/*******************************************************************************
* Copyright (C) 2004-2006 Intel Corp. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* - Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
*
* - Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* - Neither the name of Intel Corp. nor the names of its
* contributors may be used to endorse or promote products derived from this
* software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS ``AS IS''
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL Intel Corp. OR THE CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*******************************************************************************/
/**
* @author Vadim Revyakin
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <errno.h>
#include <time.h>
#include "u/libu.h"
#include "wsman-soap.h"
#include "wsman-xml.h"
#include "wsman-xml-serializer.h"
#include "wsman-xml-serialize.h"
#include "wsman-epr.h"
#include "wsman-debug.h"
#define CLASSNAME "Sample"
static void example1(void)
{
#define EX1_NS "http://schemas.dmtf.org/wbem/wscim/1/cim-schema/2/CIM_ComputerSystem"
XML_TYPE_UINT16 myshorts[] = { 5, 11, 14, 19, 27, 36 };
SER_TYPEINFO_UINT16;
struct __Sample_Servie {
XML_TYPE_BOOL AcceptPause;
XML_TYPE_BOOL AcceptStop;
XML_TYPE_STR Caption;
XML_TYPE_UINT32 CheckPoint;
XML_TYPE_STR CreationClassName;
XML_TYPE_STR Description;
XML_TYPE_BOOL DesktopInteract;
XML_TYPE_STR DisplayName;
XML_TYPE_STR ErrorControl;
XML_TYPE_UINT32 ExitCode;
XML_TYPE_STR InstallDate;
XML_TYPE_STR Name;
XML_TYPE_STR PathName;
XML_TYPE_UINT32 ProcessId;
XML_TYPE_UINT32 ServiceSpecificExitCode;
XML_TYPE_STR ServiceType;
XML_TYPE_BOOL Started;
XML_TYPE_STR StartMode;
XML_TYPE_STR StartName;
XML_TYPE_STR State;
XML_TYPE_STR Status;
XML_TYPE_STR SystemCreationClassName;
XML_TYPE_STR SystemName;
XML_TYPE_UINT32 TagId;
XML_TYPE_UINT32 WaitHint;
XML_TYPE_UINT64 Uint64;
XML_TYPE_DYN_ARRAY shorts;
};
typedef struct __Sample_Servie Sample_Servie;
Sample_Servie servie = {
0,
1,
"Caption",
30,
"CreationClassName",
"Description",
1,
"DisplayName",
"ErrorControl",
50,
"InstallDate",
"Name",
"PathName",
60,
70,
"ServiceType",
0,
"StartMode",
"StartName",
"State",
"Status",
"SystemCreationClassName",
"SystemName",
90,
100,
1000000,
{6, myshorts }
};
SER_START_ITEMS(Sample_Servie)
SER_BOOL("AcceptPause", 1),
SER_BOOL("AcceptStop", 1),
SER_STR("Caption", 1),
SER_UINT32("CheckPoint", 1),
SER_STR("CreationClassName", 1),
SER_STR("Description", 1),
SER_BOOL("DesktopInteract", 1),
SER_NS_STR(EX1_NS, "DisplayName", 1),
SER_STR("ErrorControl", 1),
SER_UINT32("ExitCode", 1),
SER_STR("InstallDate", 1),
SER_STR("Name", 1),
SER_STR("PathName", 1),
SER_UINT32("ProcessId", 1),
SER_UINT32("ServiceSpecificExitCode", 1),
SER_STR("ServiceType", 1),
SER_BOOL("Started", 1),
SER_STR("StartMode", 1),
SER_STR("StartName", 1),
SER_STR("State", 1),
SER_STR("Status", 1),
SER_STR("SystemCreationClassName", 1),
SER_STR("SystemName", 1),
SER_UINT32("TagId", 1),
SER_UINT32("WaitHint", 1),
SER_UINT64("Uint64", 1),
SER_DYN_ARRAY("shorts", 0, 1000, uint16),
SER_END_ITEMS(Sample_Servie);
WsSerializerContextH cntx;
WsXmlDocH doc;
WsXmlNodeH node;
int retval;
printf("\n\n ******** example1. Basic types ********\n");
