#include
#include
#include
#define CMARK_NO_SHORT_NAMES
#include "cmark.h"
#include "node.h"
#include "harness.h"
#include "cplusplus.h"
#define UTF8_REPL "\xEF\xBF\xBD"
static const cmark_node_type node_types[] = {
CMARK_NODE_DOCUMENT,
CMARK_NODE_BLOCK_QUOTE,
CMARK_NODE_LIST,
CMARK_NODE_ITEM,
CMARK_NODE_CODE_BLOCK,
CMARK_NODE_HTML,
CMARK_NODE_PARAGRAPH,
CMARK_NODE_HEADING,
CMARK_NODE_HRULE,
CMARK_NODE_TEXT,
CMARK_NODE_SOFTBREAK,
CMARK_NODE_LINEBREAK,
CMARK_NODE_CODE,
CMARK_NODE_INLINE_HTML,
CMARK_NODE_EMPH,
CMARK_NODE_STRONG,
CMARK_NODE_LINK,
CMARK_NODE_IMAGE
};
static const int num_node_types = sizeof(node_types) / sizeof(*node_types);
static void
test_md_to_html(test_batch_runner *runner, const char *markdown,
const char *expected_html, const char *msg);
static void
test_content(test_batch_runner *runner, cmark_node_type type,
int allowed_content);
static void
test_char(test_batch_runner *runner, int valid, const char *utf8,
const char *msg);
static void
test_incomplete_char(test_batch_runner *runner, const char *utf8,
const char *msg);
static void
test_continuation_byte(test_batch_runner *runner, const char *utf8);
static void
version(test_batch_runner *runner)
{
INT_EQ(runner, cmark_version(), CMARK_VERSION, "cmark_version");
STR_EQ(runner, cmark_version_string(), CMARK_VERSION_STRING,
"cmark_version_string");
}
static void
constructor(test_batch_runner *runner)
{
for (int i = 0; i < num_node_types; ++i) {
cmark_node_type type = node_types[i];
cmark_node *node = cmark_node_new(type);
OK(runner, node != NULL, "new type %d", type);
INT_EQ(runner, cmark_node_get_type(node), type,
"get_type %d", type);
switch (node->type) {
case CMARK_NODE_HEADING:
INT_EQ(runner, cmark_node_get_heading_level(node), 1,
"default heading level is 1");
node->as.heading.level = 1;
break;
case CMARK_NODE_LIST:
INT_EQ(runner, cmark_node_get_list_type(node),
CMARK_BULLET_LIST,
"default is list type is bullet");
INT_EQ(runner, cmark_node_get_list_delim(node),
CMARK_NO_DELIM,
"default is list delim is NO_DELIM");
INT_EQ(runner, cmark_node_get_list_start(node), 1,
"default is list start is 1");
INT_EQ(runner, cmark_node_get_list_tight(node), 0,
"default is list is loose");
break;
default:
break;
}
cmark_node_free(node);
}
}
static void
accessors(test_batch_runner *runner)
{
static const char markdown[] =
"## Header\n"
"\n"
"* Item 1\n"
"* Item 2\n"
"\n"
"2. Item 1\n"
"\n"
"3. Item 2\n"
"\n"
"\n"
" code\n"
"\n"
"``` lang\n"
"fenced\n"
"```\n"
"\n"
"html
\n"
"\n"
"[link](url 'title')\n";
cmark_node *doc = cmark_parse_document(markdown, sizeof(markdown) - 1, CMARK_OPT_DEFAULT);
// Getters
cmark_node *heading = cmark_node_first_child(doc);
INT_EQ(runner, cmark_node_get_heading_level(heading), 2,
"get_heading_level");
cmark_node *bullet_list = cmark_node_next(heading);
INT_EQ(runner, cmark_node_get_list_type(bullet_list),
CMARK_BULLET_LIST, "get_list_type bullet");
INT_EQ(runner, cmark_node_get_list_tight(bullet_list), 1,
"get_list_tight tight");
cmark_node *ordered_list = cmark_node_next(bullet_list);
