diff --git a/doc/sphinx/Pacemaker_Development/helpers.rst b/doc/sphinx/Pacemaker_Development/helpers.rst
index 727a53a021..d7e2c22022 100644
--- a/doc/sphinx/Pacemaker_Development/helpers.rst
+++ b/doc/sphinx/Pacemaker_Development/helpers.rst
@@ -1,335 +1,398 @@
C Development Helpers
---------------------
.. index::
single: unit testing
+Refactoring
+###########
+
+Pacemaker uses an optional tool called `coccinelle `_
+to do automatic refactoring. coccinelle is a very complicated tool that can be
+difficult to understand, and the existing documentation makes it pretty tough
+to get started. Much of the documentation is either aimed at kernel developers
+or takes the form of grammars.
+
+However, it can apply very complex transformations across an entire source tree.
+This is useful for tasks like code refactoring, changing APIs (number or type of
+arguments, etc.), catching functions that should not be called, and changing
+existing patterns.
+
+coccinelle is driven by input scripts called `semantic patches `_
+written in its own language. These scripts bear a passing resemblance to source
+code patches and tell coccinelle how to match and modify a piece of source
+code. They are stored in ``devel/coccinelle`` and each script either contains
+a single source transformation or several related transformations. In general,
+we try to keep these as simple as possible.
+
+In Pacemaker development, we use a couple targets in ``devel/Makefile.am`` to
+control coccinelle. The ``cocci`` target tries to apply each script to every
+Pacemaker source file, printing out any changes it would make to the console.
+The ``cocci-inplace`` target does the same but also makes those changes to the
+source files. A variety of warnings might also be printed. If you aren't working
+on a new script, these can usually be ignored.
+
+If you are working on a new coccinelle script, it can be useful (and faster) to
+skip everything else and only run the new script. The ``COCCI_FILES`` variable
+can be used for this:
+
+.. code-block:: none
+
+ $ make -C devel COCCI_FILES=coccinelle/new-file.cocci cocci
+
+This variable is also used for preventing some coccinelle scripts in the Pacemaker
+source tree from running. Some scripts are disabled because they are not currently
+fully working or because they are there as templates. When adding a new script,
+remember to add it to this variable if it should always be run.
+
+One complication when writing coccinelle scripts is that certain Pacemaker source
+files may not use private functions (those whose name starts with ``pcmk__``).
+Handling this requires work in both the Makefile and in the coccinelle scripts.
+
+The Makefile deals with this by maintaining two lists of source files: those that
+may use private functions and those that may not. For those that may, a special
+argument (``-D internal``) is added to the coccinelle command line. This creates
+a virtual dependency named ``internal``.
+
+In the coccinelle scripts, those transformations that modify source code to use
+a private function also have a dependency on ``internal``. If that dependency
+was given on the command line, the transformation will be run. Otherwise, it will
+be skipped.
+
+This means that not all instances of an older style of code will be changed after
+running a given transformation. Some developer intervention is still necessary
+to know whether a source code block should have been changed or not.
+
+Probably the easiest way to learn how to use coccinelle is by following other
+people's scripts. In addition to the ones in the Pacemaker source directory,
+there's several others on the `coccinelle website `_.
+
Unit Testing
############
Where possible, changes to the C side of Pacemaker should be accompanied by unit
tests. Much of Pacemaker cannot effectively be unit tested (and there are other
testing systems used for those parts), but the ``lib`` subdirectory is pretty easy
to write tests for.
Pacemaker uses the `GLib unit testing framework
`_ which looks a lot
like other unit testing frameworks for C and should be fairly familiar.
Organization
____________
Pay close attention to the organization and naming of test cases to ensure the
unit tests continue to work as they should.
Tests are spread throughout the source tree, alongside the source code they test.
For instance, all the tests for the source code in ``lib/common/`` are in the
``lib/common/tests`` directory. If there is no ``tests`` subdirectory, there are no
tests for that library yet.
Under that directory, there is a ``Makefile.am`` and additional subdirectories. Each
subdirectory contains the tests for a single library source file. For instance,
all the tests for ``lib/common/strings.c`` are in the ``lib/common/tests/strings``
directory. Note that the test subdirectory does not have a ``.c`` suffix. If there
is no test subdirectory, there are no tests for that file yet.
Finally, under that directory, there is a ``Makefile.am`` and then various source
files. Each of these source files tests the single function that it is named
after. For instance, ``lib/common/tests/strings/pcmk__btoa_test.c`` tests the
``pcmk__btoa_test()`` function in ``lib/common/strings.c``. If there is no test
source file, there are no tests for that function yet.
The ``_test`` suffix on the test source file is important. All tests have this
suffix, which means all the compiled test cases will also end with this suffix.
That lets us ignore all the compiled tests with a single line in ``.gitignore``:
.. code-block:: none
/lib/*/tests/*/*_test
Adding a test
_____________
Testing a new function in an already testable source file
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Follow these steps if you want to test a function in a source file where there
are already other tested functions. For the purposes of this example, we will
add a test for the ``pcmk__scan_port()`` function in ``lib/common/strings.c``. As
you can see, there are already tests for other functions in this same file in
the ``lib/common/tests/strings`` directory.
* cd into ``lib/common/tests/strings``
* Add the new file to the the ``test_programs`` variable in ``Makefile.am``, making
it something like this:
.. code-block:: none
test_programs = pcmk__add_word_test \
pcmk__btoa_test \
pcmk__scan_port_test
* Create a new ``pcmk__scan_port_test.c`` file, copying the copyright and include
boilerplate from another file in the same directory.
* Continue with the steps in `Writing the test`_.
Testing a function in a source file without tests
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Follow these steps if you want to test a function in a source file where there
are not already other tested functions, but there are tests for other files in
the same library. For the purposes of this example, we will add a test for the
``pcmk_acl_required()`` function in ``lib/common/acls.c``. At the time of this
documentation being written, no tests existed for that source file, so there
is no ``lib/common/tests/acls`` directory.
* Add to ``AC_CONFIG_FILES`` in the top-level ``configure.ac`` file so the build
process knows to use directory we're about to create. That variable would
now look something like:
.. code-block:: none
dnl Other files we output
AC_CONFIG_FILES(Makefile \
...
lib/common/tests/Makefile \
lib/common/tests/acls/Makefile \
lib/common/tests/agents/Makefile \
...
)
* cd into ``lib/common/tests``
* Add to the ``SUBDIRS`` variable in ``Makefile.am``, making it something like:
.. code-block:: none
SUBDIRS = agents acls cmdline flags operations strings utils xpath results
* Create a new ``acls`` directory, copying the ``Makefile.am`` from some other
directory.
* cd into ``acls``
* Get rid of any existing values for ``test_programs``, ``dist_test_data``, and
``test_data`` in ``Makefile.am``. Set ``test_programs`` to ``pcmk_acl_required_test``,
like so:
.. code-block:: none
test_programs = pcmk_acl_required_test
* Follow the steps in `Testing a new function in an already testable source file`_
to create the new ``pcmk_acl_required_test.c`` file.
Testing a function in a library without tests
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Adding a test case for a function in a library that doesn't have any test cases
to begin with is only slightly more complicated. In general, the steps are the
same as for the previous section, except with an additional layer of directory
creation.
For the purposes of this example, we will add a test case for the
``lrmd_send_resource_alert()`` function in ``lib/lrmd/lrmd_alerts.c``. Note that this
may not be a very good function or even library to write actual unit tests for.
* Add to ``AC_CONFIG_FILES`` in the top-level ``configure.ac`` file so the build
process knows to use directory we're about to create. That variable would
now look something like:
.. code-block:: none
dnl Other files we output
AC_CONFIG_FILES(Makefile \
...
lib/lrmd/Makefile \
lib/lrmd/tests/Makefile \
lib/services/Makefile \
...
)
* cd into ``lib/lrmd``
* Create a ``SUBDIRS`` variable in ``Makefile.am`` if it doesn't already exist.
Most libraries should not have this variable already.
.. code-block:: none
SUBDIRS = tests
* Create a new ``tests`` directory and add a ``Makefile.am`` with the following
contents:
.. code-block:: none
SUBDIRS = lrmd_alerts
* Follow the steps in `Testing a function in a library without tests` to create
the rest of the new directory structure.
* Follow the steps in `Testing a new function in an already testable source file`_
to create the new ``lrmd_send_resource_alert_test.c`` file.
Adding to an existing test case
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
If all you need to do is add additional test cases to an existing file, none of
the above work is necessary. All you need to do is find the test source file
with the name matching your function and add to it and then follow the
instructions in `Writing the test`_.
Writing the test
________________
A test case file contains a fair amount of boilerplate. For this reason, it's
usually easiest to just copy an existing file and adapt it to your needs. However,
here's the basic structure:
.. code-block:: c
/*
* Copyright 2020-2021 the Pacemaker project contributors
*
* The version control history for this file may have further details.
*
* This source code is licensed under the GNU Lesser General Public License
* version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY.
*/
#include
#include
/* Put your test-specific includes here */
/* Put your test functions here */
int
main(int argc, char **argv)
{
g_test_init(&argc, &argv, NULL);
/* Register your test functions here */
return g_test_run();
}
Each test-specific function should test one aspect of the library function,
though it can include many assertions if there are many ways of testing that
one aspect. For instance, there might be multiple ways of testing regular
expression matching:
.. code-block:: c
static void
regex(void) {
const char *s1 = "abcd";
const char *s2 = "ABCD";
g_assert_cmpint(pcmk__strcmp(NULL, "a..d", pcmk__str_regex), ==, 1);
g_assert_cmpint(pcmk__strcmp(s1, NULL, pcmk__str_regex), ==, 1);
g_assert_cmpint(pcmk__strcmp(s1, "a..d", pcmk__str_regex), ==, 0);
}
Each test-specific function must also be registered or it will not be called.
This is done with ``g_test_add_func()``. The first argument is a namespace for
tests. It's best to look at what is being used elsewhere and try to fit your
new functions in.
.. code-block:: c
g_test_add_func("/common/strings/strcmp/same_pointer", same_pointer);
g_test_add_func("/common/strings/strcmp/one_is_null", one_is_null);
g_test_add_func("/common/strings/strcmp/case_matters", case_matters);
g_test_add_func("/common/strings/strcmp/case_insensitive", case_insensitive);
g_test_add_func("/common/strings/strcmp/regex", regex);
Finally, be careful when calling the ``g_assert_`` functions. They are adding
new functions all the time, but we can't use functions newer than the minimum
version of glib supported by Pacemaker. Luckily, they do a good job of marking
when each function was introduced. The minimum glib version can be found in
``configure.ac``:
.. code-block:: none
$ grep -A 1 "Require minimum glib" configure.ac
# Require minimum glib version
PKG_CHECK_MODULES([GLIB], [glib-2.0 >= 2.42.0],
Running
_______
If you had to create any new files or directories, you will first need to run
``./configure`` from the top level of the source directory. This will regenerate
the Makefiles throughout the tree. If you skip this step, your changes will be
skipped and you'll be left wondering why the output doesn't match what you
expected.
To run the tests, simply run ``make check`` after previously building the source
with ``make``. The test cases in each directory will be built and then run.
This should not take long. If all the tests succeed, you will be back at the
prompt. Scrolling back through the history, you should see lines like the
following:
.. code-block:: none
PASS: pcmk__strcmp_test 1 /common/strings/strcmp/same_pointer
PASS: pcmk__strcmp_test 2 /common/strings/strcmp/one_is_null
PASS: pcmk__strcmp_test 3 /common/strings/strcmp/case_matters
PASS: pcmk__strcmp_test 4 /common/strings/strcmp/case_insensitive
PASS: pcmk__strcmp_test 5 /common/strings/strcmp/regex
============================================================================
Testsuite summary for pacemaker 2.1.0
============================================================================
# TOTAL: 33
# PASS: 33
# SKIP: 0
# XFAIL: 0
# FAIL: 0
# XPASS: 0
# ERROR: 0
============================================================================
make[7]: Leaving directory '/home/clumens/src/pacemaker/lib/common/tests/strings'
The testing process will quit on the first failed test, and you will see lines
like these:
.. code-block:: none
ERROR: pcmk__scan_double_test - Bail out! ERROR:pcmk__scan_double_test.c:77:trailing_chars: assertion failed (fabs(result - 3.0) < DBL_EPSILON): (1 < 2.22044605e-16)
PASS: pcmk__str_any_of_test 1 /common/strings/any_of/empty_list
PASS: pcmk__str_any_of_test 2 /common/strings/any_of/empty_string
PASS: pcmk__str_any_of_test 3 /common/strings/any_of/in
PASS: pcmk__str_any_of_test 4 /common/strings/any_of/not_in
PASS: pcmk__strcmp_test 1 /common/strings/strcmp/same_pointer
PASS: pcmk__strcmp_test 2 /common/strings/strcmp/one_is_null
PASS: pcmk__strcmp_test 3 /common/strings/strcmp/case_matters
PASS: pcmk__strcmp_test 4 /common/strings/strcmp/case_insensitive
PASS: pcmk__strcmp_test 5 /common/strings/strcmp/regex
============================================================================
Testsuite summary for pacemaker 2.1.0
============================================================================
# TOTAL: 30
# PASS: 29
# SKIP: 0
# XFAIL: 0
# FAIL: 0
# XPASS: 0
# ERROR: 1
============================================================================
See lib/common/tests/strings/test-suite.log
Please report to users@clusterlabs.org
============================================================================
make[7]: *** [Makefile:1218: test-suite.log] Error 1
make[7]: Leaving directory '/home/clumens/src/pacemaker/lib/common/tests/strings'
The ``ERROR`` line indicates which test failed, the line the failure occurred on,
and the test result that caused a failure. For this test case, the result is a
little hard to understand because floating point numbers are involved. It is
basically saying that it expected ``result`` to be ``3.0``, but this was not the case.
At this point, you need to determine whether your test case is incorrect or
whether the code being tested is incorrect. Fix whichever is wrong and continue.
Test case failures are usually much easier to understand, for instance:
.. code-block:: none
ERROR: pcmk__strcmp_test - Bail out! ERROR:pcmk__strcmp_test.c:64:regex: assertion failed (pcmk__strcmp(NULL, "a..d", pcmk__str_regex) == 2): (1 == 2)
diff --git a/lib/common/xml.c b/lib/common/xml.c
index 0ab492da9f..9b2d3389ce 100644
--- a/lib/common/xml.c
+++ b/lib/common/xml.c
@@ -1,2988 +1,2988 @@
/*
* Copyright 2004-2021 the Pacemaker project contributors
*
* The version control history for this file may have further details.
*
* This source code is licensed under the GNU Lesser General Public License
* version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY.
*/
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include /* xmlAllocOutputBuffer */
#include
#include
#include
#include
#include // PCMK__XML_LOG_BASE, etc.
#include "crmcommon_private.h"
// Define this as 1 in development to get insanely verbose trace messages
#ifndef XML_PARSER_DEBUG
#define XML_PARSER_DEBUG 0
#endif
/* @TODO XML_PARSE_RECOVER allows some XML errors to be silently worked around
* by libxml2, which is potentially ambiguous and dangerous. We should drop it
* when we can break backward compatibility with configurations that might be
* relying on it (i.e. pacemaker 3.0.0).
*
* It might be a good idea to have a transitional period where we first try
* parsing without XML_PARSE_RECOVER, and if that fails, try parsing again with
* it, logging a warning if it succeeds.
*/
#define PCMK__XML_PARSE_OPTS (XML_PARSE_NOBLANKS | XML_PARSE_RECOVER)
#define CHUNK_SIZE 1024
bool
pcmk__tracking_xml_changes(xmlNode *xml, bool lazy)
{
if(xml == NULL || xml->doc == NULL || xml->doc->_private == NULL) {
return FALSE;
} else if (!pcmk_is_set(((xml_private_t *)xml->doc->_private)->flags,
xpf_tracking)) {
return FALSE;
} else if (lazy && !pcmk_is_set(((xml_private_t *)xml->doc->_private)->flags,
xpf_lazy)) {
return FALSE;
}
return TRUE;
}
#define buffer_print(buffer, max, offset, fmt, args...) do { \
int rc = (max); \
if(buffer) { \
rc = snprintf((buffer) + (offset), (max) - (offset), fmt, ##args); \
} \
if(buffer && rc < 0) { \
crm_perror(LOG_ERR, "snprintf failed at offset %d", offset); \
(buffer)[(offset)] = 0; \
break; \
} else if(rc >= ((max) - (offset))) { \
char *tmp = NULL; \
(max) = QB_MAX(CHUNK_SIZE, (max) * 2); \
tmp = pcmk__realloc((buffer), (max)); \
CRM_ASSERT(tmp); \
(buffer) = tmp; \
} else { \
offset += rc; \
break; \
} \
} while(1);
static void
insert_prefix(int options, char **buffer, int *offset, int *max, int depth)
{
if (options & xml_log_option_formatted) {
size_t spaces = 2 * depth;
if ((*buffer) == NULL || spaces >= ((*max) - (*offset))) {
(*max) = QB_MAX(CHUNK_SIZE, (*max) * 2);
(*buffer) = pcmk__realloc((*buffer), (*max));
}
memset((*buffer) + (*offset), ' ', spaces);
(*offset) += spaces;
}
}
static void
set_parent_flag(xmlNode *xml, long flag)
{
for(; xml; xml = xml->parent) {
xml_private_t *p = xml->_private;
if(p == NULL) {
/* During calls to xmlDocCopyNode(), _private will be unset for parent nodes */
} else {
pcmk__set_xml_flags(p, flag);
}
}
}
void
pcmk__set_xml_doc_flag(xmlNode *xml, enum xml_private_flags flag)
{
if(xml && xml->doc && xml->doc->_private){
/* During calls to xmlDocCopyNode(), xml->doc may be unset */
xml_private_t *p = xml->doc->_private;
pcmk__set_xml_flags(p, flag);
}
}
// Mark document, element, and all element's parents as changed
static void
mark_xml_node_dirty(xmlNode *xml)
{
pcmk__set_xml_doc_flag(xml, xpf_dirty);
set_parent_flag(xml, xpf_dirty);
}
// Clear flags on XML node and its children
static void
reset_xml_node_flags(xmlNode *xml)
{
xmlNode *cIter = NULL;
xml_private_t *p = xml->_private;
if (p) {
p->flags = 0;
}
for (cIter = pcmk__xml_first_child(xml); cIter != NULL;
cIter = pcmk__xml_next(cIter)) {
reset_xml_node_flags(cIter);
}
}
// Set xpf_created flag on XML node and any children
void
pcmk__mark_xml_created(xmlNode *xml)
{
xmlNode *cIter = NULL;
xml_private_t *p = xml->_private;
if (p && pcmk__tracking_xml_changes(xml, FALSE)) {
if (!pcmk_is_set(p->flags, xpf_created)) {
pcmk__set_xml_flags(p, xpf_created);
mark_xml_node_dirty(xml);
}
for (cIter = pcmk__xml_first_child(xml); cIter != NULL;
cIter = pcmk__xml_next(cIter)) {
pcmk__mark_xml_created(cIter);
}
}
}
void
pcmk__mark_xml_attr_dirty(xmlAttr *a)
{
xmlNode *parent = a->parent;
xml_private_t *p = NULL;
p = a->_private;
pcmk__set_xml_flags(p, xpf_dirty|xpf_modified);
pcmk__clear_xml_flags(p, xpf_deleted);
mark_xml_node_dirty(parent);
}
#define XML_PRIVATE_MAGIC (long) 0x81726354
// Free an XML object previously marked as deleted
static void
free_deleted_object(void *data)
{
if(data) {
pcmk__deleted_xml_t *deleted_obj = data;
free(deleted_obj->path);
free(deleted_obj);
}
}
// Free and NULL user, ACLs, and deleted objects in an XML node's private data
static void
reset_xml_private_data(xml_private_t *p)
{
if(p) {
CRM_ASSERT(p->check == XML_PRIVATE_MAGIC);
free(p->user);
p->user = NULL;
if(p->acls) {
pcmk__free_acls(p->acls);
p->acls = NULL;
}
if(p->deleted_objs) {
g_list_free_full(p->deleted_objs, free_deleted_object);
p->deleted_objs = NULL;
}
}
}
// Free all private data associated with an XML node
static void
free_private_data(xmlNode *node)
{
/* need to explicitly avoid our custom _private field cleanup when
called from internal XSLT cleanup (xsltApplyStylesheetInternal
-> xsltFreeTransformContext -> xsltFreeRVTs -> xmlFreeDoc)
onto result tree fragments, represented as standalone documents
with otherwise infeasible space-prefixed name (xsltInternals.h:
XSLT_MARK_RES_TREE_FRAG) and carrying it's own load at _private
field -- later assert on the XML_PRIVATE_MAGIC would explode */
if (node->type != XML_DOCUMENT_NODE || node->name == NULL
|| node->name[0] != ' ') {
reset_xml_private_data(node->_private);
free(node->_private);
}
}
// Allocate and initialize private data for an XML node
static void
new_private_data(xmlNode *node)
{
xml_private_t *p = NULL;
switch(node->type) {
case XML_ELEMENT_NODE:
case XML_DOCUMENT_NODE:
case XML_ATTRIBUTE_NODE:
case XML_COMMENT_NODE:
p = calloc(1, sizeof(xml_private_t));
p->check = XML_PRIVATE_MAGIC;
/* Flags will be reset if necessary when tracking is enabled */
pcmk__set_xml_flags(p, xpf_dirty|xpf_created);
node->_private = p;
break;
case XML_TEXT_NODE:
case XML_DTD_NODE:
case XML_CDATA_SECTION_NODE:
break;
default:
/* Ignore */
crm_trace("Ignoring %p %d", node, node->type);
CRM_LOG_ASSERT(node->type == XML_ELEMENT_NODE);
break;
}
if(p && pcmk__tracking_xml_changes(node, FALSE)) {
/* XML_ELEMENT_NODE doesn't get picked up here, node->doc is
* not hooked up at the point we are called
*/
mark_xml_node_dirty(node);
}
}
void
xml_track_changes(xmlNode * xml, const char *user, xmlNode *acl_source, bool enforce_acls)
{
xml_accept_changes(xml);
crm_trace("Tracking changes%s to %p", enforce_acls?" with ACLs":"", xml);
pcmk__set_xml_doc_flag(xml, xpf_tracking);
if(enforce_acls) {
if(acl_source == NULL) {
acl_source = xml;
}
pcmk__set_xml_doc_flag(xml, xpf_acl_enabled);
pcmk__unpack_acl(acl_source, xml, user);
pcmk__apply_acl(xml);
}
}
bool xml_tracking_changes(xmlNode * xml)
{
return (xml != NULL) && (xml->doc != NULL) && (xml->doc->_private != NULL)
&& pcmk_is_set(((xml_private_t *)(xml->doc->_private))->flags,
xpf_tracking);
}
bool xml_document_dirty(xmlNode *xml)
{
return (xml != NULL) && (xml->doc != NULL) && (xml->doc->_private != NULL)
&& pcmk_is_set(((xml_private_t *)(xml->doc->_private))->flags,
xpf_dirty);
}
/*!