cntx = ws_serializer_init();
if (cntx == NULL) {
printf("Error ws_create_runtime\n");
return;
}
doc = ws_xml_create_doc( NULL, "example");
node = ws_xml_get_doc_root(doc);
retval = ws_serialize(cntx, node, &servie, Sample_Servie_TypeInfo,
CLASSNAME, NULL, NULL, 0);
printf("ws_serialize: %d\n", retval);
ws_xml_dump_node_tree(stdout, node);
node = ws_xml_get_doc_root(doc);
//WsXmlDocH xx = ws_xml_read_file( ws_context_get_runtime(cntx), "./test.xml", "UTF-8", 0 );
//node = ws_xml_get_doc_root(xx);
Sample_Servie *cs = (Sample_Servie *) ws_deserialize(cntx,
node,
Sample_Servie_TypeInfo,
CLASSNAME,
NULL, NULL,
0, 0);
if (cs == NULL) {
printf("Error in ws_serialize\n");
return;
}
retval = memcmp(cs, &servie, sizeof(servie));
if (retval) {
printf("Not compared (%d) - FAILED\n", retval);
printf("%d : %d\n", servie.AcceptPause, cs->AcceptPause);
printf("%d : %d\n", servie.AcceptStop, cs->AcceptStop);
printf("%s : %s\n", servie.Caption, cs->Caption);
}
}
static void example2(void)
{
typedef struct {
XML_TYPE_UINT8 byte1;
XML_TYPE_UINT32 int1;
XML_TYPE_UINT8 byte2;
} Foo;
typedef struct {
XML_TYPE_UINT8 byte1;
XML_TYPE_UINT16 short1;
XML_TYPE_UINT32 int1;
char *string1;
Foo foo;
} Sample;
Sample sample = { 1, 2, 4, "string", {5, 196, 8} };
SER_START_ITEMS(Foo)
SER_UINT8("FOOBYTE1", 1),
SER_UINT32("FOOINT32", 1),
SER_UINT8("FOOBYTE2", 1),
SER_END_ITEMS(Foo);
SER_START_ITEMS(Sample)
SER_UINT8("BYTE", 1),
SER_UINT16("SHORT", 1),
SER_UINT32("INT32", 1),
SER_STR("STRING", 1),
SER_STRUCT("FOO", 1, Foo),
SER_END_ITEMS(Sample);
WsSerializerContextH cntx;
WsXmlDocH doc;
WsXmlNodeH node;
int retval;
printf
("\n\n ******** example2. Structure with pads. ********\n");
cntx = ws_serializer_init();
if (cntx == NULL) {
printf("Error ws_create_runtime\n");
return;
}
doc = ws_xml_create_doc( NULL, "example");
node = ws_xml_get_doc_root(doc);
retval = ws_serialize(cntx, node, &sample, Sample_TypeInfo,
CLASSNAME, NULL, NULL, 0);
printf("ws_serialize: %d\n", retval);
ws_xml_dump_node_tree(stdout, node);
node = ws_xml_get_doc_root(doc);
Sample *cs = (Sample *) ws_deserialize(cntx,
node,
Sample_TypeInfo,
CLASSNAME, NULL, NULL,
0, 0);
if (cs == NULL) {
printf("Errror ws_deserialize\n");
return;
}
printf("\n initial and deserialized structures\n");
printf(" byte1 = %d : %d\n", sample.byte1, cs->byte1);
printf(" short1 = %d : %d\n", sample.short1, cs->short1);
printf(" int1 = %d : %d\n", sample.int1, cs->int1);
printf(" string1 = <%s> : <%s>\n", sample.string1,
cs->string1);
printf(" foo :\n");
printf(" byte1 = %d : %d\n", sample.foo.byte1,
cs->foo.byte1);
printf(" int1 = %d : %d\n", sample.foo.int1,
cs->foo.int1);
printf(" byte2 = %d : %d\n", sample.foo.byte2,
cs->foo.byte2);
}
static void example3(void)
{
typedef struct {
XML_TYPE_UINT8 a;
XML_TYPE_UINT8 b;
XML_TYPE_UINT8 c;
XML_TYPE_UINT8 pad;
XML_TYPE_STR string;
} Sample;
SER_START_ITEMS(Sample)
SER_UINT8("a", 1),
SER_UINT8("b", 1),
SER_UINT8("c", 1),
SER_IN_UINT8("pad", 1),
SER_STR("string", 1), SER_END_ITEMS(Sample);
Sample sample = { 'a', 'b', 'c', 'x', "simple string" };
// Sample *p = NULL;
WsSerializerContextH cntx;
WsXmlDocH doc;
WsXmlNodeH node;
int retval;
printf("\n\n ******** example3. Skip elements. ********\n");
cntx = ws_serializer_init();