INT_EQ(runner, cmark_node_get_list_type(ordered_list),
CMARK_ORDERED_LIST, "get_list_type ordered");
INT_EQ(runner, cmark_node_get_list_delim(ordered_list),
CMARK_PERIOD_DELIM, "get_list_delim ordered");
INT_EQ(runner, cmark_node_get_list_start(ordered_list), 2,
"get_list_start");
INT_EQ(runner, cmark_node_get_list_tight(ordered_list), 0,
"get_list_tight loose");
cmark_node *code = cmark_node_next(ordered_list);
STR_EQ(runner, cmark_node_get_literal(code), "code\n",
"get_literal indented code");
cmark_node *fenced = cmark_node_next(code);
STR_EQ(runner, cmark_node_get_literal(fenced), "fenced\n",
"get_literal fenced code");
STR_EQ(runner, cmark_node_get_fence_info(fenced), "lang",
"get_fence_info");
cmark_node *html = cmark_node_next(fenced);
STR_EQ(runner, cmark_node_get_literal(html),
"html
\n", "get_literal html");
cmark_node *paragraph = cmark_node_next(html);
INT_EQ(runner, cmark_node_get_start_line(paragraph), 19,
"get_start_line");
INT_EQ(runner, cmark_node_get_start_column(paragraph), 1,
"get_start_column");
INT_EQ(runner, cmark_node_get_end_line(paragraph), 19,
"get_end_line");
cmark_node *link = cmark_node_first_child(paragraph);
STR_EQ(runner, cmark_node_get_url(link), "url",
"get_url");
STR_EQ(runner, cmark_node_get_title(link), "title",
"get_title");
cmark_node *string = cmark_node_first_child(link);
STR_EQ(runner, cmark_node_get_literal(string), "link",
"get_literal string");
// Setters
OK(runner, cmark_node_set_heading_level(heading, 3),
"set_heading_level");
OK(runner, cmark_node_set_list_type(bullet_list, CMARK_ORDERED_LIST),
"set_list_type ordered");
OK(runner, cmark_node_set_list_delim(bullet_list, CMARK_PAREN_DELIM),
"set_list_delim paren");
OK(runner, cmark_node_set_list_start(bullet_list, 3),
"set_list_start");
OK(runner, cmark_node_set_list_tight(bullet_list, 0),
"set_list_tight loose");
OK(runner, cmark_node_set_list_type(ordered_list, CMARK_BULLET_LIST),
"set_list_type bullet");
OK(runner, cmark_node_set_list_tight(ordered_list, 1),
"set_list_tight tight");
OK(runner, cmark_node_set_literal(code, "CODE\n"),
"set_literal indented code");
OK(runner, cmark_node_set_literal(fenced, "FENCED\n"),
"set_literal fenced code");
OK(runner, cmark_node_set_fence_info(fenced, "LANG"),
"set_fence_info");
OK(runner, cmark_node_set_literal(html, "HTML
\n"),
"set_literal html");
OK(runner, cmark_node_set_url(link, "URL"),
"set_url");
OK(runner, cmark_node_set_title(link, "TITLE"),
"set_title");
OK(runner, cmark_node_set_literal(string, "LINK"),
"set_literal string");
char *rendered_html = cmark_render_html(doc, CMARK_OPT_DEFAULT);
static const char expected_html[] =
"Header
\n"
"\n"
"- \n"
"
Item 1
\n"
" \n"
"- \n"
"
Item 2
\n"
" \n"
"
\n"
"\n"
"- Item 1
\n"
"- Item 2
\n"
"
\n"
"CODE\n"
"
\n"
"FENCED\n"
"
\n"
"HTML
\n"
"LINK
\n";
STR_EQ(runner, rendered_html, expected_html, "setters work");
free(rendered_html);
// Getter errors
INT_EQ(runner, cmark_node_get_heading_level(bullet_list), 0,
"get_heading_level error");