* \internal
* \brief Return ordinal position of an XML node among its siblings
*
* \param[in] xml XML node to check
* \param[in] ignore_if_set Don't count siblings with this flag set
*
* \return Ordinal position of \p xml (starting with 0)
*/
int
pcmk__xml_position(xmlNode *xml, enum xml_private_flags ignore_if_set)
{
int position = 0;
xmlNode *cIter = NULL;
for(cIter = xml; cIter->prev; cIter = cIter->prev) {
xml_private_t *p = ((xmlNode*)cIter->prev)->_private;
if (!pcmk_is_set(p->flags, ignore_if_set)) {
position++;
}
}
return position;
}
// This also clears attribute's flags if not marked as deleted
static bool
marked_as_deleted(xmlAttrPtr a, void *user_data)
{
xml_private_t *p = a->_private;
if (pcmk_is_set(p->flags, xpf_deleted)) {
return true;
}
p->flags = xpf_none;
return false;
}
// Remove all attributes marked as deleted from an XML node
static void
accept_attr_deletions(xmlNode *xml)
{
// Clear XML node's flags
((xml_private_t *) xml->_private)->flags = xpf_none;
// Remove this XML node's attributes that were marked as deleted
pcmk__xe_remove_matching_attrs(xml, marked_as_deleted, NULL);
// Recursively do the same for this XML node's children
for (xmlNodePtr cIter = pcmk__xml_first_child(xml); cIter != NULL;
cIter = pcmk__xml_next(cIter)) {
accept_attr_deletions(cIter);
}
}
/*!
* \internal
* \brief Find first child XML node matching another given XML node
*
* \param[in] haystack XML whose children should be checked
* \param[in] needle XML to match (comment content or element name and ID)
* \param[in] exact If true and needle is a comment, position must match
*/
xmlNode *
pcmk__xml_match(xmlNode *haystack, xmlNode *needle, bool exact)
{
CRM_CHECK(needle != NULL, return NULL);
if (needle->type == XML_COMMENT_NODE) {
return pcmk__xc_match(haystack, needle, exact);
} else {
const char *id = ID(needle);
const char *attr = (id == NULL)? NULL : XML_ATTR_ID;
return pcmk__xe_match(haystack, crm_element_name(needle), attr, id);
}
}
void
xml_log_changes(uint8_t log_level, const char *function, xmlNode * xml)
{
GList *gIter = NULL;
xml_private_t *doc = NULL;
if (log_level == LOG_NEVER) {
return;
}
CRM_ASSERT(xml);
CRM_ASSERT(xml->doc);
doc = xml->doc->_private;
if (!pcmk_is_set(doc->flags, xpf_dirty)) {
return;
}
for(gIter = doc->deleted_objs; gIter; gIter = gIter->next) {
pcmk__deleted_xml_t *deleted_obj = gIter->data;
if (deleted_obj->position >= 0) {
do_crm_log_alias(log_level, __FILE__, function, __LINE__, "-- %s (%d)",
deleted_obj->path, deleted_obj->position);
} else {
do_crm_log_alias(log_level, __FILE__, function, __LINE__, "-- %s",
deleted_obj->path);
}
}
log_data_element(log_level, __FILE__, function, __LINE__, "+ ", xml, 0,
xml_log_option_formatted|xml_log_option_dirty_add);
}
void
xml_accept_changes(xmlNode * xml)
{
xmlNode *top = NULL;
xml_private_t *doc = NULL;
if(xml == NULL) {
return;
}
crm_trace("Accepting changes to %p", xml);
doc = xml->doc->_private;
top = xmlDocGetRootElement(xml->doc);
reset_xml_private_data(xml->doc->_private);
if (!pcmk_is_set(doc->flags, xpf_dirty)) {
doc->flags = xpf_none;
return;
}
doc->flags = xpf_none;
accept_attr_deletions(top);
}
xmlNode *
find_xml_node(xmlNode * root, const char *search_path, gboolean must_find)
{
xmlNode *a_child = NULL;
const char *name = "NULL";
if (root != NULL) {
name = crm_element_name(root);
}
if (search_path == NULL) {
crm_warn("Will never find ");
return NULL;
}
for (a_child = pcmk__xml_first_child(root); a_child != NULL;
a_child = pcmk__xml_next(a_child)) {
if (strcmp((const char *)a_child->name, search_path) == 0) {
/* crm_trace("returning node (%s).", crm_element_name(a_child)); */
return a_child;
}
}
if (must_find) {
crm_warn("Could not find %s in %s.", search_path, name);
} else if (root != NULL) {
crm_trace("Could not find %s in %s.", search_path, name);
} else {
crm_trace("Could not find %s in .", search_path);
}
return NULL;
}
#define attr_matches(c, n, v) pcmk__str_eq(crm_element_value((c), (n)), \
(v), pcmk__str_none)
/*!
* \internal
* \brief Find first XML child element matching given criteria
*
* \param[in] parent XML element to search
* \param[in] node_name If not NULL, only match children of this type
* \param[in] attr_n If not NULL, only match children with an attribute
* of this name and a value of \p attr_v
* \param[in] attr_v If \p attr_n and this are not NULL, only match children
* with an attribute named \p attr_n and this value
*
* \return Matching XML child element, or NULL if none found
*/
xmlNode *
pcmk__xe_match(xmlNode *parent, const char *node_name,
const char *attr_n, const char *attr_v)
{
/* ensure attr_v specified when attr_n is */
CRM_CHECK(attr_n == NULL || attr_v != NULL, return NULL);
for (xmlNode *child = pcmk__xml_first_child(parent); child != NULL;
child = pcmk__xml_next(child)) {
if (pcmk__str_eq(node_name, (const char *) (child->name),
pcmk__str_null_matches)
&& ((attr_n == NULL) || attr_matches(child, attr_n, attr_v))) {
return child;
}
}
crm_trace("XML child node <%s%s%s%s%s> not found in %s",
(node_name? node_name : "(any)"),
(attr_n? " " : ""),
(attr_n? attr_n : ""),
(attr_n? "=" : ""),
(attr_n? attr_v : ""),
crm_element_name(parent));
return NULL;
}
void
copy_in_properties(xmlNode * target, xmlNode * src)
{
if (src == NULL) {
crm_warn("No node to copy properties from");
} else if (target == NULL) {
crm_err("No node to copy properties into");
} else {
for (xmlAttrPtr a = pcmk__xe_first_attr(src); a != NULL; a = a->next) {
const char *p_name = (const char *) a->name;
const char *p_value = pcmk__xml_attr_value(a);
expand_plus_plus(target, p_name, p_value);
}
}
return;
}
void
fix_plus_plus_recursive(xmlNode * target)
{
/* TODO: Remove recursion and use xpath searches for value++ */
xmlNode *child = NULL;
for (xmlAttrPtr a = pcmk__xe_first_attr(target); a != NULL; a = a->next) {
const char *p_name = (const char *) a->name;
const char *p_value = pcmk__xml_attr_value(a);
expand_plus_plus(target, p_name, p_value);
}
for (child = pcmk__xml_first_child(target); child != NULL;
child = pcmk__xml_next(child)) {
fix_plus_plus_recursive(child);
}
}
void
expand_plus_plus(xmlNode * target, const char *name, const char *value)
{
int offset = 1;
int name_len = 0;
int int_value = 0;
int value_len = 0;
const char *old_value = NULL;
if (value == NULL || name == NULL) {
return;
}
old_value = crm_element_value(target, name);
if (old_value == NULL) {
/* if no previous value, set unexpanded */
goto set_unexpanded;
} else if (strstr(value, name) != value) {
goto set_unexpanded;
}
name_len = strlen(name);
value_len = strlen(value);
if (value_len < (name_len + 2)
|| value[name_len] != '+' || (value[name_len + 1] != '+' && value[name_len + 1] != '=')) {
goto set_unexpanded;
}
/* if we are expanding ourselves,
* then no previous value was set and leave int_value as 0
*/
if (old_value != value) {
int_value = char2score(old_value);
}
if (value[name_len + 1] != '+') {
const char *offset_s = value + (name_len + 2);
offset = char2score(offset_s);
}
int_value += offset;
if (int_value > INFINITY) {
int_value = (int)INFINITY;
}
crm_xml_add_int(target, name, int_value);
return;
set_unexpanded:
if (old_value == value) {
/* the old value is already set, nothing to do */
return;
}
crm_xml_add(target, name, value);
return;
}
/*!
* \internal
* \brief Remove an XML element's attributes that match some criteria
*
* \param[in,out] element XML element to modify
* \param[in] match If not NULL, only remove attributes for which
* this function returns true
* \param[in] user_data Data to pass to \p match
*/
void
pcmk__xe_remove_matching_attrs(xmlNode *element,
bool (*match)(xmlAttrPtr, void *),
void *user_data)
{
xmlAttrPtr next = NULL;
for (xmlAttrPtr a = pcmk__xe_first_attr(element); a != NULL; a = next) {
next = a->next; // Grab now because attribute might get removed
if ((match == NULL) || match(a, user_data)) {
if (!pcmk__check_acl(element, NULL, xpf_acl_write)) {
crm_trace("ACLs prevent removal of attributes (%s and "
"possibly others) from %s element",
(const char *) a->name, (const char *) element->name);
return; // ACLs apply to element, not particular attributes
}
if (pcmk__tracking_xml_changes(element, false)) {
// Leave (marked for removal) until after diff is calculated
set_parent_flag(element, xpf_dirty);
pcmk__set_xml_flags((xml_private_t *) a->_private, xpf_deleted);
} else {
xmlRemoveProp(a);
}
}
}
}
xmlDoc *
getDocPtr(xmlNode * node)
{
xmlDoc *doc = NULL;
CRM_CHECK(node != NULL, return NULL);
doc = node->doc;
if (doc == NULL) {
doc = xmlNewDoc((pcmkXmlStr) "1.0");
xmlDocSetRootElement(doc, node);
xmlSetTreeDoc(node, doc);
}
return doc;
}
xmlNode *
add_node_copy(xmlNode * parent, xmlNode * src_node)
{
xmlNode *child = NULL;
xmlDoc *doc = getDocPtr(parent);
CRM_CHECK(src_node != NULL, return NULL);
child = xmlDocCopyNode(src_node, doc, 1);
xmlAddChild(parent, child);
pcmk__mark_xml_created(child);
return child;
}
int
add_node_nocopy(xmlNode * parent, const char *name, xmlNode * child)
{
add_node_copy(parent, child);
free_xml(child);
return 1;
}
xmlNode *
create_xml_node(xmlNode * parent, const char *name)
{
xmlDoc *doc = NULL;
xmlNode *node = NULL;
if (pcmk__str_empty(name)) {
CRM_CHECK(name != NULL && name[0] == 0, return NULL);
return NULL;
}
if (parent == NULL) {
doc = xmlNewDoc((pcmkXmlStr) "1.0");
node = xmlNewDocRawNode(doc, NULL, (pcmkXmlStr) name, NULL);
xmlDocSetRootElement(doc, node);
} else {
doc = getDocPtr(parent);
node = xmlNewDocRawNode(doc, NULL, (pcmkXmlStr) name, NULL);
xmlAddChild(parent, node);
}
pcmk__mark_xml_created(node);
return node;
}
xmlNode *
pcmk_create_xml_text_node(xmlNode * parent, const char *name, const char *content)
{
xmlNode *node = create_xml_node(parent, name);
if (node != NULL) {
xmlNodeSetContent(node, (pcmkXmlStr) content);
}
return node;
}
xmlNode *
pcmk_create_html_node(xmlNode * parent, const char *element_name, const char *id,
const char *class_name, const char *text)
{
xmlNode *node = pcmk_create_xml_text_node(parent, element_name, text);
if (class_name != NULL) {
crm_xml_add(node, "class", class_name);
}
if (id != NULL) {
crm_xml_add(node, "id", id);
}
return node;
}
/*!
* Free an XML element and all of its children, removing it from its parent
*
* \param[in] xml XML element to free
*/
void
pcmk_free_xml_subtree(xmlNode *xml)
{
xmlUnlinkNode(xml); // Detaches from parent and siblings
xmlFreeNode(xml); // Frees
}
static void
free_xml_with_position(xmlNode * child, int position)
{
if (child != NULL) {
xmlNode *top = NULL;
xmlDoc *doc = child->doc;
xml_private_t *p = child->_private;
if (doc != NULL) {
top = xmlDocGetRootElement(doc);
}
if (doc != NULL && top == child) {
/* Free everything */
xmlFreeDoc(doc);
} else if (pcmk__check_acl(child, NULL, xpf_acl_write) == FALSE) {
int offset = 0;
char buffer[PCMK__BUFFER_SIZE];
pcmk__element_xpath(NULL, child, buffer, offset, sizeof(buffer));
crm_trace("Cannot remove %s %x", buffer, p->flags);
return;
} else {
if (doc && pcmk__tracking_xml_changes(child, FALSE)
&& !pcmk_is_set(p->flags, xpf_created)) {
int offset = 0;
char buffer[PCMK__BUFFER_SIZE];
if (pcmk__element_xpath(NULL, child, buffer, offset,
sizeof(buffer)) > 0) {
pcmk__deleted_xml_t *deleted_obj = NULL;
crm_trace("Deleting %s %p from %p", buffer, child, doc);
deleted_obj = calloc(1, sizeof(pcmk__deleted_xml_t));
deleted_obj->path = strdup(buffer);
deleted_obj->position = -1;
/* Record the "position" only for XML comments for now */
if (child->type == XML_COMMENT_NODE) {
if (position >= 0) {
deleted_obj->position = position;
} else {
deleted_obj->position = pcmk__xml_position(child, xpf_skip);
}
}
p = doc->_private;
p->deleted_objs = g_list_append(p->deleted_objs, deleted_obj);
pcmk__set_xml_doc_flag(child, xpf_dirty);
}
}
pcmk_free_xml_subtree(child);
}
}
}
void
free_xml(xmlNode * child)
{
free_xml_with_position(child, -1);
}
xmlNode *
copy_xml(xmlNode * src)
{
xmlDoc *doc = xmlNewDoc((pcmkXmlStr) "1.0");
xmlNode *copy = xmlDocCopyNode(src, doc, 1);
xmlDocSetRootElement(doc, copy);
xmlSetTreeDoc(copy, doc);
return copy;
}
static void
log_xmllib_err(void *ctx, const char *fmt, ...)
G_GNUC_PRINTF(2, 3);
// Log an XML library error
static void
log_xmllib_err(void *ctx, const char *fmt, ...)
{
va_list ap;
static struct qb_log_callsite *xml_error_cs = NULL;
if (xml_error_cs == NULL) {
xml_error_cs = qb_log_callsite_get(
__func__, __FILE__, "xml library error", LOG_TRACE, __LINE__, crm_trace_nonlog);
}
va_start(ap, fmt);
if (xml_error_cs && xml_error_cs->targets) {
PCMK__XML_LOG_BASE(LOG_ERR, TRUE,
crm_abort(__FILE__, __PRETTY_FUNCTION__, __LINE__, "xml library error",
TRUE, TRUE),
"XML Error: ", fmt, ap);
} else {
PCMK__XML_LOG_BASE(LOG_ERR, TRUE, 0, "XML Error: ", fmt, ap);
}
va_end(ap);
}
xmlNode *
string2xml(const char *input)
{
xmlNode *xml = NULL;
xmlDocPtr output = NULL;
xmlParserCtxtPtr ctxt = NULL;
xmlErrorPtr last_error = NULL;
if (input == NULL) {
crm_err("Can't parse NULL input");
return NULL;
}
/* create a parser context */
ctxt = xmlNewParserCtxt();
CRM_CHECK(ctxt != NULL, return NULL);
xmlCtxtResetLastError(ctxt);
xmlSetGenericErrorFunc(ctxt, log_xmllib_err);
output = xmlCtxtReadDoc(ctxt, (pcmkXmlStr) input, NULL, NULL,
PCMK__XML_PARSE_OPTS);
if (output) {
xml = xmlDocGetRootElement(output);
}
last_error = xmlCtxtGetLastError(ctxt);
if (last_error && last_error->code != XML_ERR_OK) {
/* crm_abort(__FILE__,__func__,__LINE__, "last_error->code != XML_ERR_OK", TRUE, TRUE); */
/*
* http://xmlsoft.org/html/libxml-xmlerror.html#xmlErrorLevel
* http://xmlsoft.org/html/libxml-xmlerror.html#xmlParserErrors
*/
crm_warn("Parsing failed (domain=%d, level=%d, code=%d): %s",
last_error->domain, last_error->level, last_error->code, last_error->message);
if (last_error->code == XML_ERR_DOCUMENT_EMPTY) {
CRM_LOG_ASSERT("Cannot parse an empty string");
} else if (last_error->code != XML_ERR_DOCUMENT_END) {
crm_err("Couldn't%s parse %d chars: %s", xml ? " fully" : "", (int)strlen(input),
input);
if (xml != NULL) {
crm_log_xml_err(xml, "Partial");
}
} else {
int len = strlen(input);
int lpc = 0;
while(lpc < len) {
crm_warn("Parse error[+%.3d]: %.80s", lpc, input+lpc);
lpc += 80;
}
CRM_LOG_ASSERT("String parsing error");
}
}
xmlFreeParserCtxt(ctxt);
return xml;
}
xmlNode *
stdin2xml(void)
{
size_t data_length = 0;
size_t read_chars = 0;
char *xml_buffer = NULL;
xmlNode *xml_obj = NULL;
do {
xml_buffer = pcmk__realloc(xml_buffer, data_length + PCMK__BUFFER_SIZE);
read_chars = fread(xml_buffer + data_length, 1, PCMK__BUFFER_SIZE,
stdin);
data_length += read_chars;
} while (read_chars == PCMK__BUFFER_SIZE);
if (data_length == 0) {
crm_warn("No XML supplied on stdin");
free(xml_buffer);
return NULL;
}
xml_buffer[data_length] = '\0';
xml_obj = string2xml(xml_buffer);
free(xml_buffer);
crm_log_xml_trace(xml_obj, "Created fragment");
return xml_obj;
}
static char *
decompress_file(const char *filename)
{
char *buffer = NULL;
int rc = 0;
size_t length = 0, read_len = 0;
BZFILE *bz_file = NULL;
FILE *input = fopen(filename, "r");
if (input == NULL) {
crm_perror(LOG_ERR, "Could not open %s for reading", filename);
return NULL;
}
bz_file = BZ2_bzReadOpen(&rc, input, 0, 0, NULL, 0);
if (rc != BZ_OK) {
crm_err("Could not prepare to read compressed %s: %s "
CRM_XS " bzerror=%d", filename, bz2_strerror(rc), rc);
BZ2_bzReadClose(&rc, bz_file);
return NULL;
}
rc = BZ_OK;
// cppcheck seems not to understand the abort-logic in pcmk__realloc
// cppcheck-suppress memleak
while (rc == BZ_OK) {
buffer = pcmk__realloc(buffer, PCMK__BUFFER_SIZE + length + 1);
read_len = BZ2_bzRead(&rc, bz_file, buffer + length, PCMK__BUFFER_SIZE);
crm_trace("Read %ld bytes from file: %d", (long)read_len, rc);
if (rc == BZ_OK || rc == BZ_STREAM_END) {
length += read_len;
}
}
buffer[length] = '\0';
if (rc != BZ_STREAM_END) {
crm_err("Could not read compressed %s: %s "
CRM_XS " bzerror=%d", filename, bz2_strerror(rc), rc);
free(buffer);
buffer = NULL;
}
BZ2_bzReadClose(&rc, bz_file);
fclose(input);
return buffer;
}
/*!
* \internal
* \brief Remove XML text nodes from specified XML and all its children
*
* \param[in,out] xml XML to strip text from
*/
void
pcmk__strip_xml_text(xmlNode *xml)
{
xmlNode *iter = xml->children;
while (iter) {
xmlNode *next = iter->next;
switch (iter->type) {
case XML_TEXT_NODE:
/* Remove it */
pcmk_free_xml_subtree(iter);
break;
case XML_ELEMENT_NODE:
/* Search it */
pcmk__strip_xml_text(iter);
break;
default:
/* Leave it */
break;
}
iter = next;
}
}
xmlNode *
filename2xml(const char *filename)
{
xmlNode *xml = NULL;
xmlDocPtr output = NULL;
bool uncompressed = true;
xmlParserCtxtPtr ctxt = NULL;
xmlErrorPtr last_error = NULL;
/* create a parser context */
ctxt = xmlNewParserCtxt();
CRM_CHECK(ctxt != NULL, return NULL);
xmlCtxtResetLastError(ctxt);
xmlSetGenericErrorFunc(ctxt, log_xmllib_err);
if (filename) {
uncompressed = !pcmk__ends_with_ext(filename, ".bz2");
}
- if (filename == NULL || !strcmp(filename, "-")) {
+ if (pcmk__str_eq(filename, "-", pcmk__str_null_matches)) {
/* STDIN_FILENO == fileno(stdin) */
output = xmlCtxtReadFd(ctxt, STDIN_FILENO, "unknown.xml", NULL,
PCMK__XML_PARSE_OPTS);
} else if (uncompressed) {
output = xmlCtxtReadFile(ctxt, filename, NULL, PCMK__XML_PARSE_OPTS);
} else {
char *input = decompress_file(filename);
output = xmlCtxtReadDoc(ctxt, (pcmkXmlStr) input, NULL, NULL,
PCMK__XML_PARSE_OPTS);
free(input);
}
if (output && (xml = xmlDocGetRootElement(output))) {
pcmk__strip_xml_text(xml);
}
last_error = xmlCtxtGetLastError(ctxt);
if (last_error && last_error->code != XML_ERR_OK) {
/* crm_abort(__FILE__,__func__,__LINE__, "last_error->code != XML_ERR_OK", TRUE, TRUE); */
/*
* http://xmlsoft.org/html/libxml-xmlerror.html#xmlErrorLevel
* http://xmlsoft.org/html/libxml-xmlerror.html#xmlParserErrors
*/
crm_err("Parsing failed (domain=%d, level=%d, code=%d): %s",
last_error->domain, last_error->level, last_error->code, last_error->message);
if (last_error && last_error->code != XML_ERR_OK) {
crm_err("Couldn't%s parse %s", xml ? " fully" : "", filename);
if (xml != NULL) {
crm_log_xml_err(xml, "Partial");
}
}
}
xmlFreeParserCtxt(ctxt);
return xml;
}
/*!
