libvirt/src/esx/esx_vi.h

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/*
* esx_vi.h: client for the VMware VI API 2.5 to manage ESX hosts
*
* Copyright (C) 2009-2010 Matthias Bolte <matthias.bolte@googlemail.com>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
*/
#ifndef __ESX_VI_H__
# define __ESX_VI_H__
# include <libxml/tree.h>
# include <libxml/xpath.h>
# include <curl/curl.h>
# include "internal.h"
# include "virterror_internal.h"
# include "datatypes.h"
# include "esx_vi_types.h"
# include "esx_util.h"
# define ESX_VI_ERROR(code, ...) \
virReportErrorHelper(NULL, VIR_FROM_ESX, code, __FILE__, __FUNCTION__, \
__LINE__, __VA_ARGS__)
# define ESX_VI__SOAP__REQUEST_HEADER \
"<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n" \
"<soapenv:Envelope\n" \
" xmlns:soapenv=\"http://schemas.xmlsoap.org/soap/envelope/\"\n" \
" xmlns:soapenc=\"http://schemas.xmlsoap.org/soap/encoding/\"\n" \
" xmlns:xsi=\"http://www.w3.org/2001/XMLSchema-instance\"\n" \
" xmlns:xsd=\"http://www.w3.org/2001/XMLSchema\">\n" \
"<soapenv:Body>\n"
# define ESX_VI__SOAP__REQUEST_FOOTER \
"</soapenv:Body>\n" \
"</soapenv:Envelope>"
# define ESV_VI__XML_TAG__OPEN(_buffer, _element, _type) \
do { \
virBufferAddLit(_buffer, "<"); \
virBufferAdd(_buffer, _element, -1); \
virBufferAddLit(_buffer, " xmlns=\"urn:vim25\" xsi:type=\""); \
virBufferAdd(_buffer, _type, -1); \
virBufferAddLit(_buffer, "\">"); \
} while (0)
# define ESV_VI__XML_TAG__CLOSE(_buffer, _element) \
do { \
virBufferAddLit(_buffer, "</"); \
virBufferAdd(_buffer, _element, -1); \
virBufferAddLit(_buffer, ">"); \
} while (0)
typedef enum _esxVI_APIVersion esxVI_APIVersion;
typedef enum _esxVI_ProductVersion esxVI_ProductVersion;
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typedef enum _esxVI_Occurrence esxVI_Occurrence;
typedef struct _esxVI_ParsedHostCpuIdInfo esxVI_ParsedHostCpuIdInfo;
typedef struct _esxVI_Context esxVI_Context;
typedef struct _esxVI_Response esxVI_Response;
typedef struct _esxVI_Enumeration esxVI_Enumeration;
typedef struct _esxVI_EnumerationValue esxVI_EnumerationValue;
typedef struct _esxVI_List esxVI_List;
enum _esxVI_APIVersion {
esxVI_APIVersion_Undefined = 0,
esxVI_APIVersion_Unknown,
esxVI_APIVersion_25,
esxVI_APIVersion_40,
esxVI_APIVersion_41,
esxVI_APIVersion_4x /* > 4.1 */
};
/*
* AAAABBBB: where AAAA0000 is the product and BBBB the version. this format
* allows simple bitmask testing for a product independent of the version
*/
enum _esxVI_ProductVersion {
esxVI_ProductVersion_Undefined = 0,
esxVI_ProductVersion_GSX = (1 << 0) << 16,
esxVI_ProductVersion_GSX20 = esxVI_ProductVersion_GSX | 1,
esxVI_ProductVersion_ESX = (1 << 1) << 16,
esxVI_ProductVersion_ESX35 = esxVI_ProductVersion_ESX | 1,
esxVI_ProductVersion_ESX40 = esxVI_ProductVersion_ESX | 2,
esxVI_ProductVersion_ESX41 = esxVI_ProductVersion_ESX | 3,
esxVI_ProductVersion_ESX4x = esxVI_ProductVersion_ESX | 4, /* > 4.1 */
esxVI_ProductVersion_VPX = (1 << 2) << 16,
esxVI_ProductVersion_VPX25 = esxVI_ProductVersion_VPX | 1,
esxVI_ProductVersion_VPX40 = esxVI_ProductVersion_VPX | 2,
esxVI_ProductVersion_VPX41 = esxVI_ProductVersion_VPX | 3,
esxVI_ProductVersion_VPX4x = esxVI_ProductVersion_VPX | 4 /* > 4.1 */
};
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enum _esxVI_Occurrence {
esxVI_Occurrence_Undefined = 0,
esxVI_Occurrence_RequiredItem,
esxVI_Occurrence_RequiredList,