if (cntx == NULL) {
printf("Error ws_create_runtime\n");
return;
}
doc = ws_xml_create_doc( NULL, "example");
node = ws_xml_get_doc_root(doc);
retval = ws_serialize(cntx, node, &sample, Sample_TypeInfo,
CLASSNAME, NULL, NULL, 0);
printf("ws_serialize: %d\n", retval);
ws_xml_dump_node_tree(stdout, node);
printf("\n\nws_deserialize (prints original : result):\n");
node = ws_xml_get_doc_root(doc);
Sample *cs = (Sample *) ws_deserialize(cntx,
node,
Sample_TypeInfo,
CLASSNAME, NULL, NULL,
0, 0);
if (cs == NULL) {
printf("Errror ws_serialize\n");
return;
}
printf("a = %c : %c\n", sample.a, cs->a);
printf("b = %c : %c\n", sample.b, cs->b);
printf("c = %c : %c\n", sample.c, cs->c);
printf("pad = %c(%d) : %c(%d)\n", sample.pad, sample.pad,
cs->pad, cs->pad);
printf("string = <%s> : <%s>\n", sample.string, cs->string);
}
static void example4(void)
{
typedef struct {
XML_TYPE_BOOL a;
XML_TYPE_STR string;
XML_TYPE_BOOL b;
} Embed;
typedef struct {
XML_TYPE_UINT32 A;
Embed EMBED[2];
XML_TYPE_STR STRING;
} Sample;
Sample sample = {
10,
{{1, "string 1", 0}, {0, "string 2", 1},},
"STRING",
};
SER_START_ITEMS(Embed)
SER_BOOL("a", 1),
SER_STR("string", 1), SER_BOOL("b", 1), SER_END_ITEMS(Embed);
SER_START_ITEMS(Sample)
SER_UINT32("A", 1),
SER_STRUCT("EMBED", 2, Embed),
SER_STR("STRING", 1), SER_END_ITEMS(Sample);
WsSerializerContextH cntx;
WsXmlDocH doc;
WsXmlNodeH node;
int retval;
printf
("\n\n ******** example4. Static structure array ********\n");
cntx = ws_serializer_init();
if (cntx == NULL) {
printf("Error ws_create_runtime\n");
return;
}
doc = ws_xml_create_doc(NULL, "example");
node = ws_xml_get_doc_root(doc);
retval = ws_serialize(cntx, node, &sample, Sample_TypeInfo,
CLASSNAME, NULL, NULL, 0);
printf("ws_serialize: %d\n", retval);
ws_xml_dump_node_tree(stdout, node);
}
static void example5(void)
{
typedef struct {
XML_TYPE_BOOL AcceptPause;
XML_TYPE_STR Caption;
} Foo;
Foo foos[] = {
{1, "Caption 1"},
{0, "Caption 2"},
{1, "Caption 1",},
{0, "Caption 2",},
};
SER_START_ITEMS(Foo)
SER_BOOL("AcceptPause", 1),
SER_STR("Caption", 1), SER_END_ITEMS(Foo);
XML_TYPE_UINT16 myshorts[] = { 5, 11, 14, 19, 27, 36 };
SER_TYPEINFO_UINT16;
typedef struct {
XML_TYPE_STR city;
XML_TYPE_DYN_ARRAY shorts;
XML_TYPE_DYN_ARRAY foos;
XML_TYPE_UINT16 tag;
} Sample;
Sample sample = { "Moscow", {6, myshorts}, {2, foos}, 99 };
SER_START_ITEMS(Sample)
SER_STR("city", 1),
SER_DYN_ARRAY("shorts", 0, 1000, uint16),
SER_DYN_ARRAY("foos", 0, 1000, Foo),
SER_UINT16("tag", 1), SER_END_ITEMS(Sample);
WsSerializerContextH cntx;
WsXmlDocH doc;
WsXmlNodeH node;
int retval;
printf("\n\n ******** example 5: Dynamic arrays ********\n");
cntx = ws_serializer_init();
if (cntx == NULL) {
printf("Error ws_create_runtime\n");
return;
}
doc = ws_xml_create_doc( NULL, "example");
node = ws_xml_get_doc_root(doc);
retval = ws_serialize(cntx, node, &sample, Sample_TypeInfo,
CLASSNAME, NULL, NULL, 0);
printf("\n\nws_serialize: %d\n", retval);
ws_xml_dump_node_tree(stdout, node);
node = ws_xml_get_doc_root(doc);
printf("\n\nws_deserialize:\n");
Sample *cs = (Sample *) ws_deserialize(cntx,
node,
Sample_TypeInfo,
CLASSNAME, NULL, NULL,
0, 0);
if (cs == NULL) {
printf("Error ws_deserialize\n");
return;
}
int i;
printf("shorts count = %d\n", cs->shorts.count);
