badvpn/ncd/NCDModule.h
2014-12-21 11:17:04 +01:00

1242 lines
44 KiB
C

/**
* @file NCDModule.h
* @author Ambroz Bizjak <ambrop7@gmail.com>
*
* @section LICENSE
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. 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.
* 3. Neither the name of the author 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 THE AUTHOR 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.
*/
#ifndef BADVPN_NCD_NCDMODULE_H
#define BADVPN_NCD_NCDMODULE_H
#include <stdarg.h>
#include <misc/debug.h>
#include <system/BReactor.h>
#include <base/BLog.h>
#include <ncd/NCDVal.h>
#include <ncd/NCDObject.h>
#include <ncd/NCDStringIndex.h>
#ifndef BADVPN_NO_PROCESS
#include <system/BProcess.h>
#endif
#ifndef BADVPN_NO_UDEV
#include <udevmonitor/NCDUdevManager.h>
#endif
#ifndef BADVPN_NO_RANDOM
#include <random/BRandom2.h>
#endif
#define NCDMODULE_EVENT_UP 1
#define NCDMODULE_EVENT_DOWN 2
#define NCDMODULE_EVENT_DOWNUP 3
#define NCDMODULE_EVENT_DEAD 4
#define NCDMODULE_EVENT_DEADERROR 5
struct NCDModuleInst_s;
struct NCDModuleProcess_s;
struct NCDModuleGroup;
struct NCDInterpModule;
struct NCDInterpModuleGroup;
struct NCDCall_interp_shared;
struct NCDInterpFunction;
/**
* Function called to inform the interpeter of state changes of the
* module instance.
* Possible events are:
*
* - NCDMODULE_EVENT_UP: the instance came up.
* The instance was in down state.
* The instance enters up state.
*
* - NCDMODULE_EVENT_DOWN: the instance went down.
* The instance was in up state.
* The instance enters down state.
*
* After the instance goes down, the interpreter should eventually call
* {@link NCDModuleInst_Clean} or {@link NCDModuleInst_Die}, unless
* the module goes up again.
*
* - NCDMODULE_EVENT_DEAD: the module died. To determine if the module
* died with error, read the is_error member of {@link NCDModuleInst}.
* The instance enters dead state.
*
* This function is not being called in event context. The interpreter should
* only update its internal state, and visibly react only via jobs that it pushes
* from within this function. The only exception is that it may free the
* instance from within the NCDMODULE_EVENT_DEAD event.
*
* @param inst the module instance
* @param event event number
*/
typedef void (*NCDModuleInst_func_event) (struct NCDModuleInst_s *inst, int event);
/**
* Function called when the module instance wants the interpreter to
* resolve an object from the point of view of its statement.
* The instance will not be in dead state.
* This function must not have any side effects.
*
* @param inst the module instance
* @param name name of the object as an {@link NCDStringIndex} identifier
* @param out_object the object will be returned here
* @return 1 on success, 0 on failure
*/
typedef int (*NCDModuleInst_func_getobj) (struct NCDModuleInst_s *inst, NCD_string_id_t name, NCDObject *out_object);
/**
* Function called when the module instance wants the interpreter to
* create a new process backend from a process template.
* The instance will not be in dead state.
*
* On success, the interpreter must have called {@link NCDModuleProcess_Interp_SetHandlers}
* from within this function, to allow communication with the controller of the process.
* On success, the new process backend enters down state.
*
* This function is not being called in event context. The interpreter should
* only update its internal state, and visibly react only via jobs that it pushes
* from within this function.
*
* @param user value of 'user' member of {@link NCDModuleInst_iparams}
* @param p handle for the new process backend
* @param template_name name of the template to create the process from,
* as an {@link NCDStringIndex} identifier
* @return 1 on success, 0 on failure
*/
typedef int (*NCDModuleInst_func_initprocess) (void *user, struct NCDModuleProcess_s *p, NCD_string_id_t template_name);
/**
* Function called when the module instance wants the interpreter to
* initiate termination, as if it received an external terminatio request (signal).
*
* @param user value of 'user' member of {@link NCDModuleInst_iparams}
* @param exit_code exit code to return the the operating system. This overrides any previously
* set exit code, and will be overriden by a signal to the value 1.