INT_EQ(runner, cmark_node_get_list_type(heading), CMARK_NO_LIST,
"get_list_type error");
INT_EQ(runner, cmark_node_get_list_start(code), 0,
"get_list_start error");
INT_EQ(runner, cmark_node_get_list_tight(fenced), 0,
"get_list_tight error");
OK(runner, cmark_node_get_literal(ordered_list) == NULL,
"get_literal error");
OK(runner, cmark_node_get_fence_info(paragraph) == NULL,
"get_fence_info error");
OK(runner, cmark_node_get_url(html) == NULL,
"get_url error");
OK(runner, cmark_node_get_title(heading) == NULL,
"get_title error");
// Setter errors
OK(runner, !cmark_node_set_heading_level(bullet_list, 3),
"set_heading_level error");
OK(runner, !cmark_node_set_list_type(heading, CMARK_ORDERED_LIST),
"set_list_type error");
OK(runner, !cmark_node_set_list_start(code, 3),
"set_list_start error");
OK(runner, !cmark_node_set_list_tight(fenced, 0),
"set_list_tight error");
OK(runner, !cmark_node_set_literal(ordered_list, "content\n"),
"set_literal error");
OK(runner, !cmark_node_set_fence_info(paragraph, "lang"),
"set_fence_info error");
OK(runner, !cmark_node_set_url(html, "url"),
"set_url error");
OK(runner, !cmark_node_set_title(heading, "title"),
"set_title error");
OK(runner, !cmark_node_set_heading_level(heading, 0),
"set_heading_level too small");
OK(runner, !cmark_node_set_heading_level(heading, 7),
"set_heading_level too large");
OK(runner, !cmark_node_set_list_type(bullet_list, CMARK_NO_LIST),
"set_list_type invalid");
OK(runner, !cmark_node_set_list_start(bullet_list, -1),
"set_list_start negative");
cmark_node_free(doc);
}
static void
node_check(test_batch_runner *runner) {
// Construct an incomplete tree.
cmark_node *doc = cmark_node_new(CMARK_NODE_DOCUMENT);
cmark_node *p1 = cmark_node_new(CMARK_NODE_PARAGRAPH);
cmark_node *p2 = cmark_node_new(CMARK_NODE_PARAGRAPH);
doc->first_child = p1;
p1->next = p2;
INT_EQ(runner, cmark_node_check(doc, NULL), 4, "node_check works");
INT_EQ(runner, cmark_node_check(doc, NULL), 0,
"node_check fixes tree");
cmark_node_free(doc);
}
static void
iterator(test_batch_runner *runner) {
cmark_node *doc = cmark_parse_document("> a *b*\n\nc", 10, CMARK_OPT_DEFAULT);
int parnodes = 0;
cmark_event_type ev_type;
cmark_iter *iter = cmark_iter_new(doc);
cmark_node *cur;
while ((ev_type = cmark_iter_next(iter)) != CMARK_EVENT_DONE) {
cur = cmark_iter_get_node(iter);
if (cur->type == CMARK_NODE_PARAGRAPH &&
ev_type == CMARK_EVENT_ENTER) {
parnodes += 1;
}
}
INT_EQ(runner, parnodes, 2, "iterate correctly counts paragraphs");
cmark_iter_free(iter);
cmark_node_free(doc);
}
static void
iterator_delete(test_batch_runner *runner) {
static const char md[] =
"a *b* c\n"
"\n"
"* item1\n"
"* item2\n"
"\n"
"a `b` c\n"
"\n"
"* item1\n"
"* item2\n";
cmark_node *doc = cmark_parse_document(md, sizeof(md) - 1,
CMARK_OPT_DEFAULT);
cmark_iter *iter = cmark_iter_new(doc);
cmark_event_type ev_type;
while ((ev_type = cmark_iter_next(iter)) != CMARK_EVENT_DONE) {
cmark_node *node = cmark_iter_get_node(iter);
// Delete list, emph, and code nodes.