printf("foos count = %d\n", cs->foos.count);
printf("\n");
printf(" city = <%s>\n", cs->city);
if (cs->shorts.data == NULL) {
printf("No uint16 objects\n");
goto AFTER_SHORTS;
}
unsigned short *newuints = (unsigned short *) cs->shorts.data;
printf(" shorts = {");
for (i = 0; i < cs->shorts.count; i++) {
printf("%u, ", *newuints);
newuints++;
}
printf("}\n");
AFTER_SHORTS:
if (cs->foos.data == NULL) {
printf("No foo objects\n");
goto AFTER_FOOS;
}
Foo *newfoos = cs->foos.data;
for (i = 0; i < cs->foos.count; i++) {
printf(" ==== Foo %d =====\n", i);
printf(" AcceptPause = %d\n", newfoos->AcceptPause);
printf(" Caption = <%s>\n", newfoos->Caption);
printf(" ==== End of Foo %d =====\n", i);
newfoos++;
}
AFTER_FOOS:
printf(" tag = %d\n", cs->tag);
}
static void example6(void)
{
typedef struct {
struct {
XML_TYPE_UINT8 body;
XML_NODE_ATTR *attrs;
} uint8_with_attrs;
struct {
XML_TYPE_UINT16 body;
XML_NODE_ATTR *attrs;
} uint16_with_attrs;
struct {
XML_TYPE_UINT32 body;
XML_NODE_ATTR *attrs;
} uint32_with_attrs;
struct {
XML_TYPE_BOOL body;
XML_NODE_ATTR *attrs;
} bool_with_attrs;
struct {
XML_TYPE_STR body;
XML_NODE_ATTR *attrs;
} str_with_attrs;
} Dummy;
typedef struct {
struct {
Dummy body;
XML_NODE_ATTR *attrs;
} struct_with_attrs;
} Sample;
XML_NODE_ATTR attrs[] = {
{NULL, NULL, "Uint8AttrName1", "Uint8AttrValue1"},
{NULL, NULL, "Uint16AttrName1", "Uint16AttrValue1"},
{NULL, NULL, "Uint32AttrName1", "Uint32AttrValue1"},
{NULL, NULL, "BoolAttrName1", "BoolAttrValue1"},
{NULL, NULL, "StringAttrName1", "StringAttrValue1"},
};
XML_NODE_ATTR str_attrs[3] = {
{NULL, NULL, "AttrName1", "AttrValue1"},
{NULL, NULL, "AttrName2", "AttrValue2"},
{NULL, XML_NS_ADDRESSING, "AttrQName", "AttrValue3"},
};
Sample sample = {
{
{
{8, &attrs[0]},
{16, &attrs[1]},
{32, &attrs[2]},
{0, &attrs[3]},
{"string", &attrs[4]},
},
&str_attrs[0]
}
};
str_attrs[0].next = &str_attrs[1];
str_attrs[1].next = &str_attrs[2];
SER_START_ITEMS(Dummy)
SER_ATTR_NS_UINT8_FLAGS(NULL, "UINT8", 1, 0),
SER_ATTR_NS_UINT16_FLAGS(NULL, "UINT16", 1, 0),
SER_ATTR_NS_UINT32_FLAGS(NULL, "UINT32", 1, 0),
SER_ATTR_NS_BOOL_FLAGS(NULL, "BOOL", 1, 0),
SER_ATTR_NS_STR_FLAGS(NULL, "STRING", 1, 0),
SER_END_ITEMS(Dummy);
SER_START_ITEMS(Sample)
SER_ATTR_NS_STRUCT_FLAGS(XML_NS_WS_MAN, "STRUCT", 1, 0, Dummy),
SER_END_ITEMS(Sample);
WsSerializerContextH cntx;
WsXmlDocH doc;
WsXmlNodeH node;
int retval;
printf
("\n\n ******** example 6. Nodes with attributes ********\n");
cntx = ws_serializer_init();
if (cntx == NULL) {
printf("Error ws_create_runtime\n");
return;
}
doc = ws_xml_create_doc( NULL, "example");
node = ws_xml_get_doc_root(doc);
retval = ws_serialize(cntx, node, &sample, Sample_TypeInfo,
CLASSNAME, XML_NS_WS_MAN, NULL, 0);
printf("\n\nws_serialize: %d\n", retval);
ws_xml_dump_node_tree(stdout, node);
Sample *news;
printf("\n\nws_deserialize:\n");
news = (Sample *) ws_deserialize(cntx,
node,
Sample_TypeInfo,
CLASSNAME,
XML_NS_ADDRESSING, NULL, 0, 0);
if (news == NULL) {
printf("Errror ws_deserialize\n");
return;
}
XML_NODE_ATTR *nattrs;
Dummy *dm = &(news->struct_with_attrs.body);
printf("**** Deserialized document %p *****\n", news);
printf("struct_with_attrs.body (");
nattrs = news->struct_with_attrs.attrs;
while (nattrs) {