*
*/
typedef void (*NCDModuleInst_func_interp_exit) (void *user, int exit_code);
/**
* Function called when the module instance wants the interpreter to
* provide its extra command line arguments.
*
* @param user value of 'user' member of {@link NCDModuleInst_iparams}
* @param mem value memory to use
* @param out_value write value reference here on success
* @return 1 if available, 0 if not available. If available, but out of memory, return 1
* and an invalid value.
*/
typedef int (*NCDModuleInst_func_interp_getargs) (void *user, NCDValMem *mem, NCDValRef *out_value);
/**
* Function called when the module instance wants the interpreter to
* provide its retry time.
*
* @param user value of 'user' member of {@link NCDModuleInst_iparams}
* @return retry time in milliseconds
*/
typedef btime_t (*NCDModuleInst_func_interp_getretrytime) (void *user);
/**
* Function called when the module instance wants the interpreter to
* load a new module group.
*
* @param user value of 'user' member of {@link NCDModuleInst_iparams}
* @param group module group to load
* @return 1 on success, 0 on failure
*/
typedef int (*NCDModuleInst_func_interp_loadgroup) (void *user, const struct NCDModuleGroup *group);
#define NCDMODULEPROCESS_EVENT_UP 1
#define NCDMODULEPROCESS_EVENT_DOWN 2
#define NCDMODULEPROCESS_EVENT_TERMINATED 3
/**
* Handler which reports process state changes from the interpreter.
* Possible events are:
*
* - NCDMODULEPROCESS_EVENT_UP: the process went up.
* The process was in down state.
* The process enters up state.
*
* - NCDMODULEPROCESS_EVENT_DOWN: the process went down.
* The process was in up state.
* The process enters waiting state.
*
* NOTE: the process enters waiting state, NOT down state, and is paused.
* To allow the process to continue, call {@link NCDModuleProcess_Continue}.
*
* - NCDMODULEPROCESS_EVENT_TERMINATED: the process terminated.
* The process was in terminating state.
* The process enters terminated state.
*
* @param user pointer to the process. Use {@link UPPER_OBJECT} to retrieve the pointer
* to the containing struct.
* @param event event number
*/
typedef void (*NCDModuleProcess_handler_event) (struct NCDModuleProcess_s *process, int event);
/**
* Function called when the interpreter wants to resolve a special
* object in the process.
* This function must have no side effects.
*
* @param user pointer to the process. Use {@link UPPER_OBJECT} to retrieve the pointer
* to the containing struct.
* @param name name of the object as an {@link NCDStringIndex} identifier
* @param out_object the object will be returned here
* @return 1 on success, 0 on failure
*/
typedef int (*NCDModuleProcess_func_getspecialobj) (struct NCDModuleProcess_s *process, NCD_string_id_t name, NCDObject *out_object);
#define NCDMODULEPROCESS_INTERP_EVENT_CONTINUE 1
#define NCDMODULEPROCESS_INTERP_EVENT_TERMINATE 2
/**
* Function called to report process backend requests to the interpreter.
* Possible events are:
*
* - NCDMODULEPROCESS_INTERP_EVENT_CONTINUE: the process can continue.
* The process backend was in waiting state.
* The process backend enters down state.
*
* - NCDMODULEPROCESS_INTERP_EVENT_TERMINATE: the process should terminate.
* The process backend was in down, up or waiting state.
* The process backend enters terminating state.
*
* The interpreter should call {@link NCDModuleProcess_Interp_Terminated}
* when the process terminates.
*
* This function is not being called in event context. The interpreter should
* only update its internal state, and visibly react only via jobs that it pushes
* from within this function.
*
* @param user as in {@link NCDModuleProcess_Interp_SetHandlers}
* @param event event number
*/
typedef void (*NCDModuleProcess_interp_func_event) (void *user, int event);
/**
* Function called to have the interpreter resolve an object within the process
* of a process backend.
* This function must not have any side effects.
*
* @param user as in {@link NCDModuleProcess_Interp_SetHandlers}
* @param name name of the object as an {@link NCDStringIndex} identifier
* @param out_object the object will be returned here
* @return 1 on success, 0 in failure
*/
typedef int (*NCDModuleProcess_interp_func_getobj) (void *user, NCD_string_id_t name, NCDObject *out_object);
struct NCDModule;
/**
* Contains parameters to the module initialization function
* ({@link NCDModule_func_new2}) that are passed indirectly.