if ((ev_type == CMARK_EVENT_EXIT &&
node->type == CMARK_NODE_LIST) ||
(ev_type == CMARK_EVENT_EXIT &&
node->type == CMARK_NODE_EMPH) ||
(ev_type == CMARK_EVENT_ENTER &&
node->type == CMARK_NODE_CODE)) {
cmark_node_free(node);
}
}
char *html = cmark_render_html(doc, CMARK_OPT_DEFAULT);
static const char expected[] =
"a c
\n"
"a c
\n";
STR_EQ(runner, html, expected, "iterate and delete nodes");
free(html);
cmark_iter_free(iter);
cmark_node_free(doc);
}
static void
create_tree(test_batch_runner *runner)
{
char *html;
cmark_node *doc = cmark_node_new(CMARK_NODE_DOCUMENT);
cmark_node *p = cmark_node_new(CMARK_NODE_PARAGRAPH);
OK(runner, !cmark_node_insert_before(doc, p),
"insert before root fails");
OK(runner, !cmark_node_insert_after(doc, p),
"insert after root fails");
OK(runner, cmark_node_append_child(doc, p), "append1");
INT_EQ(runner, cmark_node_check(doc, NULL), 0, "append1 consistent");
OK(runner, cmark_node_parent(p) == doc, "node_parent");
cmark_node *emph = cmark_node_new(CMARK_NODE_EMPH);
OK(runner, cmark_node_prepend_child(p, emph), "prepend1");
INT_EQ(runner, cmark_node_check(doc, NULL), 0, "prepend1 consistent");
cmark_node *str1 = cmark_node_new(CMARK_NODE_TEXT);
cmark_node_set_literal(str1, "Hello, ");
OK(runner, cmark_node_prepend_child(p, str1), "prepend2");
INT_EQ(runner, cmark_node_check(doc, NULL), 0, "prepend2 consistent");
cmark_node *str3 = cmark_node_new(CMARK_NODE_TEXT);
cmark_node_set_literal(str3, "!");
OK(runner, cmark_node_append_child(p, str3), "append2");
INT_EQ(runner, cmark_node_check(doc, NULL), 0, "append2 consistent");
cmark_node *str2 = cmark_node_new(CMARK_NODE_TEXT);
cmark_node_set_literal(str2, "world");
OK(runner, cmark_node_append_child(emph, str2), "append3");
INT_EQ(runner, cmark_node_check(doc, NULL), 0, "append3 consistent");
html = cmark_render_html(doc, CMARK_OPT_DEFAULT);
STR_EQ(runner, html, "Hello, world!
\n",
"render_html");
free(html);
OK(runner, cmark_node_insert_before(str1, str3), "ins before1");
INT_EQ(runner, cmark_node_check(doc, NULL), 0,
"ins before1 consistent");
// 31e
OK(runner, cmark_node_first_child(p) == str3, "ins before1 works");
OK(runner, cmark_node_insert_before(str1, emph), "ins before2");
INT_EQ(runner, cmark_node_check(doc, NULL), 0,
"ins before2 consistent");
// 3e1
OK(runner, cmark_node_last_child(p) == str1, "ins before2 works");
OK(runner, cmark_node_insert_after(str1, str3), "ins after1");
INT_EQ(runner, cmark_node_check(doc, NULL), 0,
"ins after1 consistent");
// e13
OK(runner, cmark_node_next(str1) == str3, "ins after1 works");
OK(runner, cmark_node_insert_after(str1, emph), "ins after2");
INT_EQ(runner, cmark_node_check(doc, NULL), 0,
"ins after2 consistent");
// 1e3
OK(runner, cmark_node_previous(emph) == str1, "ins after2 works");
cmark_node_unlink(emph);
html = cmark_render_html(doc, CMARK_OPT_DEFAULT);
STR_EQ(runner, html, "Hello, !
\n",
"render_html after shuffling");
free(html);
cmark_node_free(doc);
// TODO: Test that the contents of an unlinked inline are valid
// after the parent block was destroyed. This doesn't work so far.