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esxVI_Occurrence_OptionalItem,
esxVI_Occurrence_OptionalList,
esxVI_Occurrence_None
};
struct _esxVI_ParsedHostCpuIdInfo {
int level;
char eax[32];
char ebx[32];
char ecx[32];
char edx[32];
};
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* Context
*/
struct _esxVI_Context {
char *url;
char *ipAddress;
CURL *curl_handle;
struct curl_slist *curl_headers;
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char curl_error[CURL_ERROR_SIZE];
virMutex curl_lock;
char *username;
char *password;
esxVI_ServiceContent *service;
esxVI_APIVersion apiVersion;
esxVI_ProductVersion productVersion;
esxVI_UserSession *session;
esxVI_Datacenter *datacenter;
esxVI_ComputeResource *computeResource;
esxVI_HostSystem *hostSystem;
esxVI_SelectionSpec *selectSet_folderToChildEntity;
esxVI_SelectionSpec *selectSet_hostSystemToParent;
esxVI_SelectionSpec *selectSet_hostSystemToVm;
esxVI_SelectionSpec *selectSet_hostSystemToDatastore;
esxVI_SelectionSpec *selectSet_computeResourceToHost;
esxVI_SelectionSpec *selectSet_computeResourceToParentToParent;
bool hasQueryVirtualDiskUuid;
bool hasSessionIsActive;
};
int esxVI_Context_Alloc(esxVI_Context **ctx);
void esxVI_Context_Free(esxVI_Context **ctx);
int esxVI_Context_Connect(esxVI_Context *ctx, const char *ipAddress,
const char *url, const char *username,
const char *password, esxUtil_ParsedUri *parsedUri);
int esxVI_Context_LookupObjectsByPath(esxVI_Context *ctx,
esxUtil_ParsedUri *parsedUri);
int esxVI_Context_LookupObjectsByHostSystemIp(esxVI_Context *ctx,
const char *hostSystemIpAddress);
int esxVI_Context_DownloadFile(esxVI_Context *ctx, const char *url,
char **content);
int esxVI_Context_UploadFile(esxVI_Context *ctx, const char *url,
const char *content);
int esxVI_Context_Execute(esxVI_Context *ctx, const char *methodName,
const char *request, esxVI_Response **response,
esxVI_Occurrence occurrence);
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* Response
*/
struct _esxVI_Response {
int responseCode; /* required */
char *content; /* required */
xmlDocPtr document; /* optional */
xmlNodePtr node; /* optional, list */
};
int esxVI_Response_Alloc(esxVI_Response **response);
void esxVI_Response_Free(esxVI_Response **response);
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* Enumeration
*/
struct _esxVI_EnumerationValue {
const char *name;
int value;
};
struct _esxVI_Enumeration {
esxVI_Type type;
esxVI_EnumerationValue values[10];
};
int esxVI_Enumeration_CastFromAnyType(const esxVI_Enumeration *enumeration,
esxVI_AnyType *anyType, int *value);
int esxVI_Enumeration_Serialize(const esxVI_Enumeration *enumeration,
int value, const char *element,
virBufferPtr output);
int esxVI_Enumeration_Deserialize(const esxVI_Enumeration *enumeration,
xmlNodePtr node, int *value);
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* List
*/
struct _esxVI_List {
esxVI_List *_next;
};
typedef int (*esxVI_List_FreeFunc) (esxVI_List **item);
typedef int (*esxVI_List_DeepCopyFunc) (esxVI_List **dest, esxVI_List *src);
typedef int (*esxVI_List_CastFromAnyTypeFunc) (esxVI_AnyType *anyType,
esxVI_List **item);
typedef int (*esxVI_List_SerializeFunc) (esxVI_List *item, const char *element,
virBufferPtr output);
typedef int (*esxVI_List_DeserializeFunc) (xmlNodePtr node, esxVI_List **item);
int esxVI_List_Append(esxVI_List **list, esxVI_List *item);
int esxVI_List_DeepCopy(esxVI_List **destList, esxVI_List *srcList,
esxVI_List_DeepCopyFunc deepCopyFunc,
esxVI_List_FreeFunc freeFunc);
int esxVI_List_CastFromAnyType(esxVI_AnyType *anyType, esxVI_List **list,
esxVI_List_CastFromAnyTypeFunc castFromAnyTypeFunc,
esxVI_List_FreeFunc freeFunc);
int esxVI_List_Serialize(esxVI_List *list, const char *element,
virBufferPtr output,
esxVI_List_SerializeFunc serializeFunc);
int esxVI_List_Deserialize(xmlNodePtr node, esxVI_List **list,
esxVI_List_DeserializeFunc deserializeFunc,
esxVI_List_FreeFunc freeFunc);
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* Utility and Convenience Functions
*
* Function naming scheme:
* - 'lookup' functions query the ESX or vCenter for information
* - 'get' functions get information from a local object
*/
int esxVI_Alloc(void **ptrptr, size_t size);
int esxVI_BuildSelectSet
(esxVI_SelectionSpec **selectSet, const char *name,
const char *type, const char *path, const char *selectSetNames);
int esxVI_BuildSelectSetCollection(esxVI_Context *ctx);
int esxVI_EnsureSession(esxVI_Context *ctx);
int esxVI_LookupObjectContentByType(esxVI_Context *ctx,
esxVI_ManagedObjectReference *root,
const char *type,
esxVI_String *propertyNameList,
esxVI_ObjectContent **objectContentList,
esxVI_Occurrence occurrence);
int esxVI_GetManagedEntityStatus
(esxVI_ObjectContent *objectContent, const char *propertyName,
esxVI_ManagedEntityStatus *managedEntityStatus);
int esxVI_GetVirtualMachinePowerState
(esxVI_ObjectContent *virtualMachine,
esxVI_VirtualMachinePowerState *powerState);
int esxVI_GetVirtualMachineQuestionInfo
(esxVI_ObjectContent *virtualMachine,
esxVI_VirtualMachineQuestionInfo **questionInfo);
int esxVI_GetBoolean(esxVI_ObjectContent *objectContent,
const char *propertyName,
esxVI_Boolean *value, esxVI_Occurrence occurrence);
int esxVI_GetLong(esxVI_ObjectContent *objectContent, const char *propertyName,
esxVI_Long **value, esxVI_Occurrence occurrence);
int esxVI_GetStringValue(esxVI_ObjectContent *objectContent,
const char *propertyName,
char **value, esxVI_Occurrence occurrence);
int esxVI_GetManagedObjectReference(esxVI_ObjectContent *objectContent,
const char *propertyName,
esxVI_ManagedObjectReference **value,
esxVI_Occurrence occurrence);
int esxVI_LookupNumberOfDomainsByPowerState
(esxVI_Context *ctx, esxVI_VirtualMachinePowerState powerState,
esxVI_Boolean inverse);
int esxVI_GetVirtualMachineIdentity(esxVI_ObjectContent *virtualMachine,
int *id, char **name, unsigned char *uuid);
int esxVI_GetNumberOfSnapshotTrees
(esxVI_VirtualMachineSnapshotTree *snapshotTreeList);
int esxVI_GetSnapshotTreeNames
(esxVI_VirtualMachineSnapshotTree *snapshotTreeList, char **names,
int nameslen);
int esxVI_GetSnapshotTreeByName
(esxVI_VirtualMachineSnapshotTree *snapshotTreeList, const char *name,
esxVI_VirtualMachineSnapshotTree **snapshotTree,
esxVI_VirtualMachineSnapshotTree **snapshotTreeParent,
esxVI_Occurrence occurrence);
int esxVI_GetSnapshotTreeBySnapshot
(esxVI_VirtualMachineSnapshotTree *snapshotTreeList,
esxVI_ManagedObjectReference *snapshot,
esxVI_VirtualMachineSnapshotTree **snapshotTree);
int esxVI_LookupHostSystemProperties(esxVI_Context *ctx,
esxVI_String *propertyNameList,
esxVI_ObjectContent **hostSystem);
int esxVI_LookupVirtualMachineList(esxVI_Context *ctx,
esxVI_String *propertyNameList,