* \internal
* \brief Add a "last written" attribute to an XML element, set to current time
*
* \param[in] xe XML element to add attribute to
*
* \return Value that was set, or NULL on error
*/
const char *
pcmk__xe_add_last_written(xmlNode *xe)
{
const char *now_str = pcmk__epoch2str(NULL);
return crm_xml_add(xe, XML_CIB_ATTR_WRITTEN,
now_str ? now_str : "Could not determine current time");
}
/*!
* \brief Sanitize a string so it is usable as an XML ID
*
* \param[in,out] id String to sanitize
*/
void
crm_xml_sanitize_id(char *id)
{
char *c;
for (c = id; *c; ++c) {
/* @TODO Sanitize more comprehensively */
switch (*c) {
case ':':
case '#':
*c = '.';
}
}
}
/*!
* \brief Set the ID of an XML element using a format
*
* \param[in,out] xml XML element
* \param[in] fmt printf-style format
* \param[in] ... any arguments required by format
*/
void
crm_xml_set_id(xmlNode *xml, const char *format, ...)
{
va_list ap;
int len = 0;
char *id = NULL;
/* equivalent to crm_strdup_printf() */
va_start(ap, format);
len = vasprintf(&id, format, ap);
va_end(ap);
CRM_ASSERT(len > 0);
crm_xml_sanitize_id(id);
crm_xml_add(xml, XML_ATTR_ID, id);
free(id);
}
/*!
* \internal
* \brief Write XML to a file stream
*
* \param[in] xml_node XML to write
* \param[in] filename Name of file being written (for logging only)
* \param[in] stream Open file stream corresponding to filename
* \param[in] compress Whether to compress XML before writing
* \param[out] nbytes Number of bytes written
*
* \return Standard Pacemaker return code
*/
static int
write_xml_stream(xmlNode *xml_node, const char *filename, FILE *stream,
bool compress, unsigned int *nbytes)
{
int rc = pcmk_rc_ok;
char *buffer = NULL;
*nbytes = 0;
crm_log_xml_trace(xml_node, "writing");
buffer = dump_xml_formatted(xml_node);
CRM_CHECK(buffer && strlen(buffer),
crm_log_xml_warn(xml_node, "formatting failed");
rc = pcmk_rc_error;
goto bail);
if (compress) {
unsigned int in = 0;
BZFILE *bz_file = NULL;
rc = BZ_OK;
bz_file = BZ2_bzWriteOpen(&rc, stream, 5, 0, 30);
if (rc != BZ_OK) {
crm_warn("Not compressing %s: could not prepare file stream: %s "
CRM_XS " bzerror=%d", filename, bz2_strerror(rc), rc);
} else {
BZ2_bzWrite(&rc, bz_file, buffer, strlen(buffer));
if (rc != BZ_OK) {
crm_warn("Not compressing %s: could not compress data: %s "
CRM_XS " bzerror=%d errno=%d",
filename, bz2_strerror(rc), rc, errno);
}
}
if (rc == BZ_OK) {
BZ2_bzWriteClose(&rc, bz_file, 0, &in, nbytes);
if (rc != BZ_OK) {
crm_warn("Not compressing %s: could not write compressed data: %s "
CRM_XS " bzerror=%d errno=%d",
filename, bz2_strerror(rc), rc, errno);
*nbytes = 0; // retry without compression
} else {
crm_trace("Compressed XML for %s from %u bytes to %u",
filename, in, *nbytes);
}
}
rc = pcmk_rc_ok; // Either true, or we'll retry without compression
}
if (*nbytes == 0) {
rc = fprintf(stream, "%s", buffer);
if (rc < 0) {
rc = errno;
crm_perror(LOG_ERR, "writing %s", filename);
} else {
*nbytes = (unsigned int) rc;
rc = pcmk_rc_ok;
}
}
bail:
if (fflush(stream) != 0) {
rc = errno;
crm_perror(LOG_ERR, "flushing %s", filename);
}
/* Don't report error if the file does not support synchronization */
if (fsync(fileno(stream)) < 0 && errno != EROFS && errno != EINVAL) {
rc = errno;
crm_perror(LOG_ERR, "synchronizing %s", filename);
}
fclose(stream);
crm_trace("Saved %d bytes to %s as XML", *nbytes, filename);
free(buffer);
return rc;
}
/*!
* \brief Write XML to a file descriptor
*
* \param[in] xml_node XML to write
* \param[in] filename Name of file being written (for logging only)
* \param[in] fd Open file descriptor corresponding to filename
* \param[in] compress Whether to compress XML before writing
*
* \return Number of bytes written on success, -errno otherwise
*/
int
write_xml_fd(xmlNode * xml_node, const char *filename, int fd, gboolean compress)
{
FILE *stream = NULL;
unsigned int nbytes = 0;
int rc = pcmk_rc_ok;
CRM_CHECK(xml_node && (fd > 0), return -EINVAL);
stream = fdopen(fd, "w");
if (stream == NULL) {
return -errno;
}
rc = write_xml_stream(xml_node, filename, stream, compress, &nbytes);
if (rc != pcmk_rc_ok) {
return pcmk_rc2legacy(rc);
}
return (int) nbytes;
}
/*!
* \brief Write XML to a file
*
* \param[in] xml_node XML to write
* \param[in] filename Name of file to write
* \param[in] compress Whether to compress XML before writing
*
* \return Number of bytes written on success, -errno otherwise
*/
int
write_xml_file(xmlNode * xml_node, const char *filename, gboolean compress)
{
FILE *stream = NULL;
unsigned int nbytes = 0;
int rc = pcmk_rc_ok;
CRM_CHECK(xml_node && filename, return -EINVAL);
stream = fopen(filename, "w");
if (stream == NULL) {
return -errno;
}
rc = write_xml_stream(xml_node, filename, stream, compress, &nbytes);
if (rc != pcmk_rc_ok) {
return pcmk_rc2legacy(rc);
}
return (int) nbytes;
}
// Replace a portion of a dynamically allocated string (reallocating memory)
static char *
replace_text(char *text, int start, size_t *length, const char *replace)
{
size_t offset = strlen(replace) - 1; // We have space for 1 char already
*length += offset;
text = pcmk__realloc(text, *length);
for (size_t lpc = (*length) - 1; lpc > (start + offset); lpc--) {
text[lpc] = text[lpc - offset];
}
memcpy(text + start, replace, offset + 1);
return text;
}
/*!
* \brief Replace special characters with their XML escape sequences
*
* \param[in] text Text to escape
*
* \return Newly allocated string equivalent to \p text but with special
* characters replaced with XML escape sequences (or NULL if \p text
* is NULL)
*/
char *
crm_xml_escape(const char *text)
{
size_t length;
char *copy;
/*
* When xmlCtxtReadDoc() parses < and friends in a
* value, it converts them to their human readable
* form.
*
* If one uses xmlNodeDump() to convert it back to a
* string, all is well, because special characters are
* converted back to their escape sequences.
*
* However xmlNodeDump() is randomly dog slow, even with the same
* input. So we need to replicate the escaping in our custom
* version so that the result can be re-parsed by xmlCtxtReadDoc()
* when necessary.
*/
if (text == NULL) {
return NULL;
}
length = 1 + strlen(text);
copy = strdup(text);
CRM_ASSERT(copy != NULL);
for (size_t index = 0; index < length; index++) {
switch (copy[index]) {
case 0:
break;
case '<':
copy = replace_text(copy, index, &length, "<");
break;
case '>':
copy = replace_text(copy, index, &length, ">");
break;
case '"':
copy = replace_text(copy, index, &length, """);
break;
case '\'':
copy = replace_text(copy, index, &length, "'");
break;
case '&':
copy = replace_text(copy, index, &length, "&");
break;
case '\t':
/* Might as well just expand to a few spaces... */
copy = replace_text(copy, index, &length, " ");
break;
case '\n':
copy = replace_text(copy, index, &length, "\\n");
break;
case '\r':
copy = replace_text(copy, index, &length, "\\r");
break;
default:
/* Check for and replace non-printing characters with their octal equivalent */
if(copy[index] < ' ' || copy[index] > '~') {
char *replace = crm_strdup_printf("\\%.3o", copy[index]);
copy = replace_text(copy, index, &length, replace);
free(replace);
}
}
}
return copy;
}
static inline void
dump_xml_attr(xmlAttrPtr attr, int options, char **buffer, int *offset, int *max)
{
char *p_value = NULL;
const char *p_name = NULL;
xml_private_t *p = NULL;
CRM_ASSERT(buffer != NULL);
if (attr == NULL || attr->children == NULL) {
return;
}
p = attr->_private;
if (p && pcmk_is_set(p->flags, xpf_deleted)) {
return;
}
p_name = (const char *)attr->name;
p_value = crm_xml_escape((const char *)attr->children->content);
buffer_print(*buffer, *max, *offset, " %s=\"%s\"",
p_name, crm_str(p_value));
free(p_value);
}
// Log an XML element (and any children) in a formatted way
void
pcmk__xe_log(int log_level, const char *file, const char *function, int line,
const char *prefix, xmlNode *data, int depth, int options)
{
int max = 0;
int offset = 0;
const char *name = NULL;
const char *hidden = NULL;
xmlNode *child = NULL;
if ((data == NULL) || (log_level == LOG_NEVER)) {
return;
}
name = crm_element_name(data);
if (pcmk_is_set(options, xml_log_option_open)) {
char *buffer = NULL;
insert_prefix(options, &buffer, &offset, &max, depth);
if (data->type == XML_COMMENT_NODE) {
buffer_print(buffer, max, offset, "", data->content);
} else {
buffer_print(buffer, max, offset, "<%s", name);
hidden = crm_element_value(data, "hidden");
for (xmlAttrPtr a = pcmk__xe_first_attr(data); a != NULL;
a = a->next) {
xml_private_t *p = a->_private;
const char *p_name = (const char *) a->name;
const char *p_value = pcmk__xml_attr_value(a);
char *p_copy = NULL;
if (pcmk_is_set(p->flags, xpf_deleted)) {
continue;
} else if (pcmk_any_flags_set(options,
xml_log_option_diff_plus
|xml_log_option_diff_minus)
&& (strcmp(XML_DIFF_MARKER, p_name) == 0)) {
continue;
} else if (hidden != NULL && p_name[0] != 0 && strstr(hidden, p_name) != NULL) {
p_copy = strdup("*****");
} else {
p_copy = crm_xml_escape(p_value);
}
buffer_print(buffer, max, offset, " %s=\"%s\"",
p_name, crm_str(p_copy));
free(p_copy);
}
if(xml_has_children(data) == FALSE) {
buffer_print(buffer, max, offset, "/>");
} else if (pcmk_is_set(options, xml_log_option_children)) {
buffer_print(buffer, max, offset, ">");
} else {
buffer_print(buffer, max, offset, "/>");
}
}
do_crm_log_alias(log_level, file, function, line, "%s %s", prefix, buffer);
free(buffer);
}
if(data->type == XML_COMMENT_NODE) {
return;
} else if(xml_has_children(data) == FALSE) {
return;
} else if (pcmk_is_set(options, xml_log_option_children)) {
offset = 0;
max = 0;
for (child = pcmk__xml_first_child(data); child != NULL;
child = pcmk__xml_next(child)) {
pcmk__xe_log(log_level, file, function, line, prefix, child,
depth + 1,
options|xml_log_option_open|xml_log_option_close);
}
}
if (pcmk_is_set(options, xml_log_option_close)) {
char *buffer = NULL;
insert_prefix(options, &buffer, &offset, &max, depth);
buffer_print(buffer, max, offset, "%s>", name);
do_crm_log_alias(log_level, file, function, line, "%s %s", prefix, buffer);
free(buffer);
}
}
// Log XML portions that have been marked as changed
static void
log_xml_changes(int log_level, const char *file, const char *function, int line,
const char *prefix, xmlNode *data, int depth, int options)
{
xml_private_t *p;
char *prefix_m = NULL;
xmlNode *child = NULL;
if ((data == NULL) || (log_level == LOG_NEVER)) {
return;
}
p = data->_private;
prefix_m = strdup(prefix);
prefix_m[1] = '+';
if (pcmk_all_flags_set(p->flags, xpf_dirty|xpf_created)) {
/* Continue and log full subtree */
pcmk__xe_log(log_level, file, function, line, prefix_m, data, depth,
options|xml_log_option_open|xml_log_option_close
|xml_log_option_children);
} else if (pcmk_is_set(p->flags, xpf_dirty)) {
char *spaces = calloc(80, 1);
int s_count = 0, s_max = 80;
char *prefix_del = NULL;
char *prefix_moved = NULL;
const char *flags = prefix;
insert_prefix(options, &spaces, &s_count, &s_max, depth);
prefix_del = strdup(prefix);
prefix_del[0] = '-';
prefix_del[1] = '-';
prefix_moved = strdup(prefix);
prefix_moved[1] = '~';
if (pcmk_is_set(p->flags, xpf_moved)) {
flags = prefix_moved;
} else {
flags = prefix;
}
pcmk__xe_log(log_level, file, function, line, flags, data, depth,
options|xml_log_option_open);
for (xmlAttrPtr a = pcmk__xe_first_attr(data); a != NULL; a = a->next) {
const char *aname = (const char*) a->name;
p = a->_private;
if (pcmk_is_set(p->flags, xpf_deleted)) {
const char *value = crm_element_value(data, aname);
flags = prefix_del;
do_crm_log_alias(log_level, file, function, line,
"%s %s @%s=%s", flags, spaces, aname, value);
} else if (pcmk_is_set(p->flags, xpf_dirty)) {
const char *value = crm_element_value(data, aname);
if (pcmk_is_set(p->flags, xpf_created)) {
flags = prefix_m;
} else if (pcmk_is_set(p->flags, xpf_modified)) {
flags = prefix;
} else if (pcmk_is_set(p->flags, xpf_moved)) {
flags = prefix_moved;
} else {
flags = prefix;
}
do_crm_log_alias(log_level, file, function, line,
"%s %s @%s=%s", flags, spaces, aname, value);
}
}
free(prefix_moved);
free(prefix_del);
free(spaces);
for (child = pcmk__xml_first_child(data); child != NULL;
child = pcmk__xml_next(child)) {
log_xml_changes(log_level, file, function, line, prefix, child,
depth + 1, options);
}
pcmk__xe_log(log_level, file, function, line, prefix, data, depth,
options|xml_log_option_close);
} else {
for (child = pcmk__xml_first_child(data); child != NULL;
child = pcmk__xml_next(child)) {
log_xml_changes(log_level, file, function, line, prefix, child,
depth + 1, options);
}
}
free(prefix_m);
}
void
log_data_element(int log_level, const char *file, const char *function, int line,
const char *prefix, xmlNode * data, int depth, int options)
{
xmlNode *a_child = NULL;
char *prefix_m = NULL;
if (log_level == LOG_NEVER) {
return;
}
if (prefix == NULL) {
prefix = "";
}
/* Since we use the same file and line, to avoid confusing libqb, we need to use the same format strings */
if (data == NULL) {
do_crm_log_alias(log_level, file, function, line, "%s: %s", prefix,
"No data to dump as XML");
return;
}
if (pcmk_is_set(options, xml_log_option_dirty_add)) {
log_xml_changes(log_level, file, function, line, prefix, data, depth,
options);
return;
}
if (pcmk_is_set(options, xml_log_option_formatted)) {
if (pcmk_is_set(options, xml_log_option_diff_plus)
&& (data->children == NULL || crm_element_value(data, XML_DIFF_MARKER))) {
options |= xml_log_option_diff_all;
prefix_m = strdup(prefix);
prefix_m[1] = '+';
prefix = prefix_m;
} else if (pcmk_is_set(options, xml_log_option_diff_minus)
&& (data->children == NULL || crm_element_value(data, XML_DIFF_MARKER))) {
options |= xml_log_option_diff_all;
prefix_m = strdup(prefix);
prefix_m[1] = '-';
prefix = prefix_m;
}
}
if (pcmk_is_set(options, xml_log_option_diff_short)
&& !pcmk_is_set(options, xml_log_option_diff_all)) {
/* Still searching for the actual change */
for (a_child = pcmk__xml_first_child(data); a_child != NULL;
a_child = pcmk__xml_next(a_child)) {
log_data_element(log_level, file, function, line, prefix, a_child, depth + 1, options);
}
} else {
pcmk__xe_log(log_level, file, function, line, prefix, data, depth,
options|xml_log_option_open|xml_log_option_close
|xml_log_option_children);
}
free(prefix_m);
}
static void
dump_filtered_xml(xmlNode * data, int options, char **buffer, int *offset, int *max)
{
for (xmlAttrPtr a = pcmk__xe_first_attr(data); a != NULL; a = a->next) {
if (!pcmk__xa_filterable((const char *) (a->name))) {
dump_xml_attr(a, options, buffer, offset, max);
}
}
}
static void
dump_xml_element(xmlNode * data, int options, char **buffer, int *offset, int *max, int depth)
{
const char *name = NULL;
CRM_ASSERT(max != NULL);
CRM_ASSERT(offset != NULL);
CRM_ASSERT(buffer != NULL);
if (data == NULL) {
crm_trace("Nothing to dump");
return;
}
if (*buffer == NULL) {
*offset = 0;
*max = 0;
}
name = crm_element_name(data);
CRM_ASSERT(name != NULL);
insert_prefix(options, buffer, offset, max, depth);
buffer_print(*buffer, *max, *offset, "<%s", name);
if (options & xml_log_option_filtered) {
dump_filtered_xml(data, options, buffer, offset, max);
} else {
for (xmlAttrPtr a = pcmk__xe_first_attr(data); a != NULL; a = a->next) {
dump_xml_attr(a, options, buffer, offset, max);
}
}
if (data->children == NULL) {
buffer_print(*buffer, *max, *offset, "/>");
} else {
buffer_print(*buffer, *max, *offset, ">");
}
if (options & xml_log_option_formatted) {
buffer_print(*buffer, *max, *offset, "\n");
}
if (data->children) {
xmlNode *xChild = NULL;
for(xChild = data->children; xChild != NULL; xChild = xChild->next) {
pcmk__xml2text(xChild, options, buffer, offset, max, depth + 1);
}
insert_prefix(options, buffer, offset, max, depth);
buffer_print(*buffer, *max, *offset, "%s>", name);
if (options & xml_log_option_formatted) {
buffer_print(*buffer, *max, *offset, "\n");
}
}
}
static void
dump_xml_text(xmlNode * data, int options, char **buffer, int *offset, int *max, int depth)
{
CRM_ASSERT(max != NULL);
CRM_ASSERT(offset != NULL);
CRM_ASSERT(buffer != NULL);
if (data == NULL) {
crm_trace("Nothing to dump");
return;
}
if (*buffer == NULL) {
*offset = 0;
*max = 0;
}
insert_prefix(options, buffer, offset, max, depth);
buffer_print(*buffer, *max, *offset, "%s", data->content);
if (options & xml_log_option_formatted) {
buffer_print(*buffer, *max, *offset, "\n");
}
}
static void
dump_xml_cdata(xmlNode * data, int options, char **buffer, int *offset, int *max, int depth)
{
CRM_ASSERT(max != NULL);
CRM_ASSERT(offset != NULL);
CRM_ASSERT(buffer != NULL);
if (data == NULL) {
crm_trace("Nothing to dump");
return;
}
if (*buffer == NULL) {
*offset = 0;
*max = 0;
}
insert_prefix(options, buffer, offset, max, depth);
buffer_print(*buffer, *max, *offset, "content);
buffer_print(*buffer, *max, *offset, "]]>");
if (options & xml_log_option_formatted) {
buffer_print(*buffer, *max, *offset, "\n");
}
}
static void
dump_xml_comment(xmlNode * data, int options, char **buffer, int *offset, int *max, int depth)
{
CRM_ASSERT(max != NULL);
CRM_ASSERT(offset != NULL);
CRM_ASSERT(buffer != NULL);
if (data == NULL) {
crm_trace("Nothing to dump");
return;
}
if (*buffer == NULL) {
*offset = 0;
*max = 0;
}
insert_prefix(options, buffer, offset, max, depth);
buffer_print(*buffer, *max, *offset, "");
if (options & xml_log_option_formatted) {
buffer_print(*buffer, *max, *offset, "\n");
}
}
#define PCMK__XMLDUMP_STATS 0
/*!