cmark_node_free(emph);
}
static void
custom_nodes(test_batch_runner *runner)
{
char *html;
char *man;
cmark_node *doc = cmark_node_new(CMARK_NODE_DOCUMENT);
cmark_node *p = cmark_node_new(CMARK_NODE_PARAGRAPH);
cmark_node_append_child(doc, p);
cmark_node *ci = cmark_node_new(CMARK_NODE_CUSTOM_INLINE);
cmark_node *str1 = cmark_node_new(CMARK_NODE_TEXT);
cmark_node_set_literal(str1, "Hello");
OK(runner, cmark_node_append_child(ci, str1), "append1");
OK(runner, cmark_node_set_on_enter(ci, ""),
"set_on_exit");
STR_EQ(runner, cmark_node_get_on_enter(ci), "",
"get_on_exit");
cmark_node_append_child(p, ci);
cmark_node *cb = cmark_node_new(CMARK_NODE_CUSTOM_BLOCK);
cmark_node_set_on_enter(cb, "
\n\n CMARK_NODE_LAST_INLINE
? CMARK_NODE_LAST_BLOCK : CMARK_NODE_LAST_INLINE;
OK(runner, max_node_type < 32, "all node types < 32");
int list_item_flag = 1 << CMARK_NODE_ITEM;
int top_level_blocks =
(1 << CMARK_NODE_BLOCK_QUOTE) |
(1 << CMARK_NODE_LIST) |
(1 << CMARK_NODE_CODE_BLOCK) |
(1 << CMARK_NODE_HTML) |
(1 << CMARK_NODE_PARAGRAPH) |
(1 << CMARK_NODE_HEADING) |
(1 << CMARK_NODE_HRULE);
int all_inlines =
(1 << CMARK_NODE_TEXT) |
(1 << CMARK_NODE_SOFTBREAK) |
(1 << CMARK_NODE_LINEBREAK) |
(1 << CMARK_NODE_CODE) |
(1 << CMARK_NODE_INLINE_HTML) |
(1 << CMARK_NODE_EMPH) |
(1 << CMARK_NODE_STRONG) |
(1 << CMARK_NODE_LINK) |
(1 << CMARK_NODE_IMAGE);
test_content(runner, CMARK_NODE_DOCUMENT, top_level_blocks);
test_content(runner, CMARK_NODE_BLOCK_QUOTE, top_level_blocks);
test_content(runner, CMARK_NODE_LIST, list_item_flag);
test_content(runner, CMARK_NODE_ITEM, top_level_blocks);
test_content(runner, CMARK_NODE_CODE_BLOCK , 0);
test_content(runner, CMARK_NODE_HTML, 0);
test_content(runner, CMARK_NODE_PARAGRAPH, all_inlines);
test_content(runner, CMARK_NODE_HEADING, all_inlines);
test_content(runner, CMARK_NODE_HRULE, 0);
test_content(runner, CMARK_NODE_TEXT, 0);
test_content(runner, CMARK_NODE_SOFTBREAK, 0);
test_content(runner, CMARK_NODE_LINEBREAK, 0);
test_content(runner, CMARK_NODE_CODE, 0);
test_content(runner, CMARK_NODE_INLINE_HTML, 0);
test_content(runner, CMARK_NODE_EMPH, all_inlines);
test_content(runner, CMARK_NODE_STRONG, all_inlines);
test_content(runner, CMARK_NODE_LINK, all_inlines);
test_content(runner, CMARK_NODE_IMAGE, all_inlines);
}
static void
test_content(test_batch_runner *runner, cmark_node_type type,
int allowed_content)
{
cmark_node *node = cmark_node_new(type);
for (int i = 0; i < num_node_types; ++i) {
cmark_node_type child_type = node_types[i];
cmark_node *child = cmark_node_new(child_type);
int got = cmark_node_append_child(node, child);
int expected = (allowed_content >> child_type) & 1;
INT_EQ(runner, got, expected,
"add %d as child of %d", child_type, type);
cmark_node_free(child);
}
cmark_node_free(node);
}
static void
parser(test_batch_runner *runner)
{
test_md_to_html(runner, "No newline", "No newline
\n",
"document without trailing newline");
}
static void
render_html(test_batch_runner *runner)
{
char *html;
static const char markdown[] =
"foo *bar*\n"
"\n"
"paragraph 2\n";
cmark_node *doc = cmark_parse_document(markdown, sizeof(markdown) - 1,
CMARK_OPT_DEFAULT);
cmark_node *paragraph = cmark_node_first_child(doc);
html = cmark_render_html(paragraph, CMARK_OPT_DEFAULT);
STR_EQ(runner, html, "foo bar
\n",