*/
struct NCDModuleInst_new_params {
/**
* A reference to the argument list for the module instance.
* The reference remains valid as long as the backend instance
* exists.
*/
NCDValRef args;
/**
* If the module instance corresponds to a method-like statement,
* this pointer identifies the object it is being invoked with.
* If the object is a statement (i.e. a {@link NCDModuleInst}), then this
* will be the NCDModuleInst pointer, and {@link NCDModuleInst_Backend_GetUser}
* can be called on this to retrieve the pointer to preallocated memory for
* the backend instance; *unless* {@link NCDModuleInst_Backend_PassMemToMethods}
* was called for the object on which the method is being called, in which case
* this will directly point to the preallocated memory.
* On the other hand, if this is a method on an internal object built using
* only {@link NCDObject_Build} or {@link NCDObject_BuildFull},
* this pointer will be whatever was passed as the "data_ptr" argument, for the
* first function, and as "method_user", for the latter function.
*/
void *method_user;
};
/**
* Contains parameters to {@link NCDModuleInst_Init} that are passed indirectly.
* This itself only contains parameters related to communication between the
* backend and the creator of the module instance; other parameters are passed
* via the iparams member;
*/
struct NCDModuleInst_params {
/**
* Callback to report state changes.
*/
NCDModuleInst_func_event func_event;
/**
* Callback to resolve objects from the viewpoint of the instance.
*/
NCDModuleInst_func_getobj func_getobj;
/**
* Log function which appends a log prefix with {@link BLog_Append}.
*/
BLog_logfunc logfunc;
/**
* Pointer to an {@link NCDModuleInst_iparams} structure, which exposes
* services provided by the interpreter.
*/
const struct NCDModuleInst_iparams *iparams;
};
/**
* Contains parameters to {@link NCDModuleInst_Init} that are passed indirectly.
* This only contains parameters related to services provided by the interpreter.
*/
struct NCDModuleInst_iparams {
/**
* Reactor we live in.
*/
BReactor *reactor;
#ifndef BADVPN_NO_PROCESS
/**
* Process manager.
*/
BProcessManager *manager;
#endif
#ifndef BADVPN_NO_UDEV
/**
* Udev manager.
*/
NCDUdevManager *umanager;
#endif
#ifndef BADVPN_NO_RANDOM
/**
* Random number generator.
*/
BRandom2 *random2;
#endif
/**
* String index which keeps a mapping between strings and string identifiers.
*/
NCDStringIndex *string_index;
/**
* Pointer passed to the interpreter callbacks below, for state keeping.
*/
void *user;
/**
* Callback to create a new template process.
*/
NCDModuleInst_func_initprocess func_initprocess;
/**
* Callback to request interpreter termination.
*/
NCDModuleInst_func_interp_exit func_interp_exit;
/**
* Callback to get extra command line arguments.
*/
NCDModuleInst_func_interp_getargs func_interp_getargs;
/**
* Callback to get retry time.
*/
NCDModuleInst_func_interp_getretrytime func_interp_getretrytime;
/**
* Callback to load a module group.
*/
NCDModuleInst_func_interp_loadgroup func_loadgroup;
};
/**
* Module instance.
* The module instance is initialized by the interpreter by calling
* {@link NCDModuleInst_Init}. It is implemented by a module backend
* specified in a {@link NCDModule}.
*/
typedef struct NCDModuleInst_s {
const struct NCDInterpModule *m;
const struct NCDModuleInst_params *params;
void *mem; // not modified by NCDModuleInst (but passed to module)
unsigned int state:3;
unsigned int pass_mem_to_methods:1;
unsigned int istate:3; // untouched by NCDModuleInst
NCDPersistentObj pobj;
DebugObject d_obj;
} NCDModuleInst;
/**
* Weak NCDModuleInst reference.
*/
typedef struct {
NCDObjRef objref;
DebugObject d_obj;
} NCDModuleRef;
/**
* Process created from a process template on behalf of a module backend
* instance, implemented by the interpreter.
