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/** @HTML */
#ifndef INCLUDED_JVMFWK_FRAMEWORK_H
#define INCLUDED_JVMFWK_FRAMEWORK_H
#include This library can operate in two modes, application mode and direct mode.Application Mode
In application mode the Java related settings are stored in files.
There are currently three files which need to be accessed. They are determined
by bootstrap parameters:
The values for these parameters must be file URLs and include the file name, for
example:
file:///d:/MyApp/javavendors.xml
All files are XML files and must have the extension .xml.
Modifying the shared settings is currently not supported by the framework. To provide Java settings for all users one can run OOo and change the settings in the options dialog. These settings are made persistent in the UNO_JAVA_JFW_USER_DATA. The file can then be copied into the base installation. Other users will use automatically these data but can override the settings in the options dialog. This mechanism may change in the future.
If shared Java settings are not supported by an application then it is not
necessary to specify the bootstrap parameter UNO_JAVA_JFW_SHARED_DATA
.
Setting the class path used by a Java VM should not be necesarry. The locations of Jar files should be known by a class loader. If a jar file depends on another jar file then it can be referenced in the manifest file of the first jar. However, a user may add jars to the class path by using this API. If it becomes necessary to add files to the class path which is to be used by all users then one can use the bootrap parameter UNO_JAVA_JFW_CLASSPATH_URLS. The value contains of file URLs which must be separated by spaces.
The direct mode is intended for a scenario where no configuration files are available and a Java VM shall be run. That is, the files containing the user and shared settings are not specified by the bootstrap parameters UNO_JAVA_JFW_SHARED_DATA and UNO_JAVA_JFW_USER_DATA. For example, tools, such as regcomp, may use this framework in a build environment. Then one would want to use settings which have been specified by the build environment. The framework would automatically use the current settings when they change in the environment.
Here are examples how regcomp could be invoked using bootstrap parameters:
regcomp -env:UNO_JAVA_JFW_JREHOME=file:///d:/j2re1.4.2 -env:"UNO_JAVA_JFW_CLASSPATH=d:\\solver\\bin\\classes.jar;d:\\solver\\bin\\jurt.jar" -register ....
If UNO_JAVA_JFW_VENDOR_SETTINGS is not set then a plugin library must be specified. For example:
regcomp -env:UNO_JAVA_JFW_JREHOME=file:///d:/j2re1.4.2 -env:"UNO_JAVA_JFW_CLASSPATH=d:\\solver\\bin\\classes.jar;d:\\solver\\bin\\jurt.jar" -env:UNO_JAVA_JFW_PLUGIN=file:\\solver\\bin\\libsunjavaplugin.dll -register ....
Additionall parameters for the Java VM can be provided. For every parameter
a separate bootstrap parameter must be specified. The names are
UNO_JAVA_JFW_PARAMETER_X
, where X is 1,2, .. n. For example:
regcomp -env:UNO_JAVA_JFW_PARAMETER_1=-Xdebug -env:UNO_JAVA_JFW_PARAMETER_2=-Xrunjdwp:transport=dt_socket,server=y,address=8100 -env:UNO_JAVA_JFW_JREHOME=file:///d:/j2re1.4.2 -env:"UNO_JAVA_JFW_CLASSPATH=d:\\solver\\bin\\classes.jar;d:\\solver\\bin\\jurt.jar" -register ....
Here is a complete list of the bootstrap parameter for the direct mode:
A note about bootstrap parameters. The implementation of the bootstrap parameter mechanism interprets the characters '\', '$', '{', '}' as escape characters. Thats why the Windows path contain double back-slashes. One should also take into account that a console may have also special escape characters.
The default mode is application mode. If at least one bootstrap parameter for the direct mode is provided then direct mode is used.
All settings made by this API are done for the current user if not mentioned differently.
The flag is used with JavaInfo::nFeatures.