* \internal
* \brief Create a text representation of an XML object
*
* \param[in] data XML to convert
* \param[in] options Group of enum xml_log_options flags
* \param[in,out] buffer Buffer to store text in (may be reallocated)
* \param[in,out] offset Current position of null terminator within \p buffer
* \param[in,out] max Current size of \p buffer in bytes
* \param[in] depth Current indentation level
*/
void
pcmk__xml2text(xmlNode *data, int options, char **buffer, int *offset,
int *max, int depth)
{
if(data == NULL) {
*offset = 0;
*max = 0;
return;
}
if (!pcmk_is_set(options, xml_log_option_filtered)
&& pcmk_is_set(options, xml_log_option_full_fledged)) {
/* libxml's serialization reuse is a good idea, sadly we cannot
apply it for the filtered cases (preceding filtering pass
would preclude further reuse of such in-situ modified XML
in generic context and is likely not a win performance-wise),
and there's also a historically unstable throughput argument
(likely stemming from memory allocation overhead, eventhough
that shall be minimized with defaults preset in crm_xml_init) */
#if (PCMK__XMLDUMP_STATS - 0)
time_t next, new = time(NULL);
#endif
xmlDoc *doc;
xmlOutputBuffer *xml_buffer;
doc = getDocPtr(data);
/* doc will only be NULL if data is */
CRM_CHECK(doc != NULL, return);
xml_buffer = xmlAllocOutputBuffer(NULL);
CRM_ASSERT(xml_buffer != NULL);
/* XXX we could setup custom allocation scheme for the particular
buffer, but it's subsumed with crm_xml_init that needs to
be invoked prior to entering this function as such, since
its other branch vitally depends on it -- what can be done
about this all is to have a facade parsing functions that
would 100% mark entering libxml code for us, since we don't
do anything as crazy as swapping out the binary form of the
parsed tree (but those would need to be strictly used as
opposed to libxml's raw functions) */
xmlNodeDumpOutput(xml_buffer, doc, data, 0,
(options & xml_log_option_formatted), NULL);
/* attempt adding final NL - failing shouldn't be fatal here */
(void) xmlOutputBufferWrite(xml_buffer, sizeof("\n") - 1, "\n");
if (xml_buffer->buffer != NULL) {
buffer_print(*buffer, *max, *offset, "%s",
(char *) xmlBufContent(xml_buffer->buffer));
}
#if (PCMK__XMLDUMP_STATS - 0)
next = time(NULL);
if ((now + 1) < next) {
crm_log_xml_trace(data, "Long time");
crm_err("xmlNodeDump() -> %dbytes took %ds", *max, next - now);
}
#endif
/* asserted allocation before so there should be something to remove */
(void) xmlOutputBufferClose(xml_buffer);
return;
}
switch(data->type) {
case XML_ELEMENT_NODE:
/* Handle below */
dump_xml_element(data, options, buffer, offset, max, depth);
break;
case XML_TEXT_NODE:
/* if option xml_log_option_text is enabled, then dump XML_TEXT_NODE */
if (options & xml_log_option_text) {
dump_xml_text(data, options, buffer, offset, max, depth);
}
return;
case XML_COMMENT_NODE:
dump_xml_comment(data, options, buffer, offset, max, depth);
break;
case XML_CDATA_SECTION_NODE:
dump_xml_cdata(data, options, buffer, offset, max, depth);
break;
default:
crm_warn("Unhandled type: %d", data->type);
return;
/*
XML_ATTRIBUTE_NODE = 2
XML_ENTITY_REF_NODE = 5
XML_ENTITY_NODE = 6
XML_PI_NODE = 7
XML_DOCUMENT_NODE = 9
XML_DOCUMENT_TYPE_NODE = 10
XML_DOCUMENT_FRAG_NODE = 11
XML_NOTATION_NODE = 12
XML_HTML_DOCUMENT_NODE = 13
XML_DTD_NODE = 14
XML_ELEMENT_DECL = 15
XML_ATTRIBUTE_DECL = 16
XML_ENTITY_DECL = 17
XML_NAMESPACE_DECL = 18
XML_XINCLUDE_START = 19
XML_XINCLUDE_END = 20
XML_DOCB_DOCUMENT_NODE = 21
*/
}
}
/*!
* \internal
* \brief Add a single character to a dynamically allocated buffer
*
* \param[in,out] buffer Buffer to store text in (may be reallocated)
* \param[in,out] offset Current position of null terminator within \p buffer
* \param[in,out] max Current size of \p buffer in bytes
* \param[in] c Character to add to \p buffer
*/
void
pcmk__buffer_add_char(char **buffer, int *offset, int *max, char c)
{
buffer_print(*buffer, *max, *offset, "%c", c);
}
char *
dump_xml_formatted_with_text(xmlNode * an_xml_node)
{
char *buffer = NULL;
int offset = 0, max = 0;
pcmk__xml2text(an_xml_node,
xml_log_option_formatted|xml_log_option_full_fledged,
&buffer, &offset, &max, 0);
return buffer;
}
char *
dump_xml_formatted(xmlNode * an_xml_node)
{
char *buffer = NULL;
int offset = 0, max = 0;
pcmk__xml2text(an_xml_node, xml_log_option_formatted, &buffer, &offset,
&max, 0);
return buffer;
}
char *
dump_xml_unformatted(xmlNode * an_xml_node)
{
char *buffer = NULL;
int offset = 0, max = 0;
pcmk__xml2text(an_xml_node, 0, &buffer, &offset, &max, 0);
return buffer;
}
gboolean
xml_has_children(const xmlNode * xml_root)
{
if (xml_root != NULL && xml_root->children != NULL) {
return TRUE;
}
return FALSE;
}
void
xml_remove_prop(xmlNode * obj, const char *name)
{
if (pcmk__check_acl(obj, NULL, xpf_acl_write) == FALSE) {
crm_trace("Cannot remove %s from %s", name, obj->name);
} else if (pcmk__tracking_xml_changes(obj, FALSE)) {
/* Leave in place (marked for removal) until after the diff is calculated */
xml_private_t *p = NULL;
xmlAttr *attr = xmlHasProp(obj, (pcmkXmlStr) name);
p = attr->_private;
set_parent_flag(obj, xpf_dirty);
pcmk__set_xml_flags(p, xpf_deleted);
} else {
xmlUnsetProp(obj, (pcmkXmlStr) name);
}
}
void
save_xml_to_file(xmlNode * xml, const char *desc, const char *filename)
{
char *f = NULL;
if (filename == NULL) {
char *uuid = crm_generate_uuid();
f = crm_strdup_printf("%s/%s", pcmk__get_tmpdir(), uuid);
filename = f;
free(uuid);
}
crm_info("Saving %s to %s", desc, filename);
write_xml_file(xml, filename, FALSE);
free(f);
}
/*!
* \internal
* \brief Set a flag on all attributes of an XML element
*
* \param[in,out] xml XML node to set flags on
* \param[in] flag XML private flag to set
*/
static void
set_attrs_flag(xmlNode *xml, enum xml_private_flags flag)
{
for (xmlAttr *attr = pcmk__xe_first_attr(xml); attr; attr = attr->next) {
pcmk__set_xml_flags((xml_private_t *) (attr->_private), flag);
}
}
/*!
* \internal
* \brief Add an XML attribute to a node, marked as deleted
*
* When calculating XML changes, we need to know when an attribute has been
* deleted. Add the attribute back to the new XML, so that we can check the
* removal against ACLs, and mark it as deleted for later removal after
* differences have been calculated.
*/
static void
mark_attr_deleted(xmlNode *new_xml, const char *element, const char *attr_name,
const char *old_value)
{
xml_private_t *p = new_xml->doc->_private;
xmlAttr *attr = NULL;
// Prevent the dirty flag being set recursively upwards
pcmk__clear_xml_flags(p, xpf_tracking);
// Restore the old value (and the tracking flag)
attr = xmlSetProp(new_xml, (pcmkXmlStr) attr_name, (pcmkXmlStr) old_value);
pcmk__set_xml_flags(p, xpf_tracking);
// Reset flags (so the attribute doesn't appear as newly created)
p = attr->_private;
p->flags = 0;
// Check ACLs and mark restored value for later removal
xml_remove_prop(new_xml, attr_name);
crm_trace("XML attribute %s=%s was removed from %s",
attr_name, old_value, element);
}
/*
* \internal
* \brief Check ACLs for a changed XML attribute
*/
static void
mark_attr_changed(xmlNode *new_xml, const char *element, const char *attr_name,
const char *old_value)
{
char *vcopy = crm_element_value_copy(new_xml, attr_name);
crm_trace("XML attribute %s was changed from '%s' to '%s' in %s",
attr_name, old_value, vcopy, element);
// Restore the original value
xmlSetProp(new_xml, (pcmkXmlStr) attr_name, (pcmkXmlStr) old_value);
// Change it back to the new value, to check ACLs
crm_xml_add(new_xml, attr_name, vcopy);
free(vcopy);
}
/*!
* \internal
* \brief Mark an XML attribute as having changed position
*/
static void
mark_attr_moved(xmlNode *new_xml, const char *element, xmlAttr *old_attr,
xmlAttr *new_attr, int p_old, int p_new)
{
xml_private_t *p = new_attr->_private;
crm_trace("XML attribute %s moved from position %d to %d in %s",
old_attr->name, p_old, p_new, element);
// Mark document, element, and all element's parents as changed
mark_xml_node_dirty(new_xml);
// Mark attribute as changed
pcmk__set_xml_flags(p, xpf_dirty|xpf_moved);
p = (p_old > p_new)? old_attr->_private : new_attr->_private;
pcmk__set_xml_flags(p, xpf_skip);
}
/*!
* \internal
* \brief Calculate differences in all previously existing XML attributes
*/
static void
xml_diff_old_attrs(xmlNode *old_xml, xmlNode *new_xml)
{
xmlAttr *attr_iter = pcmk__xe_first_attr(old_xml);
while (attr_iter != NULL) {
xmlAttr *old_attr = attr_iter;
xmlAttr *new_attr = xmlHasProp(new_xml, attr_iter->name);
const char *name = (const char *) attr_iter->name;
const char *old_value = crm_element_value(old_xml, name);
attr_iter = attr_iter->next;
if (new_attr == NULL) {
mark_attr_deleted(new_xml, (const char *) old_xml->name, name,
old_value);
} else {
xml_private_t *p = new_attr->_private;
int new_pos = pcmk__xml_position((xmlNode*) new_attr, xpf_skip);
int old_pos = pcmk__xml_position((xmlNode*) old_attr, xpf_skip);
const char *new_value = crm_element_value(new_xml, name);
// This attribute isn't new
pcmk__clear_xml_flags(p, xpf_created);
if (strcmp(new_value, old_value) != 0) {
mark_attr_changed(new_xml, (const char *) old_xml->name, name,
old_value);
} else if ((old_pos != new_pos)
&& !pcmk__tracking_xml_changes(new_xml, TRUE)) {
mark_attr_moved(new_xml, (const char *) old_xml->name,
old_attr, new_attr, old_pos, new_pos);
}
}
}
}
/*!
* \internal
* \brief Check all attributes in new XML for creation
*/
static void
mark_created_attrs(xmlNode *new_xml)
{
xmlAttr *attr_iter = pcmk__xe_first_attr(new_xml);
while (attr_iter != NULL) {
xmlAttr *new_attr = attr_iter;
xml_private_t *p = attr_iter->_private;
attr_iter = attr_iter->next;
if (pcmk_is_set(p->flags, xpf_created)) {
const char *attr_name = (const char *) new_attr->name;
crm_trace("Created new attribute %s=%s in %s",
attr_name, crm_element_value(new_xml, attr_name),
new_xml->name);
/* Check ACLs (we can't use the remove-then-create trick because it
* would modify the attribute position).
*/
if (pcmk__check_acl(new_xml, attr_name, xpf_acl_write)) {
pcmk__mark_xml_attr_dirty(new_attr);
} else {
// Creation was not allowed, so remove the attribute
xmlUnsetProp(new_xml, new_attr->name);
}
}
}
}
/*!
* \internal
* \brief Calculate differences in attributes between two XML nodes
*/
static void
xml_diff_attrs(xmlNode *old_xml, xmlNode *new_xml)
{
set_attrs_flag(new_xml, xpf_created); // cleared later if not really new
xml_diff_old_attrs(old_xml, new_xml);
mark_created_attrs(new_xml);
}
/*!
* \internal
* \brief Add an XML child element to a node, marked as deleted
*
* When calculating XML changes, we need to know when a child element has been
* deleted. Add the child back to the new XML, so that we can check the removal
* against ACLs, and mark it as deleted for later removal after differences have
* been calculated.
*/
static void
mark_child_deleted(xmlNode *old_child, xmlNode *new_parent)
{
// Re-create the child element so we can check ACLs
xmlNode *candidate = add_node_copy(new_parent, old_child);
// Clear flags on new child and its children
reset_xml_node_flags(candidate);
// Check whether ACLs allow the deletion
pcmk__apply_acl(xmlDocGetRootElement(candidate->doc));
// Remove the child again (which will track it in document's deleted_objs)
free_xml_with_position(candidate,
pcmk__xml_position(old_child, xpf_skip));
if (pcmk__xml_match(new_parent, old_child, true) == NULL) {
pcmk__set_xml_flags((xml_private_t *) (old_child->_private), xpf_skip);
}
}
static void
mark_child_moved(xmlNode *old_child, xmlNode *new_parent, xmlNode *new_child,
int p_old, int p_new)
{
xml_private_t *p = new_child->_private;
crm_trace("Child element %s with id='%s' moved from position %d to %d under %s",
new_child->name, (ID(new_child)? ID(new_child) : ""),
p_old, p_new, new_parent->name);
mark_xml_node_dirty(new_parent);
pcmk__set_xml_flags(p, xpf_moved);
if (p_old > p_new) {
p = old_child->_private;
} else {
p = new_child->_private;
}
pcmk__set_xml_flags(p, xpf_skip);
}
// Given original and new XML, mark new XML portions that have changed
static void
mark_xml_changes(xmlNode *old_xml, xmlNode *new_xml, bool check_top)
{
xmlNode *cIter = NULL;
xml_private_t *p = NULL;
CRM_CHECK(new_xml != NULL, return);
if (old_xml == NULL) {
pcmk__mark_xml_created(new_xml);
pcmk__apply_creation_acl(new_xml, check_top);
return;
}
p = new_xml->_private;
CRM_CHECK(p != NULL, return);
if(p->flags & xpf_processed) {
/* Avoid re-comparing nodes */
return;
}
pcmk__set_xml_flags(p, xpf_processed);
xml_diff_attrs(old_xml, new_xml);
// Check for differences in the original children
for (cIter = pcmk__xml_first_child(old_xml); cIter != NULL; ) {
xmlNode *old_child = cIter;
xmlNode *new_child = pcmk__xml_match(new_xml, cIter, true);
cIter = pcmk__xml_next(cIter);
if(new_child) {
mark_xml_changes(old_child, new_child, TRUE);
} else {
mark_child_deleted(old_child, new_xml);
}
}
// Check for moved or created children
for (cIter = pcmk__xml_first_child(new_xml); cIter != NULL; ) {
xmlNode *new_child = cIter;
xmlNode *old_child = pcmk__xml_match(old_xml, cIter, true);
cIter = pcmk__xml_next(cIter);
if(old_child == NULL) {
// This is a newly created child
p = new_child->_private;
pcmk__set_xml_flags(p, xpf_skip);
mark_xml_changes(old_child, new_child, TRUE);
} else {
/* Check for movement, we already checked for differences */
int p_new = pcmk__xml_position(new_child, xpf_skip);
int p_old = pcmk__xml_position(old_child, xpf_skip);
if(p_old != p_new) {
mark_child_moved(old_child, new_xml, new_child, p_old, p_new);
}
}
}
}
void
xml_calculate_significant_changes(xmlNode *old_xml, xmlNode *new_xml)
{
pcmk__set_xml_doc_flag(new_xml, xpf_lazy);
xml_calculate_changes(old_xml, new_xml);
}
void
xml_calculate_changes(xmlNode *old_xml, xmlNode *new_xml)
{
CRM_CHECK(pcmk__str_eq(crm_element_name(old_xml), crm_element_name(new_xml), pcmk__str_casei),
return);
CRM_CHECK(pcmk__str_eq(ID(old_xml), ID(new_xml), pcmk__str_casei), return);
if(xml_tracking_changes(new_xml) == FALSE) {
xml_track_changes(new_xml, NULL, NULL, FALSE);
}
mark_xml_changes(old_xml, new_xml, FALSE);
}
gboolean
can_prune_leaf(xmlNode * xml_node)
{
xmlNode *cIter = NULL;
gboolean can_prune = TRUE;
const char *name = crm_element_name(xml_node);
if (pcmk__strcase_any_of(name, XML_TAG_RESOURCE_REF, XML_CIB_TAG_OBJ_REF,
XML_ACL_TAG_ROLE_REF, XML_ACL_TAG_ROLE_REFv1, NULL)) {
return FALSE;
}
for (xmlAttrPtr a = pcmk__xe_first_attr(xml_node); a != NULL; a = a->next) {
const char *p_name = (const char *) a->name;
if (strcmp(p_name, XML_ATTR_ID) == 0) {
continue;
}
can_prune = FALSE;
}
cIter = pcmk__xml_first_child(xml_node);
while (cIter) {
xmlNode *child = cIter;
cIter = pcmk__xml_next(cIter);
if (can_prune_leaf(child)) {
free_xml(child);
} else {
can_prune = FALSE;
}
}
return can_prune;
}
/*!
* \internal
* \brief Find a comment with matching content in specified XML
*
* \param[in] root XML to search
* \param[in] search_comment Comment whose content should be searched for
* \param[in] exact If true, comment must also be at same position
*/
xmlNode *
pcmk__xc_match(xmlNode *root, xmlNode *search_comment, bool exact)
{
xmlNode *a_child = NULL;
int search_offset = pcmk__xml_position(search_comment, xpf_skip);
CRM_CHECK(search_comment->type == XML_COMMENT_NODE, return NULL);
for (a_child = pcmk__xml_first_child(root); a_child != NULL;
a_child = pcmk__xml_next(a_child)) {
if (exact) {
int offset = pcmk__xml_position(a_child, xpf_skip);
xml_private_t *p = a_child->_private;
if (offset < search_offset) {
continue;
} else if (offset > search_offset) {
return NULL;
}
if (pcmk_is_set(p->flags, xpf_skip)) {
continue;
}
}
if (a_child->type == XML_COMMENT_NODE
&& pcmk__str_eq((const char *)a_child->content, (const char *)search_comment->content, pcmk__str_casei)) {
return a_child;
} else if (exact) {
return NULL;
}
}
return NULL;
}
/*!
* \internal
* \brief Make one XML comment match another (in content)
*
* \param[in,out] parent If \p target is NULL and this is not, add or update
* comment child of this XML node that matches \p update
* \param[in,out] target If not NULL, update this XML comment node
* \param[in] update Make comment content match this (must not be NULL)
*
* \note At least one of \parent and \target must be non-NULL
*/
void
pcmk__xc_update(xmlNode *parent, xmlNode *target, xmlNode *update)
{
CRM_CHECK(update != NULL, return);
CRM_CHECK(update->type == XML_COMMENT_NODE, return);
if (target == NULL) {
target = pcmk__xc_match(parent, update, false);
}
if (target == NULL) {
add_node_copy(parent, update);
} else if (!pcmk__str_eq((const char *)target->content, (const char *)update->content, pcmk__str_casei)) {
xmlFree(target->content);
target->content = xmlStrdup(update->content);
}
}
/*!