*/
typedef struct NCDModuleProcess_s {
NCDValRef args;
NCDModuleProcess_handler_event handler_event;
NCDModuleProcess_func_getspecialobj func_getspecialobj;
void *interp_user;
NCDModuleProcess_interp_func_event interp_func_event;
NCDModuleProcess_interp_func_getobj interp_func_getobj;
#ifndef NDEBUG
int state;
#endif
DebugObject d_obj;
} NCDModuleProcess;
/**
* Initializes an instance of an NCD module.
* The instance is initialized in down state.
* WARNING: this directly calls the module backend; expect to be called back
*
* This and other non-Backend methods are the interpreter interface.
* The Backend methods are the module backend interface and are documented
* independently with their own logical states.
*
* NOTE: the instance structure \a n should have the member 'mem' initialized
* to point to preallocated memory for the statement. This memory must be
* at least m->prealloc_size big and must be properly aligned for any object.
* The 'mem' pointer is never modified by NCDModuleInst, so that the interpreter
* can use it as outside the lifetime of NCDModuleInst.
*
* @param n the instance
* @param m pointer to the {@link NCDInterpModule} structure representing the module
* to be instantiated
* @param method_context a context pointer passed to the module backend, applicable to method-like
* statements only. This should be set to the 'user' member of the
* {@link NCDObject} which represents the base object for the method.
* The caller must ensure that the NCDObject that was used is of the type
* expected by the module being instanciated.
* @param args arguments to the module. Must be a list value. Must be available and unchanged
* as long as the instance exists.
* @param user argument to callback functions
* @param params more parameters, see {@link NCDModuleInst_params}
*/
void NCDModuleInst_Init (NCDModuleInst *n, const struct NCDInterpModule *m, void *method_context, NCDValRef args, const struct NCDModuleInst_params *params);
/**
* Frees the instance.
* The instance must be in dead state.
*
* @param n the instance
*/
void NCDModuleInst_Free (NCDModuleInst *n);
/**
* Requests the instance to die.
* The instance must be in down or up state.
* The instance enters dying state.
* WARNING: this directly calls the module backend; expect to be called back
*
* @param n the instance
*/
void NCDModuleInst_Die (NCDModuleInst *n);
/**
* Attempts to destroy the instance immediately.
* This function can be used to optimize destroying instances of modules which
* don't specify any {@link NCDModule_func_die} handler. If immediate destruction
* is not possible, this does nothing and returns 0; {@link NCDModuleInst_Die}
* should be used to destroy the instance instead. If however immediate destruction
* is possible, this destroys the module instance and returns 1; {@link NCDModuleInst_Free}
* must not be called after that.
* The instance must be in down or up state, as for {@link NCDModuleInst_Die}.
*
* @param n the instance
* @return 1 if destruction was performed, 0 if not
*/
int NCDModuleInst_TryFree (NCDModuleInst *n);
/**
* Informs the module that it is in a clean state to proceed.
* The instance must be in down state.
* WARNING: this directly calls the module backend; expect to be called back
*
* @param n the instance
*/
void NCDModuleInst_Clean (NCDModuleInst *n);
/**
* Returns an {@link NCDObject} which can be used to resolve variables and objects
* within this instance, as well as call its methods. The resulting object may only
* be used immediately, and becomes invalid when the instance is freed.
*
* @param n the instance
* @return an NCDObject for this instance
*/
NCDObject NCDModuleInst_Object (NCDModuleInst *n);
/**
* If this is called, any methods called on this object will receive the preallocated
* memory pointer as the object state pointer. This means that in the
* {@link NCDModule_func_getvar2} function which is called when a method is created,
* the preallocated memory should be accessed as params->method_user.
* By default, however, params->method_user points to the NCDModuleInst of the base
* object, and {@link NCDModuleInst_Backend_GetUser} is needed to retrieve the
* preallocated memory pointer.
*/
void NCDModuleInst_Backend_PassMemToMethods (NCDModuleInst *n);
/**
* Retuns the state pointer passed to handlers of a module backend instance;
* see {@link NCDModule_func_new2}.
*
* @param n backend instance handle
* @return argument passed to handlers
*/
void * NCDModuleInst_Backend_GetUser (NCDModuleInst *n);
/**
* Puts the backend instance into up state.
* The instance must be in down state.
* The instance enters up state.
*
* @param n backend instance handle
*/
void NCDModuleInst_Backend_Up (NCDModuleInst *n);
/**
* Puts the backend instance into down state.
* The instance must be in up state.