printf("%s:%s=\"%s\" ", nattrs->ns, nattrs->name,
nattrs->value);
nattrs = nattrs->next;
}
printf(")\n");
printf(" uint8_with_attrs = %d (", dm->uint8_with_attrs.body);
nattrs = dm->uint8_with_attrs.attrs;
while (nattrs) {
printf("%s:%s=\"%s\" ", nattrs->ns, nattrs->name,
nattrs->value);
nattrs = nattrs->next;
}
printf(")\n");
printf(" uint16_with_attrs = %d (", dm->uint16_with_attrs.body);
nattrs = dm->uint16_with_attrs.attrs;
while (nattrs) {
printf("%s:%s=\"%s\" ", nattrs->ns, nattrs->name,
nattrs->value);
nattrs = nattrs->next;
}
printf(")\n");
printf(" uint32_with_attrs = %d (", dm->uint32_with_attrs.body);
nattrs = dm->uint32_with_attrs.attrs;
while (nattrs) {
printf("%s:%s=\"%s\" ", nattrs->ns, nattrs->name,
nattrs->value);
nattrs = nattrs->next;
}
printf(")\n");
printf(" bool_with_attrs = %d (", dm->bool_with_attrs.body);
nattrs = dm->bool_with_attrs.attrs;
while (nattrs) {
printf("%s:%s=\"%s\" ", nattrs->ns, nattrs->name,
nattrs->value);
nattrs = nattrs->next;
}
printf(")\n");
printf(" str_with_attrs = %s (", dm->str_with_attrs.body);
nattrs = dm->str_with_attrs.attrs;
while (nattrs) {
printf("%s:%s=\"%s\" ", nattrs->ns, nattrs->name,
nattrs->value);
nattrs = nattrs->next;
}
printf(")\n");
}
static void example7(void)
{
typedef struct {
XML_TYPE_STR value;
XML_NODE_ATTR *attrs;
} Selector;
SER_TYPEINFO_STRING_ATTR;
typedef struct {
XML_TYPE_DYN_ARRAY selectors;
} SelectorSet;
SER_START_ITEMS(SelectorSet)
SER_NS_DYN_ARRAY(XML_NS_WS_MAN, WSM_SELECTOR, 0, 1000,
string_attr), SER_END_ITEMS(SelectorSet);
typedef struct {
XML_TYPE_STR uri;
SelectorSet selectorset;
} ReferenceParameters;
SER_START_ITEMS(ReferenceParameters)
SER_NS_STR(XML_NS_WS_MAN, WSM_RESOURCE_URI, 1),
SER_NS_STRUCT(XML_NS_WS_MAN, WSM_SELECTOR_SET, 1, SelectorSet),
SER_END_ITEMS(ReferenceParameters);
typedef struct {
XML_TYPE_STR address;
ReferenceParameters refparams;
} EPR;
SER_START_ITEMS(EPR)
SER_NS_STR(XML_NS_ADDRESSING, WSA_ADDRESS, 1),
SER_NS_STRUCT(XML_NS_ADDRESSING, WSA_REFERENCE_PARAMETERS, 1,
ReferenceParameters), SER_END_ITEMS(EPR);
XML_NODE_ATTR attrs[3] = {
{NULL, NULL, "Name", "SelName1"},
{NULL, NULL, "Name", "SelName2"},
{NULL, NULL, "Name", "SelName3"},
};
Selector selectors[] = {
{"selector1", &attrs[0]},
{"selector2", &attrs[1]},
{"selector3", &attrs[2]}
};
EPR Epr = {
"http://localhost:8889/wsman",
{"http://acme.org/hardware/2005/02/storage/physDisk",
{{3, selectors}}
}
};
WsSerializerContextH cntx;
WsXmlDocH doc;
WsXmlNodeH node;
int retval;
printf
("\n\n ******** example7. Endpoint Reference ********\n");
cntx = ws_serializer_init();
if (cntx == NULL) {
printf("Error ws_create_runtime\n");
return;
}
doc = ws_xml_create_doc( NULL, "example");
node = ws_xml_get_doc_root(doc);
retval = ws_serialize(cntx, node, &Epr, EPR_TypeInfo,
"EndpointReference", XML_NS_ADDRESSING, NULL,
0);
printf("\n\nws_serialize: %d\n", retval);
ws_xml_dump_node_tree(stdout, node);
EPR *newEPR;
node = ws_xml_get_doc_root(doc);
printf("\n\nws_deserialize:\n");
newEPR = (EPR *) ws_deserialize(cntx,
node,
EPR_TypeInfo,
"EndpointReference",
XML_NS_ADDRESSING, NULL, 0, 0);
if (newEPR == NULL) {
printf("Errror ws_deserialize\n");
return;
}
printf("**** Deserialized document *****\n");
printf("address = %s\n", newEPR->address);