* \internal
* \brief Make one XML tree match another (in children and attributes)
*
* \param[in,out] parent If \p target is NULL and this is not, add or update
* child of this XML node that matches \p update
* \param[in,out] target If not NULL, update this XML
* \param[in] update Make the desired XML match this (must not be NULL)
* \param[in] as_diff If true, expand "++" when making attributes match
*
* \note At least one of \parent and \target must be non-NULL
*/
void
pcmk__xml_update(xmlNode *parent, xmlNode *target, xmlNode *update,
bool as_diff)
{
xmlNode *a_child = NULL;
const char *object_name = NULL,
*object_href = NULL,
*object_href_val = NULL;
#if XML_PARSER_DEBUG
crm_log_xml_trace("update:", update);
crm_log_xml_trace("target:", target);
#endif
CRM_CHECK(update != NULL, return);
if (update->type == XML_COMMENT_NODE) {
pcmk__xc_update(parent, target, update);
return;
}
object_name = crm_element_name(update);
object_href_val = ID(update);
if (object_href_val != NULL) {
object_href = XML_ATTR_ID;
} else {
object_href_val = crm_element_value(update, XML_ATTR_IDREF);
object_href = (object_href_val == NULL) ? NULL : XML_ATTR_IDREF;
}
CRM_CHECK(object_name != NULL, return);
CRM_CHECK(target != NULL || parent != NULL, return);
if (target == NULL) {
target = pcmk__xe_match(parent, object_name,
object_href, object_href_val);
}
if (target == NULL) {
target = create_xml_node(parent, object_name);
CRM_CHECK(target != NULL, return);
#if XML_PARSER_DEBUG
crm_trace("Added <%s%s%s%s%s/>", crm_str(object_name),
object_href ? " " : "",
object_href ? object_href : "",
object_href ? "=" : "",
object_href ? object_href_val : "");
} else {
crm_trace("Found node <%s%s%s%s%s/> to update", crm_str(object_name),
object_href ? " " : "",
object_href ? object_href : "",
object_href ? "=" : "",
object_href ? object_href_val : "");
#endif
}
CRM_CHECK(pcmk__str_eq(crm_element_name(target), crm_element_name(update),
pcmk__str_casei),
return);
if (as_diff == FALSE) {
/* So that expand_plus_plus() gets called */
copy_in_properties(target, update);
} else {
/* No need for expand_plus_plus(), just raw speed */
for (xmlAttrPtr a = pcmk__xe_first_attr(update); a != NULL;
a = a->next) {
const char *p_value = pcmk__xml_attr_value(a);
/* Remove it first so the ordering of the update is preserved */
xmlUnsetProp(target, a->name);
xmlSetProp(target, a->name, (pcmkXmlStr) p_value);
}
}
for (a_child = pcmk__xml_first_child(update); a_child != NULL;
a_child = pcmk__xml_next(a_child)) {
#if XML_PARSER_DEBUG
crm_trace("Updating child <%s%s%s%s%s/>", crm_str(object_name),
object_href ? " " : "",
object_href ? object_href : "",
object_href ? "=" : "",
object_href ? object_href_val : "");
#endif
pcmk__xml_update(target, NULL, a_child, as_diff);
}
#if XML_PARSER_DEBUG
crm_trace("Finished with <%s%s%s%s%s/>", crm_str(object_name),
object_href ? " " : "",
object_href ? object_href : "",
object_href ? "=" : "",
object_href ? object_href_val : "");
#endif
}
gboolean
update_xml_child(xmlNode * child, xmlNode * to_update)
{
gboolean can_update = TRUE;
xmlNode *child_of_child = NULL;
CRM_CHECK(child != NULL, return FALSE);
CRM_CHECK(to_update != NULL, return FALSE);
if (!pcmk__str_eq(crm_element_name(to_update), crm_element_name(child), pcmk__str_none)) {
can_update = FALSE;
} else if (!pcmk__str_eq(ID(to_update), ID(child), pcmk__str_none)) {
can_update = FALSE;
} else if (can_update) {
#if XML_PARSER_DEBUG
crm_log_xml_trace(child, "Update match found...");
#endif
pcmk__xml_update(NULL, child, to_update, false);
}
for (child_of_child = pcmk__xml_first_child(child); child_of_child != NULL;
child_of_child = pcmk__xml_next(child_of_child)) {
/* only update the first one */
if (can_update) {
break;
}
can_update = update_xml_child(child_of_child, to_update);
}
return can_update;
}
int
find_xml_children(xmlNode ** children, xmlNode * root,
const char *tag, const char *field, const char *value, gboolean search_matches)
{
int match_found = 0;
CRM_CHECK(root != NULL, return FALSE);
CRM_CHECK(children != NULL, return FALSE);
if (tag != NULL && !pcmk__str_eq(tag, crm_element_name(root), pcmk__str_casei)) {
} else if (value != NULL && !pcmk__str_eq(value, crm_element_value(root, field), pcmk__str_casei)) {
} else {
if (*children == NULL) {
*children = create_xml_node(NULL, __func__);
}
add_node_copy(*children, root);
match_found = 1;
}
if (search_matches || match_found == 0) {
xmlNode *child = NULL;
for (child = pcmk__xml_first_child(root); child != NULL;
child = pcmk__xml_next(child)) {
match_found += find_xml_children(children, child, tag, field, value, search_matches);
}
}
return match_found;
}
gboolean
replace_xml_child(xmlNode * parent, xmlNode * child, xmlNode * update, gboolean delete_only)
{
gboolean can_delete = FALSE;
xmlNode *child_of_child = NULL;
const char *up_id = NULL;
const char *child_id = NULL;
const char *right_val = NULL;
CRM_CHECK(child != NULL, return FALSE);
CRM_CHECK(update != NULL, return FALSE);
up_id = ID(update);
child_id = ID(child);
if (up_id == NULL || (child_id && strcmp(child_id, up_id) == 0)) {
can_delete = TRUE;
}
if (!pcmk__str_eq(crm_element_name(update), crm_element_name(child), pcmk__str_casei)) {
can_delete = FALSE;
}
if (can_delete && delete_only) {
for (xmlAttrPtr a = pcmk__xe_first_attr(update); a != NULL;
a = a->next) {
const char *p_name = (const char *) a->name;
const char *p_value = pcmk__xml_attr_value(a);
right_val = crm_element_value(child, p_name);
if (!pcmk__str_eq(p_value, right_val, pcmk__str_casei)) {
can_delete = FALSE;
}
}
}
if (can_delete && parent != NULL) {
crm_log_xml_trace(child, "Delete match found...");
if (delete_only || update == NULL) {
free_xml(child);
} else {
xmlNode *tmp = copy_xml(update);
xmlDoc *doc = tmp->doc;
xmlNode *old = NULL;
xml_accept_changes(tmp);
old = xmlReplaceNode(child, tmp);
if(xml_tracking_changes(tmp)) {
/* Replaced sections may have included relevant ACLs */
pcmk__apply_acl(tmp);
}
xml_calculate_changes(old, tmp);
xmlDocSetRootElement(doc, old);
free_xml(old);
}
child = NULL;
return TRUE;
} else if (can_delete) {
crm_log_xml_debug(child, "Cannot delete the search root");
can_delete = FALSE;
}
child_of_child = pcmk__xml_first_child(child);
while (child_of_child) {
xmlNode *next = pcmk__xml_next(child_of_child);
can_delete = replace_xml_child(child, child_of_child, update, delete_only);
/* only delete the first one */
if (can_delete) {
child_of_child = NULL;
} else {
child_of_child = next;
}
}
return can_delete;
}
xmlNode *
sorted_xml(xmlNode *input, xmlNode *parent, gboolean recursive)
{
xmlNode *child = NULL;
GSList *nvpairs = NULL;
xmlNode *result = NULL;
const char *name = NULL;
CRM_CHECK(input != NULL, return NULL);
name = crm_element_name(input);
CRM_CHECK(name != NULL, return NULL);
result = create_xml_node(parent, name);
nvpairs = pcmk_xml_attrs2nvpairs(input);
nvpairs = pcmk_sort_nvpairs(nvpairs);
pcmk_nvpairs2xml_attrs(nvpairs, result);
pcmk_free_nvpairs(nvpairs);
for (child = pcmk__xml_first_child(input); child != NULL;
child = pcmk__xml_next(child)) {
if (recursive) {
sorted_xml(child, result, recursive);
} else {
add_node_copy(result, child);
}
}
return result;
}
xmlNode *
first_named_child(const xmlNode *parent, const char *name)
{
xmlNode *match = NULL;
for (match = pcmk__xe_first_child(parent); match != NULL;
match = pcmk__xe_next(match)) {
/*
* name == NULL gives first child regardless of name; this is
* semantically incorrect in this function, but may be necessary
* due to prior use of xml_child_iter_filter
*/
if (pcmk__str_eq(name, (const char *)match->name, pcmk__str_null_matches)) {
return match;
}
}
return NULL;
}
/*!
* \brief Get next instance of same XML tag
*
* \param[in] sibling XML tag to start from
*
* \return Next sibling XML tag with same name
*/
xmlNode *
crm_next_same_xml(const xmlNode *sibling)
{
xmlNode *match = pcmk__xe_next(sibling);
const char *name = crm_element_name(sibling);
while (match != NULL) {
if (!strcmp(crm_element_name(match), name)) {
return match;
}
match = pcmk__xe_next(match);
}
return NULL;
}
void
crm_xml_init(void)
{
static bool init = true;
if(init) {
init = false;
/* The default allocator XML_BUFFER_ALLOC_EXACT does far too many
* pcmk__realloc()s and it can take upwards of 18 seconds (yes, seconds)
* to dump a 28kb tree which XML_BUFFER_ALLOC_DOUBLEIT can do in
* less than 1 second.
*/
xmlSetBufferAllocationScheme(XML_BUFFER_ALLOC_DOUBLEIT);
/* Populate and free the _private field when nodes are created and destroyed */
xmlDeregisterNodeDefault(free_private_data);
xmlRegisterNodeDefault(new_private_data);
crm_schema_init();
}
}
void
crm_xml_cleanup(void)
{
crm_info("Cleaning up memory from libxml2");
crm_schema_cleanup();
xmlCleanupParser();
}
#define XPATH_MAX 512
xmlNode *
expand_idref(xmlNode * input, xmlNode * top)
{
const char *tag = NULL;
const char *ref = NULL;
xmlNode *result = input;
if (result == NULL) {
return NULL;
} else if (top == NULL) {
top = input;
}
tag = crm_element_name(result);
ref = crm_element_value(result, XML_ATTR_IDREF);
if (ref != NULL) {
char *xpath_string = crm_strdup_printf("//%s[@id='%s']", tag, ref);
result = get_xpath_object(xpath_string, top, LOG_ERR);
if (result == NULL) {
char *nodePath = (char *)xmlGetNodePath(top);
crm_err("No match for %s found in %s: Invalid configuration", xpath_string,
crm_str(nodePath));
free(nodePath);
}
free(xpath_string);
}
return result;
}
void
crm_destroy_xml(gpointer data)
{
free_xml(data);
}
char *
pcmk__xml_artefact_root(enum pcmk__xml_artefact_ns ns)
{
static const char *base = NULL;
char *ret = NULL;
if (base == NULL) {
base = getenv("PCMK_schema_directory");
}
if (pcmk__str_empty(base)) {
base = CRM_SCHEMA_DIRECTORY;
}
switch (ns) {
case pcmk__xml_artefact_ns_legacy_rng:
case pcmk__xml_artefact_ns_legacy_xslt:
ret = strdup(base);
break;
case pcmk__xml_artefact_ns_base_rng:
case pcmk__xml_artefact_ns_base_xslt:
ret = crm_strdup_printf("%s/base", base);
break;
default:
crm_err("XML artefact family specified as %u not recognized", ns);
}
return ret;
}
char *
pcmk__xml_artefact_path(enum pcmk__xml_artefact_ns ns, const char *filespec)
{
char *base = pcmk__xml_artefact_root(ns), *ret = NULL;
switch (ns) {
case pcmk__xml_artefact_ns_legacy_rng:
case pcmk__xml_artefact_ns_base_rng:
ret = crm_strdup_printf("%s/%s.rng", base, filespec);
break;
case pcmk__xml_artefact_ns_legacy_xslt:
case pcmk__xml_artefact_ns_base_xslt:
ret = crm_strdup_printf("%s/%s.xsl", base, filespec);
break;
default:
crm_err("XML artefact family specified as %u not recognized", ns);
}
free(base);
return ret;
}
void
pcmk__xe_set_propv(xmlNodePtr node, va_list pairs)
{
while (true) {
const char *name, *value;
name = va_arg(pairs, const char *);
if (name == NULL) {
return;
}
value = va_arg(pairs, const char *);
if (value == NULL) {
return;
}
crm_xml_add(node, name, value);
}
}
void
pcmk__xe_set_props(xmlNodePtr node, ...)
{
va_list pairs;
va_start(pairs, node);
pcmk__xe_set_propv(node, pairs);
va_end(pairs);
}
// Deprecated functions kept only for backward API compatibility
// LCOV_EXCL_START
#include
xmlNode *
find_entity(xmlNode *parent, const char *node_name, const char *id)
{
return pcmk__xe_match(parent, node_name,
((id == NULL)? id : XML_ATTR_ID), id);
}
// LCOV_EXCL_STOP
// End deprecated API
diff --git a/lib/fencing/st_client.c b/lib/fencing/st_client.c
index a9181421d4..5f4bd75d15 100644
--- a/lib/fencing/st_client.c
+++ b/lib/fencing/st_client.c
@@ -1,2776 +1,2776 @@
/*
* Copyright 2004-2021 the Pacemaker project contributors
*
* The version control history for this file may have further details.
*
* This source code is licensed under the GNU Lesser General Public License
* version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY.
*/
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
CRM_TRACE_INIT_DATA(stonith);
struct stonith_action_s {
/*! user defined data */
char *agent;
char *action;
char *victim;
GHashTable *args;
int timeout;
int async;
void *userdata;
void (*done_cb) (GPid pid, gint status, const char *output, gpointer user_data);
void (*fork_cb) (GPid pid, gpointer user_data);
svc_action_t *svc_action;
/*! internal timing information */
time_t initial_start_time;
int tries;
int remaining_timeout;
int max_retries;
/* device output data */
GPid pid;
int rc;
char *output;
char *error;
};
typedef struct stonith_private_s {
char *token;
crm_ipc_t *ipc;
mainloop_io_t *source;
GHashTable *stonith_op_callback_table;
GList *notify_list;
int notify_refcnt;
bool notify_deletes;
void (*op_callback) (stonith_t * st, stonith_callback_data_t * data);
} stonith_private_t;
typedef struct stonith_notify_client_s {
const char *event;
const char *obj_id; /* implement one day */
const char *obj_type; /* implement one day */
void (*notify) (stonith_t * st, stonith_event_t * e);
bool delete;
} stonith_notify_client_t;
typedef struct stonith_callback_client_s {
void (*callback) (stonith_t * st, stonith_callback_data_t * data);
const char *id;
void *user_data;
gboolean only_success;
gboolean allow_timeout_updates;
struct timer_rec_s *timer;
} stonith_callback_client_t;
struct notify_blob_s {
stonith_t *stonith;
xmlNode *xml;
};
struct timer_rec_s {
int call_id;
int timeout;
guint ref;
stonith_t *stonith;
};
typedef int (*stonith_op_t) (const char *, int, const char *, xmlNode *,
xmlNode *, xmlNode *, xmlNode **, xmlNode **);
bool stonith_dispatch(stonith_t * st);
xmlNode *stonith_create_op(int call_id, const char *token, const char *op, xmlNode * data,
int call_options);
static int stonith_send_command(stonith_t *stonith, const char *op,
xmlNode *data, xmlNode **output_data,
int call_options, int timeout);
static void stonith_connection_destroy(gpointer user_data);
static void stonith_send_notification(gpointer data, gpointer user_data);
static int internal_stonith_action_execute(stonith_action_t * action);
static void log_action(stonith_action_t *action, pid_t pid);
/*!
* \brief Get agent namespace by name
*
* \param[in] namespace_s Name of namespace as string
*
* \return Namespace as enum value
*/
enum stonith_namespace
stonith_text2namespace(const char *namespace_s)
{
- if ((namespace_s == NULL) || !strcmp(namespace_s, "any")) {
+ if (pcmk__str_eq(namespace_s, "any", pcmk__str_null_matches)) {
return st_namespace_any;
} else if (!strcmp(namespace_s, "redhat")
|| !strcmp(namespace_s, "stonith-ng")) {
return st_namespace_rhcs;
} else if (!strcmp(namespace_s, "internal")) {
return st_namespace_internal;
} else if (!strcmp(namespace_s, "heartbeat")) {
return st_namespace_lha;
}
return st_namespace_invalid;
}
/*!
* \brief Get agent namespace name
*
* \param[in] namespace Namespace as enum value
*
* \return Namespace name as string
*/
const char *
stonith_namespace2text(enum stonith_namespace st_namespace)
{
switch (st_namespace) {
case st_namespace_any: return "any";
case st_namespace_rhcs: return "stonith-ng";
case st_namespace_internal: return "internal";
case st_namespace_lha: return "heartbeat";
default: break;
}
return "unsupported";
}
/*!
* \brief Determine namespace of a fence agent
*
* \param[in] agent Fence agent type
* \param[in] namespace_s Name of agent namespace as string, if known
*
* \return Namespace of specified agent, as enum value
*/
enum stonith_namespace
stonith_get_namespace(const char *agent, const char *namespace_s)
{
if (pcmk__str_eq(namespace_s, "internal", pcmk__str_casei)) {
return st_namespace_internal;
}
if (stonith__agent_is_rhcs(agent)) {
return st_namespace_rhcs;
}
#if HAVE_STONITH_STONITH_H
if (stonith__agent_is_lha(agent)) {
return st_namespace_lha;
}
#endif
crm_err("Unknown fence agent: %s", agent);
return st_namespace_invalid;
}
gboolean
stonith__watchdog_fencing_enabled_for_node_api(stonith_t *st, const char *node)
{
gboolean rv = FALSE;
stonith_t *stonith_api = st?st:stonith_api_new();
char *list = NULL;
if(stonith_api) {
if (stonith_api->state == stonith_disconnected) {
int rc = stonith_api->cmds->connect(stonith_api, "stonith-api", NULL);
if (rc != pcmk_ok) {
crm_err("Failed connecting to Stonith-API for watchdog-fencing-query.");
}
}
if (stonith_api->state != stonith_disconnected) {
/* caveat!!!
* this might fail when when stonithd is just updating the device-list
* probably something we should fix as well for other api-calls */
int rc = stonith_api->cmds->list(stonith_api, st_opt_sync_call, STONITH_WATCHDOG_ID, &list, 0);
if ((rc != pcmk_ok) || (list == NULL)) {
/* due to the race described above it can happen that
* we drop in here - so as not to make remote nodes
* panic on that answer
*/
crm_warn("watchdog-fencing-query failed");
} else if (list[0] == '\0') {
rv = TRUE;
} else {
GList *targets = stonith__parse_targets(list);
rv = pcmk__str_in_list(node, targets, pcmk__str_casei);
g_list_free_full(targets, free);
}
free(list);
if (!st) {
/* if we're provided the api we still might have done the
* connection - but let's assume the caller won't bother
*/
stonith_api->cmds->disconnect(stonith_api);
}
}
if (!st) {
stonith_api_delete(stonith_api);
}
} else {
crm_err("Stonith-API for watchdog-fencing-query couldn't be created.");
}
crm_trace("Pacemaker assumes node %s %sto do watchdog-fencing.",
node, rv?"":"not ");
return rv;
}
gboolean
stonith__watchdog_fencing_enabled_for_node(const char *node)
{
return stonith__watchdog_fencing_enabled_for_node_api(NULL, node);
}
static void
log_action(stonith_action_t *action, pid_t pid)
{
if (action->output) {
/* Logging the whole string confuses syslog when the string is xml */
char *prefix = crm_strdup_printf("%s[%d] stdout:", action->agent, pid);
crm_log_output(LOG_TRACE, prefix, action->output);
free(prefix);
}
if (action->error) {
/* Logging the whole string confuses syslog when the string is xml */
char *prefix = crm_strdup_printf("%s[%d] stderr:", action->agent, pid);
crm_log_output(LOG_WARNING, prefix, action->error);
free(prefix);
}
}
/* when cycling through the list we don't want to delete items
so just mark them and when we know nobody is using the list
loop over it to remove the marked items
*/
static void
foreach_notify_entry (stonith_private_t *private,
GFunc func,
gpointer user_data)
{
private->notify_refcnt++;
g_list_foreach(private->notify_list, func, user_data);
private->notify_refcnt--;
if ((private->notify_refcnt == 0) &&
private->notify_deletes) {
GList *list_item = private->notify_list;
private->notify_deletes = FALSE;
while (list_item != NULL)
{
stonith_notify_client_t *list_client = list_item->data;
GList *next = g_list_next(list_item);
if (list_client->delete) {
free(list_client);
private->notify_list =
g_list_delete_link(private->notify_list, list_item);
}
list_item = next;
}
}
}
static void
stonith_connection_destroy(gpointer user_data)
{
stonith_t *stonith = user_data;
stonith_private_t *native = NULL;
struct notify_blob_s blob;
crm_trace("Sending destroyed notification");
blob.stonith = stonith;
blob.xml = create_xml_node(NULL, "notify");
native = stonith->st_private;
native->ipc = NULL;
native->source = NULL;
free(native->token); native->token = NULL;
stonith->state = stonith_disconnected;
crm_xml_add(blob.xml, F_TYPE, T_STONITH_NOTIFY);
crm_xml_add(blob.xml, F_SUBTYPE, T_STONITH_NOTIFY_DISCONNECT);
foreach_notify_entry(native, stonith_send_notification, &blob);
free_xml(blob.xml);
}
xmlNode *
create_device_registration_xml(const char *id, enum stonith_namespace namespace,
const char *agent, stonith_key_value_t *params,
const char *rsc_provides)
{
xmlNode *data = create_xml_node(NULL, F_STONITH_DEVICE);
xmlNode *args = create_xml_node(data, XML_TAG_ATTRS);
#if HAVE_STONITH_STONITH_H
if (namespace == st_namespace_any) {
namespace = stonith_get_namespace(agent, NULL);
}
if (namespace == st_namespace_lha) {
hash2field((gpointer) "plugin", (gpointer) agent, args);
agent = "fence_legacy";
}
#endif
crm_xml_add(data, XML_ATTR_ID, id);
crm_xml_add(data, F_STONITH_ORIGIN, __func__);
crm_xml_add(data, "agent", agent);
if ((namespace != st_namespace_any) && (namespace != st_namespace_invalid)) {
crm_xml_add(data, "namespace", stonith_namespace2text(namespace));
}
if (rsc_provides) {
crm_xml_add(data, "rsc_provides", rsc_provides);
}
for (; params; params = params->next) {
hash2field((gpointer) params->key, (gpointer) params->value, args);
}
return data;
}
static int
stonith_api_register_device(stonith_t * st, int call_options,
const char *id, const char *namespace, const char *agent,
stonith_key_value_t * params)
{
int rc = 0;
xmlNode *data = NULL;
data = create_device_registration_xml(id, stonith_text2namespace(namespace),
agent, params, NULL);
rc = stonith_send_command(st, STONITH_OP_DEVICE_ADD, data, NULL, call_options, 0);
free_xml(data);
return rc;
}
static int
stonith_api_remove_device(stonith_t * st, int call_options, const char *name)
{
int rc = 0;
xmlNode *data = NULL;
data = create_xml_node(NULL, F_STONITH_DEVICE);
crm_xml_add(data, F_STONITH_ORIGIN, __func__);
crm_xml_add(data, XML_ATTR_ID, name);
rc = stonith_send_command(st, STONITH_OP_DEVICE_DEL, data, NULL, call_options, 0);
free_xml(data);
return rc;
}
static int
stonith_api_remove_level_full(stonith_t *st, int options,
const char *node, const char *pattern,
const char *attr, const char *value, int level)
{
int rc = 0;
xmlNode *data = NULL;
CRM_CHECK(node || pattern || (attr && value), return -EINVAL);
data = create_xml_node(NULL, XML_TAG_FENCING_LEVEL);
crm_xml_add(data, F_STONITH_ORIGIN, __func__);
if (node) {
crm_xml_add(data, XML_ATTR_STONITH_TARGET, node);
} else if (pattern) {
crm_xml_add(data, XML_ATTR_STONITH_TARGET_PATTERN, pattern);
} else {
crm_xml_add(data, XML_ATTR_STONITH_TARGET_ATTRIBUTE, attr);
crm_xml_add(data, XML_ATTR_STONITH_TARGET_VALUE, value);
}
crm_xml_add_int(data, XML_ATTR_STONITH_INDEX, level);
rc = stonith_send_command(st, STONITH_OP_LEVEL_DEL, data, NULL, options, 0);
free_xml(data);
return rc;
}
static int
stonith_api_remove_level(stonith_t * st, int options, const char *node, int level)
{
return stonith_api_remove_level_full(st, options, node,
NULL, NULL, NULL, level);
}
/*!