* The instance enters down state.
*
* @param n backend instance handle
*/
void NCDModuleInst_Backend_Down (NCDModuleInst *n);
/**
* Puts the backend instance into down state, then immediatly back into the up state.
* This effectively causes the interpreter to start backtracking to this statement.
* The instance must be in up state, and remains in up state.
*
* @param n backend instance handle
*/
void NCDModuleInst_Backend_DownUp (NCDModuleInst *n);
/**
* Destroys the backend instance.
* The backend instance handle becomes invalid and must not be used from
* the backend any longer.
*
* @param n backend instance handle
*/
void NCDModuleInst_Backend_Dead (NCDModuleInst *n);
/**
* Like {@link NCDModuleInst_Backend_Dead}, but also reports an error condition
* to the interpreter.
*/
void NCDModuleInst_Backend_DeadError (NCDModuleInst *n);
/**
* Resolves an object for a backend instance, from the point of the instance's
* statement in the containing process.
*
* @param n backend instance handle
* @param name name of the object to resolve as an {@link NCDStringIndex} identifier
* @param out_object the object will be returned here
* @return 1 on success, 0 on failure
*/
int NCDModuleInst_Backend_GetObj (NCDModuleInst *n, NCD_string_id_t name, NCDObject *out_object) WARN_UNUSED;
/**
* Logs a backend instance message.
*
* @param n backend instance handle
* @param channel log channel
* @param level loglevel
* @param fmt format string as in printf, arguments follow
*/
void NCDModuleInst_Backend_Log (NCDModuleInst *n, int channel, int level, const char *fmt, ...);
/**
* Like {@link NCDModuleInst_Backend_Log}, but the extra arguments are passed
* as a va_list. This allows creation of logging wrappers.
*/
void NCDModuleInst_Backend_LogVarArg (NCDModuleInst *n, int channel, int level, const char *fmt, va_list vl);
/**
* Returns a logging context. The context is valid until the backend dies.
*/
BLogContext NCDModuleInst_Backend_LogContext (NCDModuleInst *n);
/**
* Initiates interpreter termination.
*
* @param n backend instance handle
* @param exit_code exit code to return to the operating system. This overrides
* any previously set exit code, and will be overriden by a
* termination signal to the value 1.
*/
void NCDModuleInst_Backend_InterpExit (NCDModuleInst *n, int exit_code);
/**
* Retrieves extra command line arguments passed to the interpreter.
*
* @param n backend instance handle
* @param mem value memory to use
* @param out_value the arguments will be written here on success as a list value
* @return 1 if available, 0 if not available. If available, but out of memory, returns 1
* and an invalid value.
*/
int NCDModuleInst_Backend_InterpGetArgs (NCDModuleInst *n, NCDValMem *mem, NCDValRef *out_value);
/**
* Returns the retry time of the intepreter.
*
* @param n backend instance handle
* @return retry time in milliseconds
*/
btime_t NCDModuleInst_Backend_InterpGetRetryTime (NCDModuleInst *n);
/**
* Loads a module group into the interpreter.
*
* @param n backend instance handle
* @param group module group to load
* @return 1 on success, 0 on failure
*/
int NCDModuleInst_Backend_InterpLoadGroup (NCDModuleInst *n, const struct NCDModuleGroup *group);
/**
* Initializes a weak reference to a module instance.
* The instane must no have had NCDModuleInst_Backend_PassMemToMethods
* called.
*/
void NCDModuleRef_Init (NCDModuleRef *o, NCDModuleInst *inst);
/**
* Frees the reference.
*/
void NCDModuleRef_Free (NCDModuleRef *o);
/**
* Dereferences the reference.
* If the reference was broken, returns NULL.
*/
NCDModuleInst * NCDModuleRef_Deref (NCDModuleRef *o);
/**
* Initializes a process in the interpreter from a process template.
* This must be called on behalf of a module backend instance.
* The process is initializes in down state.
*
* @param o the process
* @param n backend instance whose interpreter will be providing the process
* @param template_name name of the process template as an {@link NCDStringIndex} identifier
* @param args arguments to the process. Must be an invalid value or a list value.
* The value must be available and unchanged while the process exists.