printf("refparams.uri = %s\n", newEPR->refparams.uri);
int i;
Selector *ss =
(Selector *) newEPR->refparams.selectorset.selectors.data;
if (ss == NULL) {
printf
(" !!!! newEPR->refparams.selectors.data == NULL\n");
return;
}
for (i = 0; i < newEPR->refparams.selectorset.selectors.count; i++) {
Selector *s;
s = ss + i;
printf(" Selector(");
XML_NODE_ATTR *a = s->attrs;
while (a) {
printf("%s:%s=%s",
a->ns ? a->ns : "", a->name, a->value);
a = a->next;
}
printf(") = %s\n", s->value);
}
}
static void example8(void)
{
printf
("\n\n ******** example8. XML datetime deserialization ********\n");
char xml_dttm[] = "2007-02-13T12:39:14-03:30";
XML_DATETIME dttm;
if (ws_deserialize_datetime(xml_dttm, &dttm)) {
printf("deserialization failed\n");
return;
}
printf("XML datetime = %s\n", xml_dttm);
printf("deserialed = %u-%u-%uT%u:%u:%u %i\n", dttm.tm.tm_year,
dttm.tm.tm_mon, dttm.tm.tm_mday, dttm.tm.tm_hour,
dttm.tm.tm_min, dttm.tm.tm_sec, dttm.tz_min);
}
// No serialization examples(shttpd_0)
#if 0
static void example106()
{
char *data =
"<dummy><qq>This is qq body</qq><pp>This is pp</pp></dummy>";
// WsXmlDocH response;
WsManClient *cl = wsman_create_client("mstevbakrov.ims.intel.com",
8889,
"/wsman",
"http",
"wsman",
"secret");
client_opt_t *options = wsmc_options_init();
WsXmlDocH request = wsmc_create_request(cl,
"http://schemas.dmtf.org/wbem/wscim/1/cim-schema/2/CIM_ComputerSystem",
options,
WSMAN_ACTION_TRANSFER_CREATE,
NULL, NULL);
WsXmlDocH d =
wsmc_read_memory(cl, data, strlen(data), NULL, 0);
ws_xml_dump_node_tree(stdout, ws_xml_get_doc_root(d));
// WsXmlNodeH n = ws_xml_get_doc_root(d);
ws_xml_duplicate_tree(ws_xml_get_soap_body(request),
ws_xml_get_doc_root(d));
ws_xml_destroy_doc(d);
// ws_xml_copy_node(ws_xml_get_doc_root(d), ws_xml_get_soap_body(request));
ws_xml_dump_node_tree(stdout, ws_xml_get_doc_root(request));
wsman_release_client(cl);
ws_xml_destroy_doc(request);
}
#endif
static void example9(void)
{
typedef struct {
}empty;
SER_START_ITEMS(empty)
SER_END_ITEMS(empty);
char xmlstring[] = "<example></example>";
WsXmlDocH doc = ws_xml_read_memory(xmlstring, strlen(xmlstring), "UTF-8", 0);
WsXmlNodeH node = ws_xml_get_doc_root(doc);
WsSerializerContextH cntx = ws_serializer_init();
if (cntx == NULL) {
printf("Error ws_create_runtime\n");
return;
}
void *ptr = NULL;
ptr = ws_deserialize(cntx,
node,
empty_TypeItems,
NULL,
NULL, NULL, 0, 0);
printf("ptr = %p\n", ptr);
ws_serializer_cleanup(cntx);
}
static void example10()
{
char xmlstring[] = "<example><PowerState xsi:nil=\"true\" xmlns:xsi=\"http://www.w3.org/2001/XMLSchema-instance\"/></example>";
// char xmlstring[] = "<example><PowerState state = \"critical\">5</PowerState></example>";
typedef struct {
XML_TYPE_STR value;
XML_NODE_ATTR *attrs;
} item;
SER_TYPEINFO_STRING_ATTR;
WsXmlDocH doc = ws_xml_read_memory(xmlstring, strlen(xmlstring), "UTF-8", 0);
WsXmlNodeH node = ws_xml_get_doc_root(doc);
printf
("\n\n ******** example10. xsi:nil attibute test ********\n");
WsSerializerContextH cntx = ws_serializer_init();
if (cntx == NULL) {
printf("Error ws_create_runtime\n");
return;
}
item *value = (item *)ws_deserialize(cntx, node, string_attr_TypeInfo, "PowerState", NULL, NULL, 0, 0);
if(value->attrs)