"render single paragraph");
free(html);
cmark_node *string = cmark_node_first_child(paragraph);
html = cmark_render_html(string, CMARK_OPT_DEFAULT);
STR_EQ(runner, html, "foo ", "render single inline");
free(html);
cmark_node *emph = cmark_node_next(string);
html = cmark_render_html(emph, CMARK_OPT_DEFAULT);
STR_EQ(runner, html, "bar", "render inline with children");
free(html);
cmark_node_free(doc);
}
static void
utf8(test_batch_runner *runner)
{
// Ranges
test_char(runner, 1, "\x01", "valid utf8 01");
test_char(runner, 1, "\x7F", "valid utf8 7F");
test_char(runner, 0, "\x80", "invalid utf8 80");
test_char(runner, 0, "\xBF", "invalid utf8 BF");
test_char(runner, 0, "\xC0\x80", "invalid utf8 C080");
test_char(runner, 0, "\xC1\xBF", "invalid utf8 C1BF");
test_char(runner, 1, "\xC2\x80", "valid utf8 C280");
test_char(runner, 1, "\xDF\xBF", "valid utf8 DFBF");
test_char(runner, 0, "\xE0\x80\x80", "invalid utf8 E08080");
test_char(runner, 0, "\xE0\x9F\xBF", "invalid utf8 E09FBF");
test_char(runner, 1, "\xE0\xA0\x80", "valid utf8 E0A080");
test_char(runner, 1, "\xED\x9F\xBF", "valid utf8 ED9FBF");
test_char(runner, 0, "\xED\xA0\x80", "invalid utf8 EDA080");
test_char(runner, 0, "\xED\xBF\xBF", "invalid utf8 EDBFBF");
test_char(runner, 0, "\xF0\x80\x80\x80", "invalid utf8 F0808080");
test_char(runner, 0, "\xF0\x8F\xBF\xBF", "invalid utf8 F08FBFBF");
test_char(runner, 1, "\xF0\x90\x80\x80", "valid utf8 F0908080");
test_char(runner, 1, "\xF4\x8F\xBF\xBF", "valid utf8 F48FBFBF");
test_char(runner, 0, "\xF4\x90\x80\x80", "invalid utf8 F4908080");
test_char(runner, 0, "\xF7\xBF\xBF\xBF", "invalid utf8 F7BFBFBF");
test_char(runner, 0, "\xF8", "invalid utf8 F8");
test_char(runner, 0, "\xFF", "invalid utf8 FF");
// Incomplete byte sequences at end of input
test_incomplete_char(runner, "\xE0\xA0", "invalid utf8 E0A0");
test_incomplete_char(runner, "\xF0\x90\x80", "invalid utf8 F09080");
// Invalid continuation bytes
test_continuation_byte(runner, "\xC2\x80");
test_continuation_byte(runner, "\xE0\xA0\x80");
test_continuation_byte(runner, "\xF0\x90\x80\x80");
// Test string containing null character
static const char string_with_null[] = "((((\0))))";
char *html = cmark_markdown_to_html(string_with_null,
sizeof(string_with_null) - 1,
CMARK_OPT_DEFAULT);
STR_EQ(runner, html, "((((" UTF8_REPL "))))
\n",
"utf8 with U+0000");
free(html);
}
static void
test_char(test_batch_runner *runner, int valid, const char *utf8,
const char *msg)
{
char buf[20];
sprintf(buf, "((((%s))))", utf8);
if (valid) {
char expected[30];
sprintf(expected, "((((%s))))
\n", utf8);
test_md_to_html(runner, buf, expected, msg);
}
else {
test_md_to_html(runner, buf, "((((" UTF8_REPL "))))
\n",
msg);
}
}
static void
test_incomplete_char(test_batch_runner *runner, const char *utf8,
const char *msg)
{
char buf[20];
sprintf(buf, "----%s", utf8);
test_md_to_html(runner, buf, "----" UTF8_REPL "
\n", msg);
}
static void
test_continuation_byte(test_batch_runner *runner, const char *utf8)
{
size_t len = strlen(utf8);
for (size_t pos = 1; pos < len; ++pos) {
char buf[20];
sprintf(buf, "((((%s))))", utf8);
buf[4+pos] = '\x20';
char expected[50];
strcpy(expected, "((((" UTF8_REPL "\x20");
for (size_t i = pos + 1; i < len; ++i) {
strcat(expected, UTF8_REPL);
}
strcat(expected, "))))
\n");