* \internal
* \brief Create XML for fence topology level registration request
*
* \param[in] node If not NULL, target level by this node name
* \param[in] pattern If not NULL, target by node name using this regex
* \param[in] attr If not NULL, target by this node attribute
* \param[in] value If not NULL, target by this node attribute value
* \param[in] level Index number of level to register
* \param[in] device_list List of devices in level
*
* \return Newly allocated XML tree on success, NULL otherwise
*
* \note The caller should set only one of node, pattern or attr/value.
*/
xmlNode *
create_level_registration_xml(const char *node, const char *pattern,
const char *attr, const char *value,
int level, stonith_key_value_t *device_list)
{
size_t len = 0;
char *list = NULL;
xmlNode *data;
CRM_CHECK(node || pattern || (attr && value), return NULL);
data = create_xml_node(NULL, XML_TAG_FENCING_LEVEL);
CRM_CHECK(data, return NULL);
crm_xml_add(data, F_STONITH_ORIGIN, __func__);
crm_xml_add_int(data, XML_ATTR_ID, level);
crm_xml_add_int(data, XML_ATTR_STONITH_INDEX, level);
if (node) {
crm_xml_add(data, XML_ATTR_STONITH_TARGET, node);
} else if (pattern) {
crm_xml_add(data, XML_ATTR_STONITH_TARGET_PATTERN, pattern);
} else {
crm_xml_add(data, XML_ATTR_STONITH_TARGET_ATTRIBUTE, attr);
crm_xml_add(data, XML_ATTR_STONITH_TARGET_VALUE, value);
}
// cppcheck seems not to understand the abort logic behind pcmk__realloc
// cppcheck-suppress memleak
for (; device_list; device_list = device_list->next) {
pcmk__add_separated_word(&list, &len, device_list->value, ",");
}
crm_xml_add(data, XML_ATTR_STONITH_DEVICES, list);
free(list);
return data;
}
static int
stonith_api_register_level_full(stonith_t * st, int options, const char *node,
const char *pattern,
const char *attr, const char *value,
int level, stonith_key_value_t *device_list)
{
int rc = 0;
xmlNode *data = create_level_registration_xml(node, pattern, attr, value,
level, device_list);
CRM_CHECK(data != NULL, return -EINVAL);
rc = stonith_send_command(st, STONITH_OP_LEVEL_ADD, data, NULL, options, 0);
free_xml(data);
return rc;
}
static int
stonith_api_register_level(stonith_t * st, int options, const char *node, int level,
stonith_key_value_t * device_list)
{
return stonith_api_register_level_full(st, options, node, NULL, NULL, NULL,
level, device_list);
}
static void
append_config_arg(gpointer key, gpointer value, gpointer user_data)
{
/* The fencer will filter "action" out when it registers the device,
* but ignore it here in case any external API users don't.
*
* Also filter out parameters handled directly by Pacemaker.
*/
if (!pcmk__str_eq(key, STONITH_ATTR_ACTION_OP, pcmk__str_casei)
&& !pcmk_stonith_param(key)
&& (strstr(key, CRM_META) == NULL)
&& !pcmk__str_eq(key, "crm_feature_set", pcmk__str_casei)) {
crm_trace("Passing %s=%s with fence action",
(const char *) key, (const char *) (value? value : ""));
g_hash_table_insert((GHashTable *) user_data,
strdup(key), strdup(value? value : ""));
}
}
static GHashTable *
make_args(const char *agent, const char *action, const char *victim,
uint32_t victim_nodeid, GHashTable * device_args,
GHashTable * port_map, const char *host_arg)
{
GHashTable *arg_list = NULL;
const char *value = NULL;
CRM_CHECK(action != NULL, return NULL);
arg_list = pcmk__strkey_table(free, free);
// Add action to arguments (using an alias if requested)
if (device_args) {
char buffer[512];
snprintf(buffer, sizeof(buffer), "pcmk_%s_action", action);
value = g_hash_table_lookup(device_args, buffer);
if (value) {
crm_debug("Substituting '%s' for fence action %s targeting %s",
value, action, victim);
action = value;
}
}
g_hash_table_insert(arg_list, strdup(STONITH_ATTR_ACTION_OP),
strdup(action));
/* If this is a fencing operation against another node, add more standard
* arguments.
*/
if (victim && device_args) {
const char *param = NULL;
/* Always pass the target's name, per
* https://github.com/ClusterLabs/fence-agents/blob/master/doc/FenceAgentAPI.md
*/
g_hash_table_insert(arg_list, strdup("nodename"), strdup(victim));
// If the target's node ID was specified, pass it, too
if (victim_nodeid) {
char *nodeid = crm_strdup_printf("%" PRIu32, victim_nodeid);
// cts-fencing looks for this log message
crm_info("Passing '%s' as nodeid with fence action '%s' targeting %s",
nodeid, action, victim);
g_hash_table_insert(arg_list, strdup("nodeid"), nodeid);
}
// Check whether target must be specified in some other way
param = g_hash_table_lookup(device_args, PCMK_STONITH_HOST_ARGUMENT);
if (!pcmk__str_eq(agent, "fence_legacy", pcmk__str_none)
&& !pcmk__str_eq(param, "none", pcmk__str_casei)) {
if (param == NULL) {
/* Use the caller's default for pcmk_host_argument, or "port" if
* none was given
*/
param = (host_arg == NULL)? "port" : host_arg;
}
value = g_hash_table_lookup(device_args, param);
if (pcmk__str_eq(value, "dynamic",
pcmk__str_casei|pcmk__str_null_matches)) {
/* If the host argument was "dynamic" or not explicitly specified,
* add it with the target
*/
const char *alias = NULL;
if (port_map) {
alias = g_hash_table_lookup(port_map, victim);
}
if (alias == NULL) {
alias = victim;
}
crm_debug("Passing %s='%s' with fence action %s targeting %s",
param, alias, action, victim);
g_hash_table_insert(arg_list, strdup(param), strdup(alias));
}
}
}
if (device_args) {
g_hash_table_foreach(device_args, append_config_arg, arg_list);
}
return arg_list;
}
/*!
* \internal
* \brief Free all memory used by a stonith action
*
* \param[in,out] action Action to free
*/
void
stonith__destroy_action(stonith_action_t *action)
{
if (action) {
free(action->agent);
if (action->args) {
g_hash_table_destroy(action->args);
}
free(action->action);
free(action->victim);
if (action->svc_action) {
services_action_free(action->svc_action);
}
free(action->output);
free(action->error);
free(action);
}
}
/*!
* \internal
* \brief Get the result of an executed stonith action
*
* \param[in,out] action Executed action
* \param[out] rc Where to store result code (or NULL)
* \param[out] output Where to store standard output (or NULL)
* \param[out] error_output Where to store standard error output (or NULL)
*
* \note If output or error_output is not NULL, the caller is responsible for
* freeing the memory.
*/
void
stonith__action_result(stonith_action_t *action, int *rc, char **output,
char **error_output)
{
if (rc) {
*rc = pcmk_ok;
}
if (output) {
*output = NULL;
}
if (error_output) {
*error_output = NULL;
}
if (action != NULL) {
if (rc) {
*rc = action->rc;
}
if (output && action->output) {
*output = action->output;
action->output = NULL; // hand off memory management to caller
}
if (error_output && action->error) {
*error_output = action->error;
action->error = NULL; // hand off memory management to caller
}
}
}
#define FAILURE_MAX_RETRIES 2
stonith_action_t *
stonith_action_create(const char *agent,
const char *_action,
const char *victim,
uint32_t victim_nodeid,
int timeout, GHashTable * device_args,
GHashTable * port_map, const char *host_arg)
{
stonith_action_t *action;
action = calloc(1, sizeof(stonith_action_t));
action->args = make_args(agent, _action, victim, victim_nodeid,
device_args, port_map, host_arg);
crm_debug("Preparing '%s' action for %s using agent %s",
_action, (victim? victim : "no target"), agent);
action->agent = strdup(agent);
action->action = strdup(_action);
if (victim) {
action->victim = strdup(victim);
}
action->timeout = action->remaining_timeout = timeout;
action->max_retries = FAILURE_MAX_RETRIES;
if (device_args) {
char buffer[512];
const char *value = NULL;
snprintf(buffer, sizeof(buffer), "pcmk_%s_retries", _action);
value = g_hash_table_lookup(device_args, buffer);
if (value) {
action->max_retries = atoi(value);
}
}
return action;
}
static gboolean
update_remaining_timeout(stonith_action_t * action)
{
int diff = time(NULL) - action->initial_start_time;
if (action->tries >= action->max_retries) {
crm_info("Attempted to execute agent %s (%s) the maximum number of times (%d) allowed",
action->agent, action->action, action->max_retries);
action->remaining_timeout = 0;
} else if ((action->rc != -ETIME) && diff < (action->timeout * 0.7)) {
/* only set remaining timeout period if there is 30%
* or greater of the original timeout period left */
action->remaining_timeout = action->timeout - diff;
} else {
action->remaining_timeout = 0;
}
return action->remaining_timeout ? TRUE : FALSE;
}
static int
svc_action_to_errno(svc_action_t *svc_action) {
int rv = pcmk_ok;
if (svc_action->rc > 0) {
/* Try to provide a useful error code based on the fence agent's
* error output.
*/
if (svc_action->rc == PCMK_OCF_TIMEOUT) {
rv = -ETIME;
} else if (svc_action->stderr_data == NULL) {
rv = -ENODATA;
} else if (strstr(svc_action->stderr_data, "imed out")) {
/* Some agents have their own internal timeouts */
rv = -ETIME;
} else if (strstr(svc_action->stderr_data, "Unrecognised action")) {
rv = -EOPNOTSUPP;
} else {
rv = -pcmk_err_generic;
}
}
return rv;
}
static void
stonith_action_async_done(svc_action_t *svc_action)
{
stonith_action_t *action = (stonith_action_t *) svc_action->cb_data;
action->rc = svc_action_to_errno(svc_action);
action->output = svc_action->stdout_data;
svc_action->stdout_data = NULL;
action->error = svc_action->stderr_data;
svc_action->stderr_data = NULL;
svc_action->params = NULL;
crm_debug("Child process %d performing action '%s' exited with rc %d",
action->pid, action->action, svc_action->rc);
log_action(action, action->pid);
if (action->rc != pcmk_ok && update_remaining_timeout(action)) {
int rc = internal_stonith_action_execute(action);
if (rc == pcmk_ok) {
return;
}
}
if (action->done_cb) {
action->done_cb(action->pid, action->rc, action->output, action->userdata);
}
action->svc_action = NULL; // don't remove our caller
stonith__destroy_action(action);
}
static void
stonith_action_async_forked(svc_action_t *svc_action)
{
stonith_action_t *action = (stonith_action_t *) svc_action->cb_data;
action->pid = svc_action->pid;
action->svc_action = svc_action;
if (action->fork_cb) {
(action->fork_cb) (svc_action->pid, action->userdata);
}
crm_trace("Child process %d performing action '%s' successfully forked",
action->pid, action->action);
}
static int
internal_stonith_action_execute(stonith_action_t * action)
{
int rc = -EPROTO;
int is_retry = 0;
svc_action_t *svc_action = NULL;
static int stonith_sequence = 0;
char *buffer = NULL;
if (!action->tries) {
action->initial_start_time = time(NULL);
}
action->tries++;
if (action->tries > 1) {
crm_info("Attempt %d to execute %s (%s). remaining timeout is %d",
action->tries, action->agent, action->action, action->remaining_timeout);
is_retry = 1;
}
if (action->args == NULL || action->agent == NULL)
goto fail;
buffer = crm_strdup_printf(PCMK__FENCE_BINDIR "/%s",
basename(action->agent));
svc_action = services_action_create_generic(buffer, NULL);
free(buffer);
svc_action->timeout = 1000 * action->remaining_timeout;
svc_action->standard = strdup(PCMK_RESOURCE_CLASS_STONITH);
svc_action->id = crm_strdup_printf("%s_%s_%d", basename(action->agent),
action->action, action->tries);
svc_action->agent = strdup(action->agent);
svc_action->sequence = stonith_sequence++;
svc_action->params = action->args;
svc_action->cb_data = (void *) action;
svc_action->flags = pcmk__set_flags_as(__func__, __LINE__,
LOG_TRACE, "Action",
svc_action->id, svc_action->flags,
SVC_ACTION_NON_BLOCKED,
"SVC_ACTION_NON_BLOCKED");
/* keep retries from executing out of control and free previous results */
if (is_retry) {
free(action->output);
action->output = NULL;
free(action->error);
action->error = NULL;
sleep(1);
}
if (action->async) {
/* async */
if(services_action_async_fork_notify(svc_action,
&stonith_action_async_done,
&stonith_action_async_forked) == FALSE) {
services_action_free(svc_action);
svc_action = NULL;
} else {
rc = 0;
}
} else {
/* sync */
if (services_action_sync(svc_action)) {
rc = 0;
action->rc = svc_action_to_errno(svc_action);
action->output = svc_action->stdout_data;
svc_action->stdout_data = NULL;
action->error = svc_action->stderr_data;
svc_action->stderr_data = NULL;
} else {
action->rc = -ECONNABORTED;
rc = action->rc;
}
svc_action->params = NULL;
services_action_free(svc_action);
}
fail:
return rc;
}
/*!
* \internal
* \brief Kick off execution of an async stonith action
*
* \param[in,out] action Action to be executed
* \param[in,out] userdata Datapointer to be passed to callbacks
* \param[in] done Callback to notify action has failed/succeeded
* \param[in] fork_callback Callback to notify successful fork of child
*
* \return pcmk_ok if ownership of action has been taken, -errno otherwise
*/
int
stonith_action_execute_async(stonith_action_t * action,
void *userdata,
void (*done) (GPid pid, int rc, const char *output,
gpointer user_data),
void (*fork_cb) (GPid pid, gpointer user_data))
{
if (!action) {
return -EINVAL;
}
action->userdata = userdata;
action->done_cb = done;
action->fork_cb = fork_cb;
action->async = 1;
return internal_stonith_action_execute(action);
}
/*!
* \internal
* \brief Execute a stonith action
*
* \param[in,out] action Action to execute
*
* \return pcmk_ok on success, -errno otherwise
*/
int
stonith__execute(stonith_action_t *action)
{
int rc = pcmk_ok;
CRM_CHECK(action != NULL, return -EINVAL);
// Keep trying until success, max retries, or timeout
do {
rc = internal_stonith_action_execute(action);
} while ((rc != pcmk_ok) && update_remaining_timeout(action));
return rc;
}
static int
stonith_api_device_list(stonith_t * stonith, int call_options, const char *namespace,
stonith_key_value_t ** devices, int timeout)
{
int count = 0;
enum stonith_namespace ns = stonith_text2namespace(namespace);
if (devices == NULL) {
crm_err("Parameter error: stonith_api_device_list");
return -EFAULT;
}
#if HAVE_STONITH_STONITH_H
// Include Linux-HA agents if requested
if ((ns == st_namespace_any) || (ns == st_namespace_lha)) {
count += stonith__list_lha_agents(devices);
}
#endif
// Include Red Hat agents if requested
if ((ns == st_namespace_any) || (ns == st_namespace_rhcs)) {
count += stonith__list_rhcs_agents(devices);
}
return count;
}
static int
stonith_api_device_metadata(stonith_t * stonith, int call_options, const char *agent,
const char *namespace, char **output, int timeout)
{
/* By executing meta-data directly, we can get it from stonith_admin when
* the cluster is not running, which is important for higher-level tools.