esxVI_ObjectContent **virtualMachineList);
int esxVI_LookupVirtualMachineByUuid(esxVI_Context *ctx,
const unsigned char *uuid,
esxVI_String *propertyNameList,
esxVI_ObjectContent **virtualMachine,
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esxVI_Occurrence occurrence);
int esxVI_LookupVirtualMachineByName(esxVI_Context *ctx, const char *name,
esxVI_String *propertyNameList,
esxVI_ObjectContent **virtualMachine,
esxVI_Occurrence occurrence);
int esxVI_LookupVirtualMachineByUuidAndPrepareForTask
(esxVI_Context *ctx, const unsigned char *uuid,
esxVI_String *propertyNameList, esxVI_ObjectContent **virtualMachine,
esxVI_Boolean autoAnswer);
int esxVI_LookupDatastoreList(esxVI_Context *ctx, esxVI_String *propertyNameList,
esxVI_ObjectContent **datastoreList);
int esxVI_LookupDatastoreByName(esxVI_Context *ctx, const char *name,
esxVI_String *propertyNameList,
esxVI_ObjectContent **datastore,
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esxVI_Occurrence occurrence);
int esxVI_LookupDatastoreByAbsolutePath(esxVI_Context *ctx,
const char *absolutePath,
esxVI_String *propertyNameList,
esxVI_ObjectContent **datastore,
esxVI_Occurrence occurrence);
int esxVI_LookupDatastoreHostMount(esxVI_Context *ctx,
esxVI_ManagedObjectReference *datastore,
esxVI_DatastoreHostMount **hostMount);
int esxVI_LookupTaskInfoByTask(esxVI_Context *ctx,
esxVI_ManagedObjectReference *task,
esxVI_TaskInfo **taskInfo);
int esxVI_LookupPendingTaskInfoListByVirtualMachine
(esxVI_Context *ctx, esxVI_ObjectContent *virtualMachine,
esxVI_TaskInfo **pendingTaskInfoList);
int esxVI_LookupAndHandleVirtualMachineQuestion(esxVI_Context *ctx,
const unsigned char *uuid,
esx: Improve blocked task detection and fix race condition esxVI_WaitForTaskCompletion can take a UUID to lookup the corresponding domain and check if the current task for it is blocked by a question. It calls another function to do this: esxVI_LookupAndHandleVirtualMachineQuestion looks up the VirtualMachine and checks for a question. If there is a question it calls esxVI_HandleVirtualMachineQuestion to handle it. If there was no question or it has been answered the call to esxVI_LookupAndHandleVirtualMachineQuestion returns 0. If any error occurred during the lookup and answering process -1 is returned. The problem with this is, that -1 is also returned when there was no error but the question could not be answered. So esxVI_WaitForTaskCompletion cannot distinguish between this two situations and reports that a question is blocking the task even when there was actually another problem. This inherent problem didn't surface until vSphere 4.1 when you try to define a new domain. The driver tries to lookup the domain that is just in the process of being registered. There seems to be some kind of race condition and the driver manages to issue a lookup command before the ESX server was able to register the domain. This used to work before. Due to the return value problem described above the driver reported a false error message in that case. To solve this esxVI_WaitForTaskCompletion now takes an additional occurrence parameter that describes whether or not to expect the domain to be existent. Also add a new parameter to esxVI_LookupAndHandleVirtualMachineQuestion that allows to distinguish if the call returned -1 because of an actual error or because the question could not be answered.
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esxVI_Occurrence occurrence,
esxVI_Boolean autoAnswer,
esxVI_Boolean *blocked);
int esxVI_LookupRootSnapshotTreeList
(esxVI_Context *ctx, const unsigned char *virtualMachineUuid,
esxVI_VirtualMachineSnapshotTree **rootSnapshotTreeList);
int esxVI_LookupCurrentSnapshotTree
(esxVI_Context *ctx, const unsigned char *virtualMachineUuid,
esxVI_VirtualMachineSnapshotTree **currentSnapshotTree,
esxVI_Occurrence occurrence);
int esxVI_LookupFileInfoByDatastorePath(esxVI_Context *ctx,
const char *datastorePath,
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bool lookupFolder,
esxVI_FileInfo **fileInfo,
esxVI_Occurrence occurrence);
int esxVI_LookupDatastoreContentByDatastoreName
(esxVI_Context *ctx, const char *datastoreName,
esxVI_HostDatastoreBrowserSearchResults **searchResultsList);
int esxVI_LookupStorageVolumeKeyByDatastorePath(esxVI_Context *ctx,
const char *datastorePath,
char **key);
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int esxVI_LookupAutoStartDefaults(esxVI_Context *ctx,
esxVI_AutoStartDefaults **defaults);
int esxVI_LookupAutoStartPowerInfoList(esxVI_Context *ctx,
esxVI_AutoStartPowerInfo **powerInfoList);
int esxVI_HandleVirtualMachineQuestion
(esxVI_Context *ctx,
esxVI_ManagedObjectReference *virtualMachine,
esxVI_VirtualMachineQuestionInfo *questionInfo,
esx: Improve blocked task detection and fix race condition esxVI_WaitForTaskCompletion can take a UUID to lookup the corresponding domain and check if the current task for it is blocked by a question. It calls another function to do this: esxVI_LookupAndHandleVirtualMachineQuestion looks up the VirtualMachine and checks for a question. If there is a question it calls esxVI_HandleVirtualMachineQuestion to handle it. If there was no question or it has been answered the call to esxVI_LookupAndHandleVirtualMachineQuestion returns 0. If any error occurred during the lookup and answering process -1 is returned. The problem with this is, that -1 is also returned when there was no error but the question could not be answered. So esxVI_WaitForTaskCompletion cannot distinguish between this two situations and reports that a question is blocking the task even when there was actually another problem. This inherent problem didn't surface until vSphere 4.1 when you try to define a new domain. The driver tries to lookup the domain that is just in the process of being registered. There seems to be some kind of race condition and the driver manages to issue a lookup command before the ESX server was able to register the domain. This used to work before. Due to the return value problem described above the driver reported a false error message in that case. To solve this esxVI_WaitForTaskCompletion now takes an additional occurrence parameter that describes whether or not to expect the domain to be existent. Also add a new parameter to esxVI_LookupAndHandleVirtualMachineQuestion that allows to distinguish if the call returned -1 because of an actual error or because the question could not be answered.
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esxVI_Boolean autoAnswer, esxVI_Boolean *blocked);
int esxVI_WaitForTaskCompletion(esxVI_Context *ctx,
esxVI_ManagedObjectReference *task,
const unsigned char *virtualMachineUuid,
esx: Improve blocked task detection and fix race condition esxVI_WaitForTaskCompletion can take a UUID to lookup the corresponding domain and check if the current task for it is blocked by a question. It calls another function to do this: esxVI_LookupAndHandleVirtualMachineQuestion looks up the VirtualMachine and checks for a question. If there is a question it calls esxVI_HandleVirtualMachineQuestion to handle it. If there was no question or it has been answered the call to esxVI_LookupAndHandleVirtualMachineQuestion returns 0. If any error occurred during the lookup and answering process -1 is returned. The problem with this is, that -1 is also returned when there was no error but the question could not be answered. So esxVI_WaitForTaskCompletion cannot distinguish between this two situations and reports that a question is blocking the task even when there was actually another problem. This inherent problem didn't surface until vSphere 4.1 when you try to define a new domain. The driver tries to lookup the domain that is just in the process of being registered. There seems to be some kind of race condition and the driver manages to issue a lookup command before the ESX server was able to register the domain. This used to work before. Due to the return value problem described above the driver reported a false error message in that case. To solve this esxVI_WaitForTaskCompletion now takes an additional occurrence parameter that describes whether or not to expect the domain to be existent. Also add a new parameter to esxVI_LookupAndHandleVirtualMachineQuestion that allows to distinguish if the call returned -1 because of an actual error or because the question could not be answered.
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esxVI_Occurrence virtualMachineOccurrence,
esxVI_Boolean autoAnswer,
esxVI_TaskInfoState *finalState,
char **errorMessage);
int esxVI_ParseHostCpuIdInfo(esxVI_ParsedHostCpuIdInfo *parsedHostCpuIdInfo,
esxVI_HostCpuIdInfo *hostCpuIdInfo);
int esxVI_ProductVersionToDefaultVirtualHWVersion(esxVI_ProductVersion productVersion);
# include "esx_vi.generated.h"
#endif /* __ESX_VI_H__ */