char *html = cmark_markdown_to_html(buf, strlen(buf),
CMARK_OPT_VALIDATE_UTF8);
STR_EQ(runner, html, expected,
"invalid utf8 continuation byte %d/%d", pos, len);
free(html);
}
}
static void
line_endings(test_batch_runner *runner)
{
// Test list with different line endings
static const char list_with_endings[] =
"- a\n- b\r\n- c\r- d";
char *html = cmark_markdown_to_html(list_with_endings,
sizeof(list_with_endings) - 1,
CMARK_OPT_DEFAULT);
STR_EQ(runner, html, "\n",
"list with different line endings");
free(html);
static const char crlf_lines[] = "line\r\nline\r\n";
html = cmark_markdown_to_html(crlf_lines,
sizeof(crlf_lines) - 1,
CMARK_OPT_DEFAULT | CMARK_OPT_HARDBREAKS);
STR_EQ(runner, html, "line
\nline
\n",
"crlf endings with CMARK_OPT_HARDBREAKS");
free(html);
static const char no_line_ending[] = "```\nline\n```";
html = cmark_markdown_to_html(no_line_ending,
sizeof(no_line_ending) - 1,
CMARK_OPT_DEFAULT);
STR_EQ(runner, html, "line\n
\n",
"fenced code block with no final newline");
free(html);
}
static void
numeric_entities(test_batch_runner *runner)
{
test_md_to_html(runner, "", "" UTF8_REPL "
\n",
"Invalid numeric entity 0");
test_md_to_html(runner, "", "\xED\x9F\xBF
\n",
"Valid numeric entity 0xD7FF");
test_md_to_html(runner, "", "" UTF8_REPL "
\n",
"Invalid numeric entity 0xD800");
test_md_to_html(runner, "", "" UTF8_REPL "
\n",
"Invalid numeric entity 0xDFFF");
test_md_to_html(runner, "", "\xEE\x80\x80
\n",
"Valid numeric entity 0xE000");
test_md_to_html(runner, "", "\xF4\x8F\xBF\xBF
\n",
"Valid numeric entity 0x10FFFF");
test_md_to_html(runner, "", "" UTF8_REPL "
\n",
"Invalid numeric entity 0x110000");
test_md_to_html(runner, "", "" UTF8_REPL "
\n",
"Invalid numeric entity 0x80000000");
test_md_to_html(runner, "", "" UTF8_REPL "
\n",
"Invalid numeric entity 0xFFFFFFFF");
test_md_to_html(runner, "", "" UTF8_REPL "
\n",
"Invalid numeric entity 99999999");
test_md_to_html(runner, "", "&#;
\n",
"Min decimal entity length");
test_md_to_html(runner, "", "&#x;
\n",
"Min hexadecimal entity length");
test_md_to_html(runner, "", "�
\n",
"Max decimal entity length");
test_md_to_html(runner, "A", "A
\n",
"Max hexadecimal entity length");
}
static void
test_safe(test_batch_runner *runner)
{
// Test safe mode
static const char raw_html[] =
"\nhi\n
\n\nhi\n[link](JAVAscript:alert('hi'))\n![image](file:my.js)\n";
char *html = cmark_markdown_to_html(raw_html,
sizeof(raw_html) - 1,
CMARK_OPT_DEFAULT |
CMARK_OPT_SAFE);
STR_EQ(runner, html, "\nhi\nlink\n
\n",
"input with raw HTML and dangerous links");
free(html);
}
static void
test_md_to_html(test_batch_runner *runner, const char *markdown,
const char *expected_html, const char *msg)
{
char *html = cmark_markdown_to_html(markdown, strlen(markdown),
CMARK_OPT_VALIDATE_UTF8);
STR_EQ(runner, html, expected_html, msg);
free(html);
}
int main() {
int retval;
test_batch_runner *runner = test_batch_runner_new();
version(runner);
constructor(runner);
accessors(runner);
node_check(runner);
iterator(runner);
iterator_delete(runner);
create_tree(runner);
custom_nodes(runner);
hierarchy(runner);
parser(runner);
render_html(runner);
utf8(runner);
line_endings(runner);
numeric_entities(runner);
test_cplusplus(runner);
test_safe(runner);
test_print_summary(runner);
retval = test_ok(runner) ? 0 : 1;
free(runner);
return retval;
}