*/
enum stonith_namespace ns = stonith_get_namespace(agent, namespace);
crm_trace("Looking up metadata for %s agent %s",
stonith_namespace2text(ns), agent);
switch (ns) {
case st_namespace_rhcs:
return stonith__rhcs_metadata(agent, timeout, output);
#if HAVE_STONITH_STONITH_H
case st_namespace_lha:
return stonith__lha_metadata(agent, timeout, output);
#endif
default:
crm_err("Can't get fence agent '%s' meta-data: No such agent",
agent);
break;
}
return -ENODEV;
}
static int
stonith_api_query(stonith_t * stonith, int call_options, const char *target,
stonith_key_value_t ** devices, int timeout)
{
int rc = 0, lpc = 0, max = 0;
xmlNode *data = NULL;
xmlNode *output = NULL;
xmlXPathObjectPtr xpathObj = NULL;
CRM_CHECK(devices != NULL, return -EINVAL);
data = create_xml_node(NULL, F_STONITH_DEVICE);
crm_xml_add(data, F_STONITH_ORIGIN, __func__);
crm_xml_add(data, F_STONITH_TARGET, target);
crm_xml_add(data, F_STONITH_ACTION, "off");
rc = stonith_send_command(stonith, STONITH_OP_QUERY, data, &output, call_options, timeout);
if (rc < 0) {
return rc;
}
xpathObj = xpath_search(output, "//@agent");
if (xpathObj) {
max = numXpathResults(xpathObj);
for (lpc = 0; lpc < max; lpc++) {
xmlNode *match = getXpathResult(xpathObj, lpc);
CRM_LOG_ASSERT(match != NULL);
if(match != NULL) {
xmlChar *match_path = xmlGetNodePath(match);
crm_info("%s[%d] = %s", "//@agent", lpc, match_path);
free(match_path);
*devices = stonith_key_value_add(*devices, NULL, crm_element_value(match, XML_ATTR_ID));
}
}
freeXpathObject(xpathObj);
}
free_xml(output);
free_xml(data);
return max;
}
static int
stonith_api_call(stonith_t * stonith,
int call_options,
const char *id,
const char *action, const char *victim, int timeout, xmlNode ** output)
{
int rc = 0;
xmlNode *data = NULL;
data = create_xml_node(NULL, F_STONITH_DEVICE);
crm_xml_add(data, F_STONITH_ORIGIN, __func__);
crm_xml_add(data, F_STONITH_DEVICE, id);
crm_xml_add(data, F_STONITH_ACTION, action);
crm_xml_add(data, F_STONITH_TARGET, victim);
rc = stonith_send_command(stonith, STONITH_OP_EXEC, data, output, call_options, timeout);
free_xml(data);
return rc;
}
static int
stonith_api_list(stonith_t * stonith, int call_options, const char *id, char **list_info,
int timeout)
{
int rc;
xmlNode *output = NULL;
rc = stonith_api_call(stonith, call_options, id, "list", NULL, timeout, &output);
if (output && list_info) {
const char *list_str;
list_str = crm_element_value(output, "st_output");
if (list_str) {
*list_info = strdup(list_str);
}
}
if (output) {
free_xml(output);
}
return rc;
}
static int
stonith_api_monitor(stonith_t * stonith, int call_options, const char *id, int timeout)
{
return stonith_api_call(stonith, call_options, id, "monitor", NULL, timeout, NULL);
}
static int
stonith_api_status(stonith_t * stonith, int call_options, const char *id, const char *port,
int timeout)
{
return stonith_api_call(stonith, call_options, id, "status", port, timeout, NULL);
}
static int
stonith_api_fence_with_delay(stonith_t * stonith, int call_options, const char *node,
const char *action, int timeout, int tolerance, int delay)
{
int rc = 0;
xmlNode *data = NULL;
data = create_xml_node(NULL, __func__);
crm_xml_add(data, F_STONITH_TARGET, node);
crm_xml_add(data, F_STONITH_ACTION, action);
crm_xml_add_int(data, F_STONITH_TIMEOUT, timeout);
crm_xml_add_int(data, F_STONITH_TOLERANCE, tolerance);
crm_xml_add_int(data, F_STONITH_DELAY, delay);
rc = stonith_send_command(stonith, STONITH_OP_FENCE, data, NULL, call_options, timeout);
free_xml(data);
return rc;
}
static int
stonith_api_fence(stonith_t * stonith, int call_options, const char *node, const char *action,
int timeout, int tolerance)
{
return stonith_api_fence_with_delay(stonith, call_options, node, action,
timeout, tolerance, 0);
}
static int
stonith_api_confirm(stonith_t * stonith, int call_options, const char *target)
{
stonith__set_call_options(call_options, target, st_opt_manual_ack);
return stonith_api_fence(stonith, call_options, target, "off", 0, 0);
}
static int
stonith_api_history(stonith_t * stonith, int call_options, const char *node,
stonith_history_t ** history, int timeout)
{
int rc = 0;
xmlNode *data = NULL;
xmlNode *output = NULL;
stonith_history_t *last = NULL;
*history = NULL;
if (node) {
data = create_xml_node(NULL, __func__);
crm_xml_add(data, F_STONITH_TARGET, node);
}
stonith__set_call_options(call_options, node, st_opt_sync_call);
rc = stonith_send_command(stonith, STONITH_OP_FENCE_HISTORY, data, &output,
call_options, timeout);
free_xml(data);
if (rc == 0) {
xmlNode *op = NULL;
xmlNode *reply = get_xpath_object("//" F_STONITH_HISTORY_LIST, output,
LOG_NEVER);
for (op = pcmk__xml_first_child(reply); op != NULL;
op = pcmk__xml_next(op)) {
stonith_history_t *kvp;
long long completed;
long long completed_nsec = 0L;
kvp = calloc(1, sizeof(stonith_history_t));
kvp->target = crm_element_value_copy(op, F_STONITH_TARGET);
kvp->action = crm_element_value_copy(op, F_STONITH_ACTION);
kvp->origin = crm_element_value_copy(op, F_STONITH_ORIGIN);
kvp->delegate = crm_element_value_copy(op, F_STONITH_DELEGATE);
kvp->client = crm_element_value_copy(op, F_STONITH_CLIENTNAME);
crm_element_value_ll(op, F_STONITH_DATE, &completed);
kvp->completed = (time_t) completed;
crm_element_value_ll(op, F_STONITH_DATE_NSEC, &completed_nsec);
kvp->completed_nsec = completed_nsec;
crm_element_value_int(op, F_STONITH_STATE, &kvp->state);
if (last) {
last->next = kvp;
} else {
*history = kvp;
}
last = kvp;
}
}
free_xml(output);
return rc;
}
void stonith_history_free(stonith_history_t *history)
{
stonith_history_t *hp, *hp_old;
for (hp = history; hp; hp_old = hp, hp = hp->next, free(hp_old)) {
free(hp->target);
free(hp->action);
free(hp->origin);
free(hp->delegate);
free(hp->client);
}
}
static gint
stonithlib_GCompareFunc(gconstpointer a, gconstpointer b)
{
int rc = 0;
const stonith_notify_client_t *a_client = a;
const stonith_notify_client_t *b_client = b;
if (a_client->delete || b_client->delete) {
/* make entries marked for deletion not findable */
return -1;
}
CRM_CHECK(a_client->event != NULL && b_client->event != NULL, return 0);
rc = strcmp(a_client->event, b_client->event);
if (rc == 0) {
if (a_client->notify == NULL || b_client->notify == NULL) {
return 0;
} else if (a_client->notify == b_client->notify) {
return 0;
} else if (((long)a_client->notify) < ((long)b_client->notify)) {
crm_err("callbacks for %s are not equal: %p vs. %p",
a_client->event, a_client->notify, b_client->notify);
return -1;
}
crm_err("callbacks for %s are not equal: %p vs. %p",
a_client->event, a_client->notify, b_client->notify);
return 1;
}
return rc;
}
xmlNode *
stonith_create_op(int call_id, const char *token, const char *op, xmlNode * data, int call_options)
{
xmlNode *op_msg = create_xml_node(NULL, "stonith_command");
CRM_CHECK(op_msg != NULL, return NULL);
CRM_CHECK(token != NULL, return NULL);
crm_xml_add(op_msg, F_XML_TAGNAME, "stonith_command");
crm_xml_add(op_msg, F_TYPE, T_STONITH_NG);
crm_xml_add(op_msg, F_STONITH_CALLBACK_TOKEN, token);
crm_xml_add(op_msg, F_STONITH_OPERATION, op);
crm_xml_add_int(op_msg, F_STONITH_CALLID, call_id);
crm_trace("Sending call options: %.8lx, %d", (long)call_options, call_options);
crm_xml_add_int(op_msg, F_STONITH_CALLOPTS, call_options);
if (data != NULL) {
add_message_xml(op_msg, F_STONITH_CALLDATA, data);
}
return op_msg;
}
static void
stonith_destroy_op_callback(gpointer data)
{
stonith_callback_client_t *blob = data;
if (blob->timer && blob->timer->ref > 0) {
g_source_remove(blob->timer->ref);
}
free(blob->timer);
free(blob);
}
static int
stonith_api_signoff(stonith_t * stonith)
{
stonith_private_t *native = stonith->st_private;
crm_debug("Disconnecting from the fencer");
if (native->source != NULL) {
/* Attached to mainloop */
mainloop_del_ipc_client(native->source);
native->source = NULL;
native->ipc = NULL;
} else if (native->ipc) {
/* Not attached to mainloop */
crm_ipc_t *ipc = native->ipc;
native->ipc = NULL;
crm_ipc_close(ipc);
crm_ipc_destroy(ipc);
}
free(native->token); native->token = NULL;
stonith->state = stonith_disconnected;
return pcmk_ok;
}
static int
stonith_api_del_callback(stonith_t * stonith, int call_id, bool all_callbacks)
{
stonith_private_t *private = stonith->st_private;
if (all_callbacks) {
private->op_callback = NULL;
g_hash_table_destroy(private->stonith_op_callback_table);
private->stonith_op_callback_table = pcmk__intkey_table(stonith_destroy_op_callback);
} else if (call_id == 0) {
private->op_callback = NULL;
} else {
pcmk__intkey_table_remove(private->stonith_op_callback_table, call_id);
}
return pcmk_ok;
}
static void
invoke_callback(stonith_t * st, int call_id, int rc, void *userdata,
void (*callback) (stonith_t * st, stonith_callback_data_t * data))
{
stonith_callback_data_t data = { 0, };
data.call_id = call_id;
data.rc = rc;
data.userdata = userdata;
callback(st, &data);
}
static void
stonith_perform_callback(stonith_t * stonith, xmlNode * msg, int call_id, int rc)
{
stonith_private_t *private = NULL;
stonith_callback_client_t *blob = NULL;
stonith_callback_client_t local_blob;
CRM_CHECK(stonith != NULL, return);
CRM_CHECK(stonith->st_private != NULL, return);
private = stonith->st_private;
local_blob.id = NULL;
local_blob.callback = NULL;
local_blob.user_data = NULL;
local_blob.only_success = FALSE;
if (msg != NULL) {
crm_element_value_int(msg, F_STONITH_RC, &rc);
crm_element_value_int(msg, F_STONITH_CALLID, &call_id);
}
CRM_CHECK(call_id > 0, crm_log_xml_err(msg, "Bad result"));
blob = pcmk__intkey_table_lookup(private->stonith_op_callback_table,
call_id);
if (blob != NULL) {
local_blob = *blob;
blob = NULL;
stonith_api_del_callback(stonith, call_id, FALSE);
} else {
crm_trace("No callback found for call %d", call_id);
local_blob.callback = NULL;
}
if (local_blob.callback != NULL && (rc == pcmk_ok || local_blob.only_success == FALSE)) {
crm_trace("Invoking callback %s for call %d", crm_str(local_blob.id), call_id);
invoke_callback(stonith, call_id, rc, local_blob.user_data, local_blob.callback);
} else if (private->op_callback == NULL && rc != pcmk_ok) {
crm_warn("Fencing command failed: %s", pcmk_strerror(rc));
crm_log_xml_debug(msg, "Failed fence update");
}
if (private->op_callback != NULL) {
crm_trace("Invoking global callback for call %d", call_id);
invoke_callback(stonith, call_id, rc, NULL, private->op_callback);
}
crm_trace("OP callback activated.");
}
static gboolean
stonith_async_timeout_handler(gpointer data)
{
struct timer_rec_s *timer = data;
crm_err("Async call %d timed out after %dms", timer->call_id, timer->timeout);
stonith_perform_callback(timer->stonith, NULL, timer->call_id, -ETIME);
/* Always return TRUE, never remove the handler
* We do that in stonith_del_callback()
*/
return TRUE;
}
static void
set_callback_timeout(stonith_callback_client_t * callback, stonith_t * stonith, int call_id,
int timeout)
{
struct timer_rec_s *async_timer = callback->timer;
if (timeout <= 0) {
return;
}
if (!async_timer) {
async_timer = calloc(1, sizeof(struct timer_rec_s));
callback->timer = async_timer;
}
async_timer->stonith = stonith;
async_timer->call_id = call_id;
/* Allow a fair bit of grace to allow the server to tell us of a timeout
* This is only a fallback
*/
async_timer->timeout = (timeout + 60) * 1000;
if (async_timer->ref) {
g_source_remove(async_timer->ref);
}
async_timer->ref =
g_timeout_add(async_timer->timeout, stonith_async_timeout_handler, async_timer);
}
static void
update_callback_timeout(int call_id, int timeout, stonith_t * st)
{
stonith_callback_client_t *callback = NULL;
stonith_private_t *private = st->st_private;
callback = pcmk__intkey_table_lookup(private->stonith_op_callback_table,
call_id);
if (!callback || !callback->allow_timeout_updates) {
return;
}
set_callback_timeout(callback, st, call_id, timeout);
}
static int
stonith_dispatch_internal(const char *buffer, ssize_t length, gpointer userdata)
{
const char *type = NULL;
struct notify_blob_s blob;
stonith_t *st = userdata;
stonith_private_t *private = NULL;
CRM_ASSERT(st != NULL);
private = st->st_private;
blob.stonith = st;
blob.xml = string2xml(buffer);
if (blob.xml == NULL) {
crm_warn("Received malformed message from fencer: %s", buffer);
return 0;
}
/* do callbacks */
type = crm_element_value(blob.xml, F_TYPE);
crm_trace("Activating %s callbacks...", type);
if (pcmk__str_eq(type, T_STONITH_NG, pcmk__str_casei)) {
stonith_perform_callback(st, blob.xml, 0, 0);
} else if (pcmk__str_eq(type, T_STONITH_NOTIFY, pcmk__str_casei)) {
foreach_notify_entry(private, stonith_send_notification, &blob);
} else if (pcmk__str_eq(type, T_STONITH_TIMEOUT_VALUE, pcmk__str_casei)) {
int call_id = 0;
int timeout = 0;
crm_element_value_int(blob.xml, F_STONITH_TIMEOUT, &timeout);
crm_element_value_int(blob.xml, F_STONITH_CALLID, &call_id);
update_callback_timeout(call_id, timeout, st);
} else {
crm_err("Unknown message type: %s", type);
crm_log_xml_warn(blob.xml, "BadReply");
}
free_xml(blob.xml);
return 1;
}
static int
stonith_api_signon(stonith_t * stonith, const char *name, int *stonith_fd)
{
int rc = pcmk_ok;
stonith_private_t *native = NULL;
const char *display_name = name? name : "client";
struct ipc_client_callbacks st_callbacks = {
.dispatch = stonith_dispatch_internal,
.destroy = stonith_connection_destroy
};
CRM_CHECK(stonith != NULL, return -EINVAL);
native = stonith->st_private;
CRM_ASSERT(native != NULL);
crm_debug("Attempting fencer connection by %s with%s mainloop",
display_name, (stonith_fd? "out" : ""));
stonith->state = stonith_connected_command;
if (stonith_fd) {
/* No mainloop */
native->ipc = crm_ipc_new("stonith-ng", 0);
if (native->ipc && crm_ipc_connect(native->ipc)) {
*stonith_fd = crm_ipc_get_fd(native->ipc);
} else if (native->ipc) {
crm_ipc_close(native->ipc);
crm_ipc_destroy(native->ipc);
native->ipc = NULL;
}
} else {
/* With mainloop */
native->source =
mainloop_add_ipc_client("stonith-ng", G_PRIORITY_MEDIUM, 0, stonith, &st_callbacks);
native->ipc = mainloop_get_ipc_client(native->source);
}
if (native->ipc == NULL) {
rc = -ENOTCONN;
} else {
xmlNode *reply = NULL;
xmlNode *hello = create_xml_node(NULL, "stonith_command");
crm_xml_add(hello, F_TYPE, T_STONITH_NG);
crm_xml_add(hello, F_STONITH_OPERATION, CRM_OP_REGISTER);
crm_xml_add(hello, F_STONITH_CLIENTNAME, name);
rc = crm_ipc_send(native->ipc, hello, crm_ipc_client_response, -1, &reply);
if (rc < 0) {
crm_debug("Couldn't register with the fencer: %s "
CRM_XS " rc=%d", pcmk_strerror(rc), rc);
rc = -ECOMM;
} else if (reply == NULL) {
crm_debug("Couldn't register with the fencer: no reply");
rc = -EPROTO;
} else {
const char *msg_type = crm_element_value(reply, F_STONITH_OPERATION);
native->token = crm_element_value_copy(reply, F_STONITH_CLIENTID);
if (!pcmk__str_eq(msg_type, CRM_OP_REGISTER, pcmk__str_casei)) {
crm_debug("Couldn't register with the fencer: invalid reply type '%s'",
(msg_type? msg_type : "(missing)"));
crm_log_xml_debug(reply, "Invalid fencer reply");
rc = -EPROTO;
} else if (native->token == NULL) {
crm_debug("Couldn't register with the fencer: no token in reply");
crm_log_xml_debug(reply, "Invalid fencer reply");
rc = -EPROTO;
} else {
#if HAVE_MSGFROMIPC_TIMEOUT
stonith->call_timeout = PCMK__IPC_TIMEOUT;
#endif
crm_debug("Connection to fencer by %s succeeded (registration token: %s)",
display_name, native->token);
rc = pcmk_ok;
}
}
free_xml(reply);
free_xml(hello);
}
if (rc != pcmk_ok) {
crm_debug("Connection attempt to fencer by %s failed: %s "
CRM_XS " rc=%d", display_name, pcmk_strerror(rc), rc);
stonith->cmds->disconnect(stonith);
}
return rc;
}
static int
stonith_set_notification(stonith_t * stonith, const char *callback, int enabled)
{
int rc = pcmk_ok;
xmlNode *notify_msg = create_xml_node(NULL, __func__);
stonith_private_t *native = stonith->st_private;
if (stonith->state != stonith_disconnected) {
crm_xml_add(notify_msg, F_STONITH_OPERATION, T_STONITH_NOTIFY);
if (enabled) {
crm_xml_add(notify_msg, F_STONITH_NOTIFY_ACTIVATE, callback);
} else {
crm_xml_add(notify_msg, F_STONITH_NOTIFY_DEACTIVATE, callback);
}
rc = crm_ipc_send(native->ipc, notify_msg, crm_ipc_client_response, -1, NULL);
if (rc < 0) {
crm_perror(LOG_DEBUG, "Couldn't register for fencing notifications: %d", rc);
rc = -ECOMM;
} else {
rc = pcmk_ok;
}
}
free_xml(notify_msg);
return rc;
}
static int
stonith_api_add_notification(stonith_t * stonith, const char *event,
void (*callback) (stonith_t * stonith, stonith_event_t * e))
{
GList *list_item = NULL;
stonith_notify_client_t *new_client = NULL;
stonith_private_t *private = NULL;
private = stonith->st_private;
crm_trace("Adding callback for %s events (%d)", event, g_list_length(private->notify_list));
new_client = calloc(1, sizeof(stonith_notify_client_t));
new_client->event = event;
new_client->notify = callback;
list_item = g_list_find_custom(private->notify_list, new_client, stonithlib_GCompareFunc);
if (list_item != NULL) {
crm_warn("Callback already present");
free(new_client);
return -ENOTUNIQ;
} else {
private->notify_list = g_list_append(private->notify_list, new_client);
stonith_set_notification(stonith, event, 1);
crm_trace("Callback added (%d)", g_list_length(private->notify_list));
}
return pcmk_ok;
}
static int
stonith_api_del_notification(stonith_t * stonith, const char *event)
{
GList *list_item = NULL;
stonith_notify_client_t *new_client = NULL;
stonith_private_t *private = NULL;
crm_debug("Removing callback for %s events", event);
private = stonith->st_private;
new_client = calloc(1, sizeof(stonith_notify_client_t));
new_client->event = event;
new_client->notify = NULL;
list_item = g_list_find_custom(private->notify_list, new_client, stonithlib_GCompareFunc);
stonith_set_notification(stonith, event, 0);
if (list_item != NULL) {
stonith_notify_client_t *list_client = list_item->data;
if (private->notify_refcnt) {
list_client->delete = TRUE;
private->notify_deletes = TRUE;
} else {
private->notify_list = g_list_remove(private->notify_list, list_client);
free(list_client);
}
crm_trace("Removed callback");
} else {
crm_trace("Callback not present");
}
free(new_client);
return pcmk_ok;
}
static int
stonith_api_add_callback(stonith_t * stonith, int call_id, int timeout, int options,
void *user_data, const char *callback_name,
void (*callback) (stonith_t * st, stonith_callback_data_t * data))
{
stonith_callback_client_t *blob = NULL;
stonith_private_t *private = NULL;
CRM_CHECK(stonith != NULL, return -EINVAL);
CRM_CHECK(stonith->st_private != NULL, return -EINVAL);
private = stonith->st_private;
if (call_id == 0) {
private->op_callback = callback;
} else if (call_id < 0) {
if (!(options & st_opt_report_only_success)) {
crm_trace("Call failed, calling %s: %s", callback_name, pcmk_strerror(call_id));
invoke_callback(stonith, call_id, call_id, user_data, callback);
} else {
crm_warn("Fencer call failed: %s", pcmk_strerror(call_id));
}
return FALSE;
}
blob = calloc(1, sizeof(stonith_callback_client_t));
blob->id = callback_name;
blob->only_success = (options & st_opt_report_only_success) ? TRUE : FALSE;
blob->user_data = user_data;
blob->callback = callback;
blob->allow_timeout_updates = (options & st_opt_timeout_updates) ? TRUE : FALSE;
if (timeout > 0) {
set_callback_timeout(blob, stonith, call_id, timeout);
}
pcmk__intkey_table_insert(private->stonith_op_callback_table, call_id,
blob);
crm_trace("Added callback to %s for call %d", callback_name, call_id);
return TRUE;
}
static void
stonith_dump_pending_op(gpointer key, gpointer value, gpointer user_data)
{
int call = GPOINTER_TO_INT(key);
stonith_callback_client_t *blob = value;
crm_debug("Call %d (%s): pending", call, crm_str(blob->id));
}
void
stonith_dump_pending_callbacks(stonith_t * stonith)
{
stonith_private_t *private = stonith->st_private;
if (private->stonith_op_callback_table == NULL) {
return;
}
return g_hash_table_foreach(private->stonith_op_callback_table, stonith_dump_pending_op, NULL);
}
/*
*/
static stonith_event_t *
xml_to_event(xmlNode * msg)
{
stonith_event_t *event = calloc(1, sizeof(stonith_event_t));
const char *ntype = crm_element_value(msg, F_SUBTYPE);
char *data_addr = crm_strdup_printf("//%s", ntype);
xmlNode *data = get_xpath_object(data_addr, msg, LOG_DEBUG);
crm_log_xml_trace(msg, "stonith_notify");
crm_element_value_int(msg, F_STONITH_RC, &(event->result));
if (pcmk__str_eq(ntype, T_STONITH_NOTIFY_FENCE, pcmk__str_casei)) {
event->operation = crm_element_value_copy(msg, F_STONITH_OPERATION);
if (data) {
event->origin = crm_element_value_copy(data, F_STONITH_ORIGIN);
event->action = crm_element_value_copy(data, F_STONITH_ACTION);
event->target = crm_element_value_copy(data, F_STONITH_TARGET);
event->executioner = crm_element_value_copy(data, F_STONITH_DELEGATE);
event->id = crm_element_value_copy(data, F_STONITH_REMOTE_OP_ID);
event->client_origin = crm_element_value_copy(data, F_STONITH_CLIENTNAME);
event->device = crm_element_value_copy(data, F_STONITH_DEVICE);
} else {
crm_err("No data for %s event", ntype);
crm_log_xml_notice(msg, "BadEvent");
}
}
free(data_addr);
return event;
}
static void
event_free(stonith_event_t * event)
{
free(event->id);
free(event->type);
free(event->message);
free(event->operation);
free(event->origin);
free(event->action);
free(event->target);
free(event->executioner);
free(event->device);
free(event->client_origin);
free(event);
}
static void
stonith_send_notification(gpointer data, gpointer user_data)
{
struct notify_blob_s *blob = user_data;
stonith_notify_client_t *entry = data;
stonith_event_t *st_event = NULL;
const char *event = NULL;
if (blob->xml == NULL) {
crm_warn("Skipping callback - NULL message");
return;
}
event = crm_element_value(blob->xml, F_SUBTYPE);
if (entry == NULL) {
crm_warn("Skipping callback - NULL callback client");
return;
} else if (entry->delete) {
crm_trace("Skipping callback - marked for deletion");
return;
} else if (entry->notify == NULL) {
crm_warn("Skipping callback - NULL callback");
return;
} else if (!pcmk__str_eq(entry->event, event, pcmk__str_casei)) {
crm_trace("Skipping callback - event mismatch %p/%s vs. %s", entry, entry->event, event);
return;
}
st_event = xml_to_event(blob->xml);
crm_trace("Invoking callback for %p/%s event...", entry, event);
entry->notify(blob->stonith, st_event);
crm_trace("Callback invoked...");
event_free(st_event);
}
/*!
* \internal
* \brief Create and send an API request
*
* \param[in] stonith Stonith connection
* \param[in] op API operation to request
* \param[in] data Data to attach to request
* \param[out] output_data If not NULL, will be set to reply if synchronous
* \param[in] call_options Bitmask of stonith_call_options to use
* \param[in] timeout Error if not completed within this many seconds
*
* \return pcmk_ok (for synchronous requests) or positive call ID
* (for asynchronous requests) on success, -errno otherwise
*/
static int
stonith_send_command(stonith_t * stonith, const char *op, xmlNode * data, xmlNode ** output_data,
int call_options, int timeout)
{
int rc = 0;
int reply_id = -1;
xmlNode *op_msg = NULL;
xmlNode *op_reply = NULL;
stonith_private_t *native = NULL;
CRM_ASSERT(stonith && stonith->st_private && op);
native = stonith->st_private;
if (output_data != NULL) {
*output_data = NULL;
}
if ((stonith->state == stonith_disconnected) || (native->token == NULL)) {
return -ENOTCONN;
}
/* Increment the call ID, which must be positive to avoid conflicting with
* error codes. This shouldn't be a problem unless the client mucked with
* it or the counter wrapped around.
*/
stonith->call_id++;
if (stonith->call_id < 1) {
stonith->call_id = 1;
}
op_msg = stonith_create_op(stonith->call_id, native->token, op, data, call_options);
if (op_msg == NULL) {
return -EINVAL;
}
crm_xml_add_int(op_msg, F_STONITH_TIMEOUT, timeout);
crm_trace("Sending %s message to fencer with timeout %ds", op, timeout);
if (data) {
const char *delay_s = crm_element_value(data, F_STONITH_DELAY);
if (delay_s) {
crm_xml_add(op_msg, F_STONITH_DELAY, delay_s);
}
}
{
enum crm_ipc_flags ipc_flags = crm_ipc_flags_none;
if (call_options & st_opt_sync_call) {
pcmk__set_ipc_flags(ipc_flags, "stonith command",
crm_ipc_client_response);
}
rc = crm_ipc_send(native->ipc, op_msg, ipc_flags,
1000 * (timeout + 60), &op_reply);
}
free_xml(op_msg);
if (rc < 0) {
crm_perror(LOG_ERR, "Couldn't perform %s operation (timeout=%ds): %d", op, timeout, rc);
rc = -ECOMM;
goto done;
}
crm_log_xml_trace(op_reply, "Reply");
if (!(call_options & st_opt_sync_call)) {
crm_trace("Async call %d, returning", stonith->call_id);
free_xml(op_reply);
return stonith->call_id;
}
rc = pcmk_ok;
crm_element_value_int(op_reply, F_STONITH_CALLID, &reply_id);
if (reply_id == stonith->call_id) {
crm_trace("Synchronous reply %d received", reply_id);
if (crm_element_value_int(op_reply, F_STONITH_RC, &rc) != 0) {
rc = -ENOMSG;
}
if ((call_options & st_opt_discard_reply) || output_data == NULL) {
crm_trace("Discarding reply");
} else {
*output_data = op_reply;
op_reply = NULL; /* Prevent subsequent free */
}
} else if (reply_id <= 0) {
crm_err("Received bad reply: No id set");
crm_log_xml_err(op_reply, "Bad reply");
free_xml(op_reply);
rc = -ENOMSG;
} else {
crm_err("Received bad reply: %d (wanted %d)", reply_id, stonith->call_id);
crm_log_xml_err(op_reply, "Old reply");
free_xml(op_reply);
rc = -ENOMSG;
}
done:
if (crm_ipc_connected(native->ipc) == FALSE) {
crm_err("Fencer disconnected");
free(native->token); native->token = NULL;
stonith->state = stonith_disconnected;
}
free_xml(op_reply);
return rc;
}
/* Not used with mainloop */
bool
stonith_dispatch(stonith_t * st)
{
gboolean stay_connected = TRUE;
stonith_private_t *private = NULL;
CRM_ASSERT(st != NULL);
private = st->st_private;
while (crm_ipc_ready(private->ipc)) {
if (crm_ipc_read(private->ipc) > 0) {
const char *msg = crm_ipc_buffer(private->ipc);
stonith_dispatch_internal(msg, strlen(msg), st);
}
if (crm_ipc_connected(private->ipc) == FALSE) {
crm_err("Connection closed");
stay_connected = FALSE;
}
}
return stay_connected;
}
static int
stonith_api_free(stonith_t * stonith)
{
int rc = pcmk_ok;
crm_trace("Destroying %p", stonith);
if (stonith->state != stonith_disconnected) {
crm_trace("Disconnecting %p first", stonith);
rc = stonith->cmds->disconnect(stonith);
}
if (stonith->state == stonith_disconnected) {
stonith_private_t *private = stonith->st_private;
crm_trace("Removing %d callbacks", g_hash_table_size(private->stonith_op_callback_table));
g_hash_table_destroy(private->stonith_op_callback_table);
crm_trace("Destroying %d notification clients", g_list_length(private->notify_list));
g_list_free_full(private->notify_list, free);
free(stonith->st_private);
free(stonith->cmds);
free(stonith);
} else {
crm_err("Not free'ing active connection: %s (%d)", pcmk_strerror(rc), rc);
}
return rc;
}
void
stonith_api_delete(stonith_t * stonith)
{
crm_trace("Destroying %p", stonith);
if(stonith) {
stonith->cmds->free(stonith);
}
}
static int
stonith_api_validate(stonith_t *st, int call_options, const char *rsc_id,
const char *namespace_s, const char *agent,
stonith_key_value_t *params, int timeout, char **output,
char **error_output)
{
/* Validation should be done directly via the agent, so we can get it from
* stonith_admin when the cluster is not running, which is important for
* higher-level tools.
*/
int rc = pcmk_ok;
/* Use a dummy node name in case the agent requires a target. We assume the
* actual target doesn't matter for validation purposes (if in practice,
* that is incorrect, we will need to allow the caller to pass the target).
*/
const char *target = "node1";
const char *host_arg = NULL;
GHashTable *params_table = pcmk__strkey_table(free, free);
// Convert parameter list to a hash table
for (; params; params = params->next) {
if (pcmk__str_eq(params->key, PCMK_STONITH_HOST_ARGUMENT,
pcmk__str_casei)) {
host_arg = params->value;
}
if (!pcmk_stonith_param(params->key)) {
g_hash_table_insert(params_table, strdup(params->key),
strdup(params->value));
}
}
#if SUPPORT_CIBSECRETS
rc = pcmk__substitute_secrets(rsc_id, params_table);
if (rc != pcmk_rc_ok) {
crm_warn("Could not replace secret parameters for validation of %s: %s",
agent, pcmk_rc_str(rc));
// rc is standard return value, don't return it in this function
}
#endif
if (output) {
*output = NULL;
}
if (error_output) {
*error_output = NULL;
}
switch (stonith_get_namespace(agent, namespace_s)) {
case st_namespace_rhcs:
rc = stonith__rhcs_validate(st, call_options, target, agent,
params_table, host_arg, timeout,
output, error_output);
break;
#if HAVE_STONITH_STONITH_H
case st_namespace_lha:
rc = stonith__lha_validate(st, call_options, target, agent,
params_table, timeout, output,
error_output);
break;
#endif
default:
rc = -EINVAL;
errno = EINVAL;
crm_perror(LOG_ERR,
"Agent %s not found or does not support validation",
agent);
break;
}
g_hash_table_destroy(params_table);
return rc;
}
stonith_t *
stonith_api_new(void)
{
stonith_t *new_stonith = NULL;
stonith_private_t *private = NULL;
new_stonith = calloc(1, sizeof(stonith_t));
if (new_stonith == NULL) {
return NULL;
}
private = calloc(1, sizeof(stonith_private_t));
if (private == NULL) {
free(new_stonith);
return NULL;
}
new_stonith->st_private = private;
private->stonith_op_callback_table = pcmk__intkey_table(stonith_destroy_op_callback);
private->notify_list = NULL;
private->notify_refcnt = 0;
private->notify_deletes = FALSE;
new_stonith->call_id = 1;
new_stonith->state = stonith_disconnected;
new_stonith->cmds = calloc(1, sizeof(stonith_api_operations_t));
if (new_stonith->cmds == NULL) {
free(new_stonith->st_private);
free(new_stonith);
return NULL;
}
/* *INDENT-OFF* */
new_stonith->cmds->free = stonith_api_free;
new_stonith->cmds->connect = stonith_api_signon;
new_stonith->cmds->disconnect = stonith_api_signoff;
new_stonith->cmds->list = stonith_api_list;
new_stonith->cmds->monitor = stonith_api_monitor;
new_stonith->cmds->status = stonith_api_status;
new_stonith->cmds->fence = stonith_api_fence;
new_stonith->cmds->fence_with_delay = stonith_api_fence_with_delay;
new_stonith->cmds->confirm = stonith_api_confirm;
new_stonith->cmds->history = stonith_api_history;
new_stonith->cmds->list_agents = stonith_api_device_list;
new_stonith->cmds->metadata = stonith_api_device_metadata;
new_stonith->cmds->query = stonith_api_query;
new_stonith->cmds->remove_device = stonith_api_remove_device;
new_stonith->cmds->register_device = stonith_api_register_device;
new_stonith->cmds->remove_level = stonith_api_remove_level;
new_stonith->cmds->remove_level_full = stonith_api_remove_level_full;
new_stonith->cmds->register_level = stonith_api_register_level;
new_stonith->cmds->register_level_full = stonith_api_register_level_full;
new_stonith->cmds->remove_callback = stonith_api_del_callback;
new_stonith->cmds->register_callback = stonith_api_add_callback;
new_stonith->cmds->remove_notification = stonith_api_del_notification;
new_stonith->cmds->register_notification = stonith_api_add_notification;
new_stonith->cmds->validate = stonith_api_validate;
/* *INDENT-ON* */
return new_stonith;
}
/*!
* \brief Make a blocking connection attempt to the fencer
*
* \param[in,out] st Fencer API object
* \param[in] name Client name to use with fencer
* \param[in] max_attempts Return error if this many attempts fail
*
* \return pcmk_ok on success, result of last attempt otherwise
*/
int
stonith_api_connect_retry(stonith_t *st, const char *name, int max_attempts)
{
int rc = -EINVAL; // if max_attempts is not positive
for (int attempt = 1; attempt <= max_attempts; attempt++) {
rc = st->cmds->connect(st, name, NULL);
if (rc == pcmk_ok) {
return pcmk_ok;
} else if (attempt < max_attempts) {
crm_notice("Fencer connection attempt %d of %d failed (retrying in 2s): %s "
CRM_XS " rc=%d",
attempt, max_attempts, pcmk_strerror(rc), rc);
sleep(2);
}
}
crm_notice("Could not connect to fencer: %s " CRM_XS " rc=%d",
pcmk_strerror(rc), rc);
return rc;
}
stonith_key_value_t *
stonith_key_value_add(stonith_key_value_t * head, const char *key, const char *value)
{
stonith_key_value_t *p, *end;
p = calloc(1, sizeof(stonith_key_value_t));
if (key) {
p->key = strdup(key);
}
if (value) {
p->value = strdup(value);
}
end = head;
while (end && end->next) {
end = end->next;
}
if (end) {
end->next = p;
} else {
head = p;
}
return head;
}
void
stonith_key_value_freeall(stonith_key_value_t * head, int keys, int values)
{
stonith_key_value_t *p;
while (head) {
p = head->next;
if (keys) {
free(head->key);
}
if (values) {
free(head->value);
}
free(head);
head = p;
}
}
#define api_log_open() openlog("stonith-api", LOG_CONS | LOG_NDELAY | LOG_PID, LOG_DAEMON)
#define api_log(level, fmt, args...) syslog(level, "%s: "fmt, __func__, args)
int
stonith_api_kick(uint32_t nodeid, const char *uname, int timeout, bool off)
{
int rc = pcmk_ok;
stonith_t *st = stonith_api_new();
const char *action = off? "off" : "reboot";
api_log_open();
if (st == NULL) {
api_log(LOG_ERR, "API initialization failed, could not kick (%s) node %u/%s",
action, nodeid, uname);
return -EPROTO;
}
rc = st->cmds->connect(st, "stonith-api", NULL);
if (rc != pcmk_ok) {
api_log(LOG_ERR, "Connection failed, could not kick (%s) node %u/%s : %s (%d)",
action, nodeid, uname, pcmk_strerror(rc), rc);
} else {
char *name = (uname == NULL)? pcmk__itoa(nodeid) : strdup(uname);
int opts = 0;
stonith__set_call_options(opts, name,
st_opt_sync_call|st_opt_allow_suicide);
if ((uname == NULL) && (nodeid > 0)) {
stonith__set_call_options(opts, name, st_opt_cs_nodeid);
}
rc = st->cmds->fence(st, opts, name, action, timeout, 0);
free(name);
if (rc != pcmk_ok) {
api_log(LOG_ERR, "Could not kick (%s) node %u/%s : %s (%d)",
action, nodeid, uname, pcmk_strerror(rc), rc);
} else {
api_log(LOG_NOTICE, "Node %u/%s kicked: %s", nodeid, uname, action);
}
}
stonith_api_delete(st);
return rc;
}
time_t
stonith_api_time(uint32_t nodeid, const char *uname, bool in_progress)
{
int rc = pcmk_ok;
time_t when = 0;
stonith_t *st = stonith_api_new();
stonith_history_t *history = NULL, *hp = NULL;
if (st == NULL) {
api_log(LOG_ERR, "Could not retrieve fence history for %u/%s: "
"API initialization failed", nodeid, uname);
return when;
}
rc = st->cmds->connect(st, "stonith-api", NULL);
if (rc != pcmk_ok) {
api_log(LOG_NOTICE, "Connection failed: %s (%d)", pcmk_strerror(rc), rc);
} else {
int entries = 0;
int progress = 0;
int completed = 0;
int opts = 0;
char *name = (uname == NULL)? pcmk__itoa(nodeid) : strdup(uname);
stonith__set_call_options(opts, name, st_opt_sync_call);
if ((uname == NULL) && (nodeid > 0)) {
stonith__set_call_options(opts, name, st_opt_cs_nodeid);
}
rc = st->cmds->history(st, opts, name, &history, 120);
free(name);
for (hp = history; hp; hp = hp->next) {
entries++;
if (in_progress) {
progress++;
if (hp->state != st_done && hp->state != st_failed) {
when = time(NULL);
}
} else if (hp->state == st_done) {
completed++;
if (hp->completed > when) {
when = hp->completed;
}
}
}
stonith_history_free(history);
if(rc == pcmk_ok) {
api_log(LOG_INFO, "Found %d entries for %u/%s: %d in progress, %d completed", entries, nodeid, uname, progress, completed);
} else {
api_log(LOG_ERR, "Could not retrieve fence history for %u/%s: %s (%d)", nodeid, uname, pcmk_strerror(rc), rc);
}
}
stonith_api_delete(st);
if(when) {
api_log(LOG_INFO, "Node %u/%s last kicked at: %ld", nodeid, uname, (long int)when);
}
return when;
}
bool
stonith_agent_exists(const char *agent, int timeout)
{
stonith_t *st = NULL;
stonith_key_value_t *devices = NULL;
stonith_key_value_t *dIter = NULL;
bool rc = FALSE;
if (agent == NULL) {
return rc;
}
st = stonith_api_new();
if (st == NULL) {
crm_err("Could not list fence agents: API memory allocation failed");
return FALSE;
}
st->cmds->list_agents(st, st_opt_sync_call, NULL, &devices, timeout == 0 ? 120 : timeout);
for (dIter = devices; dIter != NULL; dIter = dIter->next) {
if (pcmk__str_eq(dIter->value, agent, pcmk__str_none)) {
rc = TRUE;
break;
}
}
stonith_key_value_freeall(devices, 1, 1);
stonith_api_delete(st);
return rc;
}
const char *
stonith_action_str(const char *action)
{
if (action == NULL) {
return "fencing";
} else if (!strcmp(action, "on")) {
return "unfencing";
} else if (!strcmp(action, "off")) {
return "turning off";
} else {
return action;
}
}
/*!
* \internal
* \brief Parse a target name from one line of a target list string
*
* \param[in] line One line of a target list string
* \parma[in] len String length of line
* \param[in,out] output List to add newly allocated target name to
*/
static void
parse_list_line(const char *line, int len, GList **output)
{
size_t i = 0;
size_t entry_start = 0;
/* Skip complaints about additional parameters device doesn't understand
*
* @TODO Document or eliminate the implied restriction of target names
*/
if (strstr(line, "invalid") || strstr(line, "variable")) {
crm_debug("Skipping list output line: %s", line);
return;
}
// Process line content, character by character
for (i = 0; i <= len; i++) {
if (isspace(line[i]) || (line[i] == ',') || (line[i] == ';')
|| (line[i] == '\0')) {
// We've found a separator (i.e. the end of an entry)
int rc = 0;
char *entry = NULL;
if (i == entry_start) {
// Skip leading and sequential separators
entry_start = i + 1;
continue;
}
entry = calloc(i - entry_start + 1, sizeof(char));
CRM_ASSERT(entry != NULL);
/* Read entry, stopping at first separator
*
* @TODO Document or eliminate these character restrictions
*/
rc = sscanf(line + entry_start, "%[a-zA-Z0-9_-.]", entry);
if (rc != 1) {
crm_warn("Could not parse list output entry: %s "
CRM_XS " entry_start=%d position=%d",
line + entry_start, entry_start, i);
free(entry);
} else if (pcmk__strcase_any_of(entry, "on", "off", NULL)) {
/* Some agents print the target status in the list output,
* though none are known now (the separate list-status command
* is used for this, but it can also print "UNKNOWN"). To handle
* this possibility, skip such entries.
*
* @TODO Document or eliminate the implied restriction of target
* names.
*/
free(entry);
} else {
// We have a valid entry
*output = g_list_append(*output, entry);
}
entry_start = i + 1;
}
}
}
/*!
* \internal
* \brief Parse a list of targets from a string
*
* \param[in] list_output Target list as a string
*
* \return List of target names
* \note The target list string format is flexible, to allow for user-specified
* lists such pcmk_host_list and the output of an agent's list action
* (whether direct or via the API, which escapes newlines). There may be
* multiple lines, separated by either a newline or an escaped newline
* (backslash n). Each line may have one or more target names, separated
* by any combination of whitespace, commas, and semi-colons. Lines
* containing "invalid" or "variable" will be ignored entirely. Target
* names "on" or "off" (case-insensitive) will be ignored. Target names
* may contain only alphanumeric characters, underbars (_), dashes (-),
* and dots (.) (if any other character occurs in the name, it and all
* subsequent characters in the name will be ignored).
* \note The caller is responsible for freeing the result with
* g_list_free_full(result, free).
*/
GList *
stonith__parse_targets(const char *target_spec)
{
GList *targets = NULL;
if (target_spec != NULL) {
size_t out_len = strlen(target_spec);
size_t line_start = 0; // Starting index of line being processed
for (size_t i = 0; i <= out_len; ++i) {
if ((target_spec[i] == '\n') || (target_spec[i] == '\0')
|| ((target_spec[i] == '\\') && (target_spec[i + 1] == 'n'))) {
// We've reached the end of one line of output
int len = i - line_start;
if (len > 0) {
char *line = strndup(target_spec + line_start, len);
line[len] = '\0'; // Because it might be a newline
parse_list_line(line, len, &targets);
free(line);
}
if (target_spec[i] == '\\') {
++i; // backslash-n takes up two positions
}
line_start = i + 1;
}
}
}
return targets;
}
/*!
* \internal
* \brief Determine if a later stonith event succeeded.
*
* \note Before calling this function, use stonith__sort_history() to sort the
* top_history argument.
*/
gboolean
stonith__later_succeeded(stonith_history_t *event, stonith_history_t *top_history)
{
gboolean ret = FALSE;
for (stonith_history_t *prev_hp = top_history; prev_hp; prev_hp = prev_hp->next) {
if (prev_hp == event) {
break;
}
if ((prev_hp->state == st_done) &&
pcmk__str_eq(event->target, prev_hp->target, pcmk__str_casei) &&
pcmk__str_eq(event->action, prev_hp->action, pcmk__str_casei) &&
pcmk__str_eq(event->delegate, prev_hp->delegate, pcmk__str_casei) &&
((event->completed < prev_hp->completed) ||
((event->completed == prev_hp->completed) && (event->completed_nsec < prev_hp->completed_nsec)))) {
ret = TRUE;
break;
}
}
return ret;
}
/*!
* \internal
* \brief Sort the stonith-history
* sort by competed most current on the top
* pending actions lacking a completed-stamp are gathered at the top
*
* \param[in] history List of stonith actions
*
*/
stonith_history_t *
stonith__sort_history(stonith_history_t *history)
{
stonith_history_t *new = NULL, *pending = NULL, *hp, *np, *tmp;
for (hp = history; hp; ) {
tmp = hp->next;
if ((hp->state == st_done) || (hp->state == st_failed)) {
/* sort into new */
if ((!new) || (hp->completed > new->completed) ||
((hp->completed == new->completed) && (hp->completed_nsec > new->completed_nsec))) {
hp->next = new;
new = hp;
} else {
np = new;
do {
if ((!np->next) || (hp->completed > np->next->completed) ||
((hp->completed == np->next->completed) && (hp->completed_nsec > np->next->completed_nsec))) {
hp->next = np->next;
np->next = hp;
break;
}
np = np->next;
} while (1);
}
} else {
/* put into pending */
hp->next = pending;
pending = hp;
}
hp = tmp;
}
/* pending actions don't have a completed-stamp so make them go front */
if (pending) {
stonith_history_t *last_pending = pending;
while (last_pending->next) {
last_pending = last_pending->next;
}
last_pending->next = new;
new = pending;
}
return new;
}
/*!
* \brief Return string equivalent of an operation state value
*
* \param[in] state Fencing operation state value
*
* \return Human-friendly string equivalent of state
*/
const char *
stonith_op_state_str(enum op_state state)
{
switch (state) {
case st_query: return "querying";
case st_exec: return "executing";
case st_done: return "completed";
case st_duplicate: return "duplicate";
case st_failed: return "failed";
}
return "unknown";
}
stonith_history_t *
stonith__first_matching_event(stonith_history_t *history,
bool (*matching_fn)(stonith_history_t *, void *),
void *user_data)
{
for (stonith_history_t *hp = history; hp; hp = hp->next) {
if (matching_fn(hp, user_data)) {
return hp;
}
}
return NULL;
}
bool
stonith__event_state_pending(stonith_history_t *history, void *user_data)
{
return history->state != st_failed && history->state != st_done;
}
bool
stonith__event_state_eq(stonith_history_t *history, void *user_data)
{
return history->state == GPOINTER_TO_INT(user_data);
}
bool
stonith__event_state_neq(stonith_history_t *history, void *user_data)
{
return history->state != GPOINTER_TO_INT(user_data);
}
void
stonith__device_parameter_flags(uint32_t *device_flags, const char *device_name,
xmlNode *metadata)
{
xmlXPathObjectPtr xpath = NULL;
int max = 0;
int lpc = 0;
CRM_CHECK((device_flags != NULL) && (metadata != NULL), return);
xpath = xpath_search(metadata, "//parameter");
max = numXpathResults(xpath);
if (max <= 0) {
freeXpathObject(xpath);
return;
}
for (lpc = 0; lpc < max; lpc++) {
const char *parameter = NULL;
xmlNode *match = getXpathResult(xpath, lpc);
CRM_LOG_ASSERT(match != NULL);
if (match == NULL) {
continue;
}
parameter = crm_element_value(match, "name");
if (pcmk__str_eq(parameter, "plug", pcmk__str_casei)) {
stonith__set_device_flags(*device_flags, device_name,
st_device_supports_parameter_plug);
} else if (pcmk__str_eq(parameter, "port", pcmk__str_casei)) {
stonith__set_device_flags(*device_flags, device_name,
st_device_supports_parameter_port);
}
}
freeXpathObject(xpath);
}
// Deprecated functions kept only for backward API compatibility
// LCOV_EXCL_START
const char *get_stonith_provider(const char *agent, const char *provider);
const char *
get_stonith_provider(const char *agent, const char *provider)
{
return stonith_namespace2text(stonith_get_namespace(agent, provider));
}
// LCOV_EXCL_STOP
// End deprecated API