printf("*********attrs->ns = %s attrs->name = %s attrs->value = %s*********\n", value->attrs->ns, value->attrs->name, value->attrs->value);
if(ws_havenilvalue(value->attrs))
printf("******** the attribute has xsi:nil ********\n");
ws_xml_destroy_doc(doc);
ws_serializer_cleanup(cntx);
}
static void example11()
{
typedef struct {
XML_TYPE_INT8 byte1;
XML_TYPE_INT32 int1;
XML_TYPE_INT8 byte2;
} Foo;
typedef struct {
XML_TYPE_INT8 byte1;
XML_TYPE_INT16 short1;
XML_TYPE_INT32 int1;
char *string1;
Foo foo;
} Sample;
Sample sample = { -1, -127, 4, "string", {-12, 196, 8} };
SER_START_ITEMS(Foo)
SER_INT8("FOOBYTE1", 1),
SER_INT32("FOOINT32", 1),
SER_INT8("FOOBYTE2", 1),
SER_END_ITEMS(Foo);
SER_START_ITEMS(Sample)
SER_INT8("BYTE", 1),
SER_INT16("SHORT", 1),
SER_INT32("INT32", 1),
SER_STR("STRING", 1),
SER_STRUCT("FOO", 1, Foo),
SER_END_ITEMS(Sample);
WsSerializerContextH cntx;
WsXmlDocH doc;
WsXmlNodeH node;
int retval;
printf
("\n\n ******** example11. Structure with pads (signed int test). ********\n");
cntx = ws_serializer_init();
if (cntx == NULL) {
printf("Error ws_create_runtime\n");
return;
}
doc = ws_xml_create_doc( NULL, "example");
node = ws_xml_get_doc_root(doc);
retval = ws_serialize(cntx, node, &sample, Sample_TypeInfo,
CLASSNAME, NULL, NULL, 0);
printf("ws_serialize: %d\n", retval);
ws_xml_dump_node_tree(stdout, node);
node = ws_xml_get_doc_root(doc);
Sample *cs = (Sample *) ws_deserialize(cntx,
node,
Sample_TypeInfo,
CLASSNAME, NULL, NULL,
0, 0);
if (cs == NULL) {
printf("Errror ws_deserialize\n");
return;
}
printf("\n initial and deserialized structures\n");
printf(" byte1 = %d : %d\n", sample.byte1, cs->byte1);
printf(" short1 = %d : %d\n", sample.short1, cs->short1);
printf(" int1 = %d : %d\n", sample.int1, cs->int1);
printf(" string1 = <%s> : <%s>\n", sample.string1,
cs->string1);
printf(" foo :\n");
printf(" byte1 = %d : %d\n", sample.foo.byte1,
cs->foo.byte1);
printf(" int1 = %d : %d\n", sample.foo.int1,
cs->foo.int1);
printf(" byte2 = %d : %d\n", sample.foo.byte2,
cs->foo.byte2);
}
static void example12()
{
typedef struct {
XML_TYPE_REAL32 value;
XML_NODE_ATTR *attrs;
} item;
item org = {1.257,NULL};
SER_TYPEINFO_REAL32_ATTR;
WsXmlDocH doc;
WsXmlNodeH node = ws_xml_get_doc_root(doc);
printf
("\n\n ******** example12. real32/64 deserialize/serialize ********\n");
WsSerializerContextH cntx = ws_serializer_init();
if (cntx == NULL) {
printf("Error ws_create_runtime\n");
return;
}
doc = ws_xml_create_doc( NULL, "example");
node = ws_xml_get_doc_root(doc);
int retval = ws_serialize(cntx, node, &org, real32_TypeInfo,
"PowerState", NULL, NULL, 0);
printf("ws_serialize: %d\n", retval);
ws_xml_dump_node_tree(stdout, node);
item *con = (item *)ws_deserialize(cntx, node, real32_TypeInfo, "PowerState", NULL, NULL, 0, 0);
if(con->value != org.value) {
printf("Mismatched! org.value = %f con->value = %f\n", org.value, con->value);
}
ws_xml_destroy_doc(doc);
ws_serializer_cleanup(cntx);
}
static void example13()
{
XML_TYPE_UINT8 myshorts[] = { 5, 11, 14};
typedef struct {
XML_TYPE_UINT16 id;
XML_TYPE_DYN_ARRAY shorts;
}item;
XML_TYPE_DYN_ARRAY array_int8;
SER_TYPEINFO_UINT8;
SER_TYPEINFO_UINT16;
SER_START_ITEMS(item)
SER_INT16("id", 1),
SER_DYN_ARRAY("temp", 0, 100, uint8),
SER_END_ITEMS(item);
char xmlstring[] = "<example><Sample><id>3</id></Sample></example>";
printf
("\n\n ****** example 13. de-serialize to int8 array (empty array de-serialization test) ******\n");
WsXmlDocH doc = ws_xml_read_memory(xmlstring, strlen(xmlstring), "UTF-8", 0);
WsXmlNodeH node = ws_xml_get_doc_root(doc);
WsSerializerContextH cntx = ws_serializer_init();
if (cntx == NULL) {
printf("Error ws_create_runtime\n");
return;
}
item *desvalue = (item *)ws_deserialize(cntx, node, item_TypeInfo, CLASSNAME, NULL, NULL, 0, 0);
printf("desvlaue = %p\n", desvalue);
array_int8 = desvalue->shorts;
int i = 0;
printf("id = %d, array_int8->count = %d\n",desvalue->id, array_int8.count);
while(i < array_int8.count) {
printf("%d ", ((char *)array_int8.data)[i]);
i++;
}
printf("\n");
ws_serializer_cleanup(cntx);
}
static void example14()
{
typedef struct{
}empty;
SER_START_ITEMS(empty)
SER_END_ITEMS(empty);
typedef struct {
XML_TYPE_INT16 num;
empty empty1;
}A;
SER_TYPEINFO_INT16;
SER_START_ITEMS(A)
SER_INT16("id",1),
SER_NS_STRUCT(NULL, "empty", 1, empty),
SER_END_ITEMS(A);
A a1 = {-12, {}};
printf
("\n\n ******* example 14. serialize/de-serialze with empty t_TypeItems *******\n");
WsSerializerContextH cntx = ws_serializer_init();
if (cntx == NULL) {
printf("Error ws_create_runtime\n");
return;
}
WsXmlDocH doc = ws_xml_create_doc(NULL, "example");
WsXmlNodeH node = ws_xml_get_doc_root(doc);
empty values = {};
int ret = ws_serialize(cntx, node, &values, A_TypeInfo, CLASSNAME, NULL, NULL, 0);
printf("serialize %i bytes\n", ret);
ws_xml_dump_node_tree(stdout, node);
void *ptr = ws_deserialize(cntx, node, A_TypeInfo, CLASSNAME, NULL, NULL, 0, 0);
printf("ptr = %p\n", ptr);
ws_serializer_cleanup(cntx);
}
static void initialize_logging(void)
{
debug_add_handler(wsman_debug_message_handler, DEBUG_LEVEL_ALWAYS,
NULL);
}
int debug_level = 0;
int main(int argc, char **argv)
{
int num;
int i;
char retval = 0;
u_error_t *error = NULL;
u_option_entry_t opt[] = {
{"debug", 'd', U_OPTION_ARG_INT, &debug_level,
"Set the verbosity of debugging output.", "1-6"}
};
u_option_context_t *opt_ctx;
opt_ctx = u_option_context_new("");
u_option_context_set_ignore_unknown_options(opt_ctx, FALSE);
u_option_context_add_main_entries(opt_ctx, opt, "wsmid_identify");
retval = u_option_context_parse(opt_ctx, &argc, &argv, &error);
u_option_context_free(opt_ctx);
if (error) {
if (error->message)
printf("%s\n", error->message);
u_error_free(error);
return 1;
}
u_error_free(error);
if (debug_level) {
initialize_logging();
wsman_debug_set_level(debug_level);
}
if (argc == 1) {
// execute all
example1();
example2();
example3();
example4();
example5();
example6();
example7();
example8();
example9();
example10();
example11();
example12();
example13();
example14();
return 0;
}
for (i = 1; i < argc; i++) {
num = atoi(argv[i]);
switch (num) {
case 1:
example1();
break;
case 2:
example2();
break;
case 3:
example3();
break;
case 4:
example4();
break;
case 5:
example5();
break;
case 6:
example6();
break;
case 7:
example7();
break;
case 8:
example8();
break;
case 9:
example9();
break;
case 10:
example10();
break;
case 11:
example11();
break;
case 12:
example12();
break;
case 13:
example13();
break;
case 14:
example14();
break;
default:
printf("\n No example%d()\n", num);
break;
}
}
return 0;
}