*/ #define JFW_FEATURE_ACCESSBRIDGE 0x1l /** indicates that there must be an environment set up before the Java process runs.Therefore, when a Java is selected in OO then the office must be restarted, so that the changes can take effect.
*/ #define JFW_REQUIRE_NEEDRESTART 0x1l /** error codes which are returned by functions of this API. */ typedef enum _javaFrameworkError { JFW_E_NONE, JFW_E_ERROR, JFW_E_INVALID_ARG, JFW_E_NO_SELECT, JFW_E_INVALID_SETTINGS, JFW_E_NEED_RESTART, JFW_E_RUNNING_JVM, JFW_E_JAVA_DISABLED, JFW_E_NO_PLUGIN, JFW_E_NOT_RECOGNIZED, JFW_E_FAILED_VERSION, JFW_E_NO_JAVA_FOUND, JFW_E_VM_CREATION_FAILED, JFW_E_CONFIGURATION, JFW_E_DIRECT_MODE } javaFrameworkError; /** an instance of this struct represents an installation of a Java Runtime Environment (JRE).
Instances of this struct are created by the plug-in libraries which are used by
this framework (jvmfwk/vendorplugin.h). The memory of the instances is created
by rtl_allocateMemory
(rtl/alloc.h). Therefore, the memory must
be freed by rtl_freeMemory
. Also the contained members must be
freed particularly.
For convenience this API provides the function jfw_freeJavaInfo
which frees the objects properly.
string must be the same as the one obtained from the
Java system property java.vendor
.
The version string must adhere to the rules
about how a version string has to be formed. These rules may
be vendor-dependent. Essentially the strings must syntactically
equal the Java system property java.version
.
For example, JFW_FEATURE_ACCESSBRIDGE
indicates that
assistive technology tools are supported.
For example, it may be necessary to prepare the environment before
the runtime is created. That could mean, setting the
LD_LIBRARY_PATH
when nRequirements
contains the flag
JFW_REQUIRE_NEEDRESTART
There is no rule about the format and content of the sequence's values. The plug-in libraries can put all data, necessary for starting the java runtime into this sequence.
*/ sal_Sequence * arVendorData; }; typedef struct _JavaInfo JavaInfo; /** frees the memory of aJavaInfo
object.
@param pInfo
The object which is to be freed. It can be NULL;
*/
JVMFWK_DLLPUBLIC void SAL_CALL jfw_freeJavaInfo(JavaInfo *pInfo);
/** compares two JavaInfo
objects for equality.
Two JavaInfo
objects are said to be equal if the contained
members of the first JavaInfo
are equal to their counterparts
in the second JavaInfo
object. The equality of the
rtl_uString
members is determined
by the respective comparison function (see
OUString::equals
).
Similiarly the equality of the sal_Sequence
is
also determined by a comparison
function (see rtl::ByteSequence::operator ==
).
Both argument pointers must be valid.
@param pInfoA the first argument. @param pInfoB the second argument which is compared with the first. @return sal_True - both object represent the same JRE. sal_False - the objects represend different JREs */ JVMFWK_DLLPUBLIC sal_Bool SAL_CALL jfw_areEqualJavaInfo( JavaInfo const * pInfoA,JavaInfo const * pInfoB); /** determines if a Java Virtual Machine is already running.As long as the office and the JREs only support one Virtual Machine per process the Java settings, particulary the selected Java, are not effective immediately after changing when a VM has already been running. That is, if a JRE A was used to start a VM and then a JRE B is selected, then JRE B will only be used after a restart of the office.
By determining if a VM is running, the user can be presented a message, that the changed setting may not be effective immediately.
@param bRunning [out] sal_True - a VM is running.bRunning
was NULL.
*/
JVMFWK_DLLPUBLIC javaFrameworkError SAL_CALL jfw_isVMRunning(sal_Bool *bRunning);
/** detects a suitable JRE and configures the framework to use it.