* @param handler_event handler which reports events about the process from the
* interpreter
* @return 1 on success, 0 on failure
*/
int NCDModuleProcess_InitId (NCDModuleProcess *o, NCDModuleInst *n, NCD_string_id_t template_name, NCDValRef args, NCDModuleProcess_handler_event handler_event) WARN_UNUSED;
/**
* Wrapper around {@link NCDModuleProcess_InitId} which takes the template name as an
* {@link NCDValRef}, which must point to a string value.
*/
int NCDModuleProcess_InitValue (NCDModuleProcess *o, NCDModuleInst *n, NCDValRef template_name, NCDValRef args, NCDModuleProcess_handler_event handler_event) WARN_UNUSED;
/**
* Frees the process.
* The process must be in terminated state.
*
* @param o the process
*/
void NCDModuleProcess_Free (NCDModuleProcess *o);
/**
* Does nothing.
* The process must be in terminated state.
*
* @param o the process
*/
void NCDModuleProcess_AssertFree (NCDModuleProcess *o);
/**
* Sets callback functions for providing special objects within the process.
*
* @param o the process
* @param func_getspecialobj function for resolving special objects, or NULL
*/
void NCDModuleProcess_SetSpecialFuncs (NCDModuleProcess *o, NCDModuleProcess_func_getspecialobj func_getspecialobj);
/**
* Continues the process after the process went down.
* The process must be in waiting state.
* The process enters down state.
*
* @param o the process
*/
void NCDModuleProcess_Continue (NCDModuleProcess *o);
/**
* Requests the process to terminate.
* The process must be in down, up or waiting state.
* The process enters terminating state.
*
* @param o the process
*/
void NCDModuleProcess_Terminate (NCDModuleProcess *o);
/**
* Resolves an object within the process from the point
* at the end of the process.
* This function has no side effects.
*
* @param o the process
* @param name name of the object to resolve as an {@link NCDStringIndex} identifier
* @param out_object the object will be returned here
* @return 1 on success, 0 on failure
*/
int NCDModuleProcess_GetObj (NCDModuleProcess *o, NCD_string_id_t name, NCDObject *out_object) WARN_UNUSED;
/**
* Sets callback functions for the interpreter to implement the
* process backend.
* Must be called from within {@link NCDModuleInst_func_initprocess}
* if success is to be reported there.
*
* @param o process backend handle, as in {@link NCDModuleInst_func_initprocess}
* @param interp_user argument to callback functions
* @param interp_func_event function for reporting continue/terminate requests
* @param interp_func_getobj function for resolving objects within the process
*/
void NCDModuleProcess_Interp_SetHandlers (NCDModuleProcess *o, void *interp_user,
NCDModuleProcess_interp_func_event interp_func_event,
NCDModuleProcess_interp_func_getobj interp_func_getobj);
/**
* Reports the process backend as up.
* The process backend must be in down state.
* The process backend enters up state.
* WARNING: this directly calls the process creator; expect to be called back
*
* @param o process backend handle
*/
void NCDModuleProcess_Interp_Up (NCDModuleProcess *o);
/**
* Reports the process backend as down.
* The process backend must be in up state.
* The process backend enters waiting state.
* WARNING: this directly calls the process creator; expect to be called back
*
* NOTE: the backend enters waiting state, NOT down state. The interpreter should
* pause the process until {@link NCDModuleProcess_interp_func_event} reports
* NCDMODULEPROCESS_INTERP_EVENT_CONTINUE, unless termination is requested via
* NCDMODULEPROCESS_INTERP_EVENT_TERMINATE.
*
* @param o process backend handle
*/
void NCDModuleProcess_Interp_Down (NCDModuleProcess *o);
/**
* Reports termination of the process backend.
* The process backend must be in terminating state.
* The process backend handle becomes invalid and must not be used
* by the interpreter any longer.
* WARNING: this directly calls the process creator; expect to be called back
*
* @param o process backend handle
*/
void NCDModuleProcess_Interp_Terminated (NCDModuleProcess *o);
/**
* Resolves a special process object for the process backend.
*
* @param o process backend handle
* @param name name of the object as an {@link NCDStringIndex} identifier
* @param out_object the object will be returned here
* @return 1 on success, 0 on failure
*/
int NCDModuleProcess_Interp_GetSpecialObj (NCDModuleProcess *o, NCD_string_id_t name, NCDObject *out_object) WARN_UNUