{
- int ret;
- unsigned len, size;
- unsigned char *in, *out, *win;
- char *prefix;
- z_stream strm;
-
- /* convert to hex */
- in = h2b(hex, &len);
- assert(in != NULL);
-
- /* allocate work areas */
- size = len << 3;
- out = malloc(size);
- assert(out != NULL);
- win = malloc(32768);
- assert(win != NULL);
- prefix = malloc(strlen(id) + 6);
- assert(prefix != NULL);
-
- /* first with inflate */
- strcpy(prefix, id);
- strcat(prefix, "-late");
- mem_setup(&strm);
- strm.avail_in = 0;
- strm.next_in = Z_NULL;
- ret = inflateInit2(&strm, err < 0 ? 47 : -15);
- assert(ret == Z_OK);
- strm.avail_in = len;
- strm.next_in = in;
- do {
- strm.avail_out = size;
- strm.next_out = out;
- ret = inflate(&strm, Z_TREES);
- assert(ret != Z_STREAM_ERROR && ret != Z_MEM_ERROR);
- if (ret == Z_DATA_ERROR || ret == Z_NEED_DICT)
- break;
- } while (strm.avail_in || strm.avail_out == 0);
- if (err) {
- assert(ret == Z_DATA_ERROR);
- assert(strcmp(id, strm.msg) == 0);
- }
- inflateEnd(&strm);
- mem_done(&strm, prefix);
-
- /* then with inflateBack */
- if (err >= 0) {
- strcpy(prefix, id);
- strcat(prefix, "-back");
- mem_setup(&strm);
- ret = inflateBackInit(&strm, 15, win);
- assert(ret == Z_OK);
- strm.avail_in = len;
- strm.next_in = in;
- ret = inflateBack(&strm, pull, Z_NULL, push, Z_NULL);
- assert(ret != Z_STREAM_ERROR);
- if (err) {
- assert(ret == Z_DATA_ERROR);
- assert(strcmp(id, strm.msg) == 0);
- }
- inflateBackEnd(&strm);
- mem_done(&strm, prefix);
- }
-
- /* clean up */
- free(prefix);
- free(win);
- free(out);
- free(in);
- return ret;
-}
-
-/* cover deflate data cases in both inflate() and inflateBack() */
-local void cover_inflate(void)
-{
- try("0 0 0 0 0", "invalid stored block lengths", 1);
- try("3 0", "fixed", 0);
- try("6", "invalid block type", 1);
- try("1 1 0 fe ff 0", "stored", 0);
- try("fc 0 0", "too many length or distance symbols", 1);
- try("4 0 fe ff", "invalid code lengths set", 1);
- try("4 0 24 49 0", "invalid bit length repeat", 1);
- try("4 0 24 e9 ff ff", "invalid bit length repeat", 1);
- try("4 0 24 e9 ff 6d", "invalid code -- missing end-of-block", 1);
- try("4 80 49 92 24 49 92 24 71 ff ff 93 11 0",
- "invalid literal/lengths set", 1);
- try("4 80 49 92 24 49 92 24 f b4 ff ff c3 84", "invalid distances set", 1);
- try("4 c0 81 8 0 0 0 0 20 7f eb b 0 0", "invalid literal/length code", 1);
- try("2 7e ff ff", "invalid distance code", 1);
- try("c c0 81 0 0 0 0 0 90 ff 6b 4 0", "invalid distance too far back", 1);
-
- /* also trailer mismatch just in inflate() */
- try("1f 8b 8 0 0 0 0 0 0 0 3 0 0 0 0 1", "incorrect data check", -1);
- try("1f 8b 8 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 0 1",
- "incorrect length check", -1);
- try("5 c0 21 d 0 0 0 80 b0 fe 6d 2f 91 6c", "pull 17", 0);
- try("5 e0 81 91 24 cb b2 2c 49 e2 f 2e 8b 9a 47 56 9f fb fe ec d2 ff 1f",
- "long code", 0);
- try("ed c0 1 1 0 0 0 40 20 ff 57 1b 42 2c 4f", "length extra", 0);
- try("ed cf c1 b1 2c 47 10 c4 30 fa 6f 35 1d 1 82 59 3d fb be 2e 2a fc f c",
- "long distance and extra", 0);
- try("ed c0 81 0 0 0 0 80 a0 fd a9 17 a9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 "
- "0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 6", "window end", 0);
- inf("2 8 20 80 0 3 0", "inflate_fast TYPE return", 0, -15, 258,
- Z_STREAM_END);
- inf("63 18 5 40 c 0", "window wrap", 3, -8, 300, Z_OK);
-}
-
-/* cover remaining lines in inftrees.c */
-local void cover_trees(void)
-{
- int ret;
- unsigned bits;
- unsigned short lens[16], work[16];
- code *next, table[ENOUGH_DISTS];
-
- /* we need to call inflate_table() directly in order to manifest not-
- enough errors, since zlib insures that enough is always enough */
- for (bits = 0; bits < 15; bits++)
- lens[bits] = (unsigned short)(bits + 1);
- lens[15] = 15;
- next = table;
- bits = 15;
- ret = inflate_table(DISTS, lens, 16, &next, &bits, work);
- assert(ret == 1);
- next = table;
- bits = 1;
- ret = inflate_table(DISTS, lens, 16, &next, &bits, work);
- assert(ret == 1);
- fputs("inflate_table not enough errors\n", stderr);
-}
-
-/* cover remaining inffast.c decoding and window copying */
-local void cover_fast(void)
-{
- inf("e5 e0 81 ad 6d cb b2 2c c9 01 1e 59 63 ae 7d ee fb 4d fd b5 35 41 68"
- " ff 7f 0f 0 0 0", "fast length extra bits", 0, -8, 258, Z_DATA_ERROR);
- inf("25 fd 81 b5 6d 59 b6 6a 49 ea af 35 6 34 eb 8c b9 f6 b9 1e ef 67 49"
- " 50 fe ff ff 3f 0 0", "fast distance extra bits", 0, -8, 258,
- Z_DATA_ERROR);
- inf("3 7e 0 0 0 0 0", "fast invalid distance code", 0, -8, 258,
- Z_DATA_ERROR);
- inf("1b 7 0 0 0 0 0", "fast invalid literal/length code", 0, -8, 258,
- Z_DATA_ERROR);
- inf("d c7 1 ae eb 38 c 4 41 a0 87 72 de df fb 1f b8 36 b1 38 5d ff ff 0",
- "fast 2nd level codes and too far back", 0, -8, 258, Z_DATA_ERROR);
- inf("63 18 5 8c 10 8 0 0 0 0", "very common case", 0, -8, 259, Z_OK);
- inf("63 60 60 18 c9 0 8 18 18 18 26 c0 28 0 29 0 0 0",
- "contiguous and wrap around window", 6, -8, 259, Z_OK);
- inf("63 0 3 0 0 0 0 0", "copy direct from output", 0, -8, 259,
- Z_STREAM_END);
-}
-
-int main(void)
-{
- fprintf(stderr, "%s\n", zlibVersion());
- cover_support();
- cover_wrap();
- cover_back();
- cover_inflate();
- cover_trees();
- cover_fast();
- return 0;
-}
generated by cgit v1.1 at 2024-05-18 22:36:37 +0000