Which JREs can be used is determined by the file javavendors.xml, which contains version requirements, as well as information about available plug-in libraries. Only these libraries are responsible for locating JRE installations.
JREs can be provided by different vendors. In order to find the JREs of
a certain vendor a plug-in library must be provided. There must be only one
library for one vendor. The names of locations of those libraries have to
be put into the javavendors.xml file.
The function uses the plug-in libraries to obtain information about JRE
installation and checks if they there is one among them that supports
a set of features (currently only accessibilty is possible). If none was
found then it also uses a list of paths, which have been registered
by jfw_addJRELocation
or jfw_setJRELocations
to find JREs. Found JREs are examined in the same way.
A JRE installation is only selected if it meets the version requirements.
Information about the selected JRE are made persistent so that
subsequent calls to jfw_getSelectedJRE
returns this
information.
While determining a proper JRE this function takes into account if a
user requires support for assistive technology tools. If user
need that support they have to set up their system accordingly. When support
for assistive technology is required, then the lists of
JavaInfo
objects,
which are provided by the getJavaInfo
functions of the plug-ins, are
examined for a suitable JRE. That is, the JavaInfo
objects
from the list
obtained from the first plug-in, are examined. If no JavaInfo
object has the flag
JFW_FEATURE_ACCESSBRIDGE
in the member nFeatures
then the
next plug-in is used to obtain a list of JavaInfo
objects.
This goes on until a JavaInfo
object was found which
represents a suitable JRE. Or neither plug-in provided such a
JavaInfo
object. In that case the first
JavaInfo
object from the first plug-in is used to determine
the JRE which is to be used.
If there is no need for the support of assistive technology tools then
the first JavaInfo
object from the list obtained by the
first plug-in is used. If this plug-in does not find any JREs then the
next plug-in is used, and so on.
JavaInfo
pointer, representing the selected JRE.
The caller has to free it by calling jfw_freeJavaInfo. The
JavaInfo
is for informational purposes only. It is not
necessary to call jfw_setSelectedJRE
afterwards.
ppInfo
can be NULL. If *ppInfo
is not null, then it is
overwritten, without attempting to free *ppInfo
.
@return
JFW_E_NONE function ran successfully.
JFW_E_ERROR an error occurred.
JFW_E_NO_PLUGIN a plug-in library could not be found.
JFW_E_NO_JAVA_FOUND no JRE was found that meets the requirements.
JFW_E_DIRECT_MODE the function cannot be used in this mode.
JFW_E_CONFIGURATION mode was not properly set or their prerequisites
were not met.
*/
JVMFWK_DLLPUBLIC javaFrameworkError SAL_CALL jfw_findAndSelectJRE(JavaInfo **pInfo);
/** provides information about all available JRE installations.
The function determines dynamically what JREs are available. It uses
the plug-in libraries to provide lists of available JavaInfo
objects where each object represents a JRE (see vendorplugin.h,
getAllJavaInfos). It also uses a list of paths, which have been registered
by jfw_addJRELocation
or jfw_setJRELocations
.
It is checked if the path still contains a valid JRE and if so the respective
JavaInfo
object will be appended to the array unless there is
already an equal object.
@param parInfo
[out] on returns it contains a pointer to an array of JavaInfo
pointers.
The caller must free the array with rtl_freeMemory
and each
element of the array must be freed with jfw_freeJavaInfo
.
@param pSize
[out] on return contains the size of array returned in parInfo
.
@return
JFW_E_NONE function ran successfully.
JFW_E_INVALID_ARG at least on of the parameters was NULL
JFW_E_ERROR an error occurred.
JFW_E_NO_PLUGIN a plug-in library could not be found.
JFW_E_CONFIGURATION mode was not properly set or their prerequisites
were not met.
*/
JVMFWK_DLLPUBLIC javaFrameworkError SAL_CALL jfw_findAllJREs(
JavaInfo ***parInfo, sal_Int32 *pSize);
/** determines if a path points to a Java installation.
If the path belongs to a JRE installation then it returns the
respective JavaInfo
object. The function uses the
getJavaInfoByPath
function of the plug-ins to obtain the
JavaInfo
object. Only if the JRE found at the specified location
meets the version requirements as specified in the javavendors.xml file a
JavaInfo
object is returned.
The functions only checks if a JRE exists but does not modify any settings.
To make the found JRE the "selected JRE" one has
to call jfw_setSelectedJRE
.
@param pPath
[in] a file URL to a directory.
@param pInfo
[out] the JavaInfo
object which represents a JRE found at the
location specified by pPath
@return
JFW_E_NONE function ran successfully.
JFW_E_INVALID_ARG at least on of the parameters was NULL
JFW_E_ERROR an error occurred.
JFW_E_CONFIGURATION mode was not properly set or their prerequisites
were not met.
JFW_E_NO_PLUGIN a plug-in library could not be found.
JFW_E_NOT_RECOGNIZED neither plug-in library could detect a JRE.
JFW_E_FAILED_VERSION a JRE was detected but if failed the version
requirements as determined by the javavendors.xml
*/
JVMFWK_DLLPUBLIC javaFrameworkError SAL_CALL jfw_getJavaInfoByPath(
rtl_uString *pPath, JavaInfo **ppInfo);
/** starts a Java Virtual Machine (JVM).
The function uses the current settings to start a JVM. The actual
start-up code, however, is provided by the plug-in libraries. The setting
of the "selected Java" contains the information as to what vendor
the respective JRE comes from. In the javavendors.xml there is a mapping of
vendor names to the respective plug-in libraries.
The function ultimately calls startJavaVirtualMachine
from
the plug-in library.
The arOptions
argument contains start arguments which are passed in JavaVMOption structures
to the VM during its creation. These
could be things, such as language settings, proxy settings or any other
properties which shall be obtainable by
java.lang.System.getProperties
. One can also pass options which
have a certain meaning to the runtime behaviour such as -ea or -X... However,
one must be sure that these options can be interpreted by the VM.
The class path cannot be set this way. The class path is internally composed by
the paths to archives in a certain directory, which is preconfigured in
the internal data store and the respective user setting (see
jfw_setUserClassPath
.
If a JRE was selected at runtime which was different from the previous
setting and that JRE needs a prepared environment, for example an adapted
LD_LIBRARY_PATH
environment variable, then the VM will not be
created and JFW_E_NEED_RESTART error is returned. If a VM is already running
then a JFW_E_RUNNING_JVM is returned.
@param pInfo
[in] optional pointer to a specific JRE; must be caller-freed if not NULL
@param arOptions
[in] the array containing additional start arguments or NULL.
@param nSize
[in] the size of the array arOptions
.
@param ppVM
[out] the JavaVM
pointer.
@param ppEnv
[out] the JNIenv
pointer.
@return
JFW_E_NONE function ran successfully.
JFW_E_INVALID_ARG ppVM
, ppEnv
are NULL or
arOptions
was NULL but nSize
was greater 0.
JFW_E_ERROR an error occurred.
JFW_E_CONFIGURATION mode was not properly set or their prerequisites
were not met.
JFW_E_NO_PLUGIN the plug-in library responsible for creating the VM
could not be found.
JFW_E_JAVA_DISABLED the use of Java is currently disabled.
JFW_E_NO_SELECT there is no JRE selected yet.
JFW_E_RUNNIN_JVM there is already a VM running.
JFW_E_INVALID_SETTINGS the javavendors.xml has been changed and no
JRE has been selected afterwards.
JFW_E_NEED_RESTART in the current process a different JRE has been selected
which needs a prepared environment, which has to be done before the office
process. Therefore the new JRE may not be used until the office was restarted.
JFW_E_NEED_RESTART is also returned when Java was disabled at the beginning and
then the user enabled it. If then the selected JRE has the requirement
JFW_REQUIRE_NEEDRESTART then this error is returned.
JFW_E_VM_CREATION_FAILED the creation of the JVM failed. The creation is performed
by a plug-in library and not by this API.
JFW_E_FAILED_VERSION the "Default Mode" is active. The JRE determined by
JAVA_HOME
does not meet the version requirements.
*/
JVMFWK_DLLPUBLIC javaFrameworkError SAL_CALL jfw_startVM(
JavaInfo const * pInfo, JavaVMOption * arOptions, sal_Int32 nSize,
JavaVM ** ppVM, JNIEnv ** ppEnv);
/** determines the JRE that is to be used.
When calling jfw_startVM
then a VM is startet from
the JRE that is determined by this function.
It is not verified if the JRE represented by the JavaInfo
argument meets the requirements as specified by the javavendors.xml file.
However, usually one obtains the JavaInfo
object from the
functions jfw_findAllJREs
or jfw_getJavaInfoByPath
,
which do verify the JREs and pass out only JavaInfo
objects
which comply with the version requirements.
If pInfo
is NULL then the meaning is that no JRE will be
selected. jfw_startVM
will then return
JFW_E_NO_SELECT
.
@param pInfo
[in] pointer to JavaInfo
structure, containing data about a
JRE. The caller must still free pInfo
.
@return
JFW_E_NONE function ran successfully.
JFW_E_ERROR An error occurred.
JFW_E_CONFIGURATION mode was not properly set or their prerequisites
were not met.
JFW_E_DIRECT_MODE the function cannot be used in this mode.
*/
JVMFWK_DLLPUBLIC javaFrameworkError SAL_CALL jfw_setSelectedJRE(JavaInfo const *pInfo);
/** provides information about the JRE that is to be used.
If no JRE is currently selected then ppInfo
will contain
NULL on return.
If the value of the element in the javavendors.xml file was
changed since the time when the last Java was selected then this
function returns JFW_E_INVALID_SETTINGS
. This could happen during
a product patch. Then new version requirements may be introduced, so that
the currently selected JRE may not meet these requirements anymore.
In direct mode the function returns information about a JRE that was
set by the bootstrap parameter UNO_JAVA_JFW_JREHOME.
@param ppInfo
[out] on return it contains a pointer to a JavaInfo
object
that represents the currently selected JRE. When *ppInfo
is not
NULL then the function overwrites the pointer. It is not attempted to free
the pointer.
@return
JFW_E_NONE function ran successfully.
JFW_E_INVALIDARG ppInfo
is a NULL.
JFW_E_CONFIGURATION mode was not properly set or their prerequisites
were not met.
JFW_E_INVALID_SETTINGS the javavendors.xml has been changed and no
JRE has been selected afterwards.
*/
JVMFWK_DLLPUBLIC javaFrameworkError SAL_CALL jfw_getSelectedJRE(JavaInfo **ppInfo);
/** determines if Java can be used.
If bEnabled
is sal_False
then a call
to jfw_startVM will result in an error with the errorcode
JFW_E_JAVA_DISABLED
@param bEnabled
[in] use of Java enabled/disabled.
@return
JFW_E_NONE function ran successfully.
JFW_E_ERROR An error occurred.
JFW_E_CONFIGURATION mode was not properly set or their prerequisites
were not met.
JFW_E_DIRECT_MODE the function cannot be used in this mode.
*/
JVMFWK_DLLPUBLIC javaFrameworkError SAL_CALL jfw_setEnabled(sal_Bool bEnabled);
/** provides the information if Java can be used.
That is if the user enabled or disabled the use of Java.
@return
JFW_E_NONE function ran successfully.
JFW_E_INVALIDARG pbEnabled is NULL
JFW_E_ERROR An error occurred.
JFW_E_CONFIGURATION mode was not properly set or their prerequisites
were not met.
JFW_E_DIRECT_MODE the function cannot be used in this mode.
*/
JVMFWK_DLLPUBLIC javaFrameworkError SAL_CALL jfw_getEnabled(sal_Bool *pbEnabled);
/** determines parameters which are passed to VM during its creation.
The strings must be exactly as they are passed on the command line.
For example, one could pass
-Xdebug
-Xrunjdw:transport=dt_socket,server=y,address=8000
in order to enable debugging support.
@param arParameters
[in] contains the arguments. It can be NULL if nSize is 0.
@param nSize
[i] the size of arArgs
@return
JFW_E_NONE function ran successfully.
JFW_E_INVALIDARG arArgs is NULL and nSize is not 0
JFW_E_ERROR An error occurred.
JFW_E_CONFIGURATION mode was not properly set or their prerequisites
were not met.
JFW_E_DIRECT_MODE the function cannot be used in this mode.
*/
JVMFWK_DLLPUBLIC javaFrameworkError SAL_CALL jfw_setVMParameters(
rtl_uString ** arArgs, sal_Int32 nSize);
/** obtains the currently used start parameters.
The caller needs to free the returned array with
rtl_freeMemory
. The contained strings must be released with
rtl_uString_release
.
@param parParameters
[out] on returns contains a pointer to the array of the start arguments.
If *parParameters is not NULL then the value is overwritten.
@param pSize
[out] on return contains the size of array returned in
parParameters
@return
JFW_E_NONE function ran successfully.
JFW_E_INVALIDARG parParameters or pSize are NULL
JFW_E_ERROR An error occurred.
JFW_E_CONFIGURATION mode was not properly set or their prerequisites
were not met.
JFW_E_DIRECT_MODE the function cannot be used in this mode.
*/
JVMFWK_DLLPUBLIC javaFrameworkError SAL_CALL jfw_getVMParameters(
rtl_uString *** parParameters,
sal_Int32 * pSize);
/** sets the user class path.
When the VM is started then it is passed the class path. The
class path also contains the user class path set by this function.
The paths contained in pCP
must be separated with a
system dependent path separator.
@param pCP
[in] the user class path.
@return
JFW_E_NONE function ran successfully.
JFW_E_INVALIDARG pCP is NULL.
JFW_E_ERROR An error occurred.
JFW_E_CONFIGURATION mode was not properly set or their prerequisites
were not met.
JFW_E_DIRECT_MODE the function cannot be used in this mode.
*/
JVMFWK_DLLPUBLIC javaFrameworkError SAL_CALL jfw_setUserClassPath(rtl_uString * pCP);
/** provides the value of the current user class path.
The function returns an empty string if no user class path is set.
@param ppCP
[out] contains the user class path on return. If *ppCP
was
not NULL then the value is overwritten. No attempt at freeing that string
is made.
@return
JFW_E_NONE function ran successfully.
JFW_E_INVALIDARG ppCP is NULL.
JFW_E_ERROR An error occurred.
JFW_E_CONFIGURATION mode was not properly set or their prerequisites
were not met.
JFW_E_DIRECT_MODE the function cannot be used in this mode.
*/
JVMFWK_DLLPUBLIC javaFrameworkError SAL_CALL jfw_getUserClassPath(rtl_uString ** ppCP);
/** saves the location of a JRE.
When jfw_findAllJREs
is called then the paths added by this
function are evaluated. If the location still represents a
JRE then a JavaInfo
object is created which is returned along
with all other JavaInfo
objects by
jfw_findAllJREs
. If the location
cannot be recognized then the location string is ignored.
A validation if sLocation
points to a JRE is not
performed. To do that one has to use jfw_getJavaInfoByPath
.
Adding a path that is already stored causes no error.
@param sLocation
[in] file URL to a directory which contains a JRE.
@return
JFW_E_NONE function ran successfully.
JFW_E_INVALIDARG sLocation is NULL.
JFW_E_ERROR An error occurred.
JFW_E_CONFIGURATION mode was not properly set or their prerequisites
were not met.
JFW_E_DIRECT_MODE the function cannot be used in this mode.
@see jfw_setJRELocations
*/
JVMFWK_DLLPUBLIC javaFrameworkError SAL_CALL jfw_addJRELocation(rtl_uString * sLocation);
/** saves the locations of a number of JREs.
The function does not verify if the paths points to JRE. However,
it makes sure that every path is unique. That is, if the array
contains strings which are the same then only one is stored.
If arLocations
is NULL or it has the length null (nSize = 0)
then all previously stored paths are deleted. Otherwise,
the old values are overwritten.
@param arLocations
[in] array of paths to locations of JREs.
@param nSize
[in] the size of the array arLocations
@return
JFW_E_NONE function ran successfully.
JFW_E_INVALIDARG arLocation is NULL and nSize is not null.
JFW_E_ERROR An error occurred.
JFW_E_CONFIGURATION mode was not properly set or their prerequisites
were not met.
JFW_E_DIRECT_MODE the function cannot be used in this mode.
@see jfw_addJRELocations
*/
JVMFWK_DLLPUBLIC javaFrameworkError SAL_CALL jfw_setJRELocations(
rtl_uString ** arLocations, sal_Int32 nSize);
/** obtains an array containing paths to JRE installations.
It is not guaranteed that the returned paths represent
a valid JRE. One can use jfw_getJavaInfoByPath
to check this.
@param parLocations
[out] on return it contains the array of paths.
@param pSize
[out] on return it contains the size of the array parLocations
.
@return
JFW_E_NONE function ran successfully.
JFW_E_INVALIDARG parLocation is NULL or pSize is NULL.
JFW_E_ERROR An error occurred.
JFW_E_CONFIGURATION mode was not properly set or their prerequisites
were not met.
JFW_E_DIRECT_MODE the function cannot be used in this mode.
*/
JVMFWK_DLLPUBLIC javaFrameworkError SAL_CALL jfw_getJRELocations(
rtl_uString *** parLocations, sal_Int32 * pSize);
/** checks if the installation of the jre still exists.
This function checks if the JRE described by pInfo still
exists. The check must be very quick because it is called by javaldx
(Linux, Solaris) at start up.
@param pInfo
[in] the JavaInfo object with information about the JRE.
@param pp_exist
[out] the parameter is set to either sal_True or sal_False. The value is
only valid if the function returns JFW_E_NONE.
@return
JFW_E_NONE the function ran successfully.
JFW_E_ERROR an error occurred during execution.
JFW_E_INVALID_ARG pInfo contains invalid data
JFW_E_NO_PLUGIN a plug-in library could not be found.
*/
JVMFWK_DLLPUBLIC javaFrameworkError SAL_CALL jfw_existJRE(const JavaInfo *pInfo, sal_Bool *exist);
/** locks this API so that it cannot be used by other threads.
If a different thread called this function before then the
current call is blocked until the other thread has called
jfw_unlock()
. The function should be called if one
needs an exact snapshot of the current settings. Then the settings
are retrieved one by one without risk that the settings may be changed
by a different thread. Similiary if one needs to make settings which
should become effective at the same time then jfw_lock
should be called. That is, jfw_startVM
which uses the
settings cannot be called before all settings have be made.
The only functions which are not effected by jfw_lock
are
jfw_freeJavaInfo
and jfw_areEqualJavaInfo
.
*/
JVMFWK_DLLPUBLIC void SAL_CALL jfw_lock();
/** unlocks this API.
This function is called after jfw_lock
. It allows other
threads to use this API concurrently.
*/
JVMFWK_DLLPUBLIC void SAL_CALL jfw_unlock();
#ifdef __cplusplus
}
#endif
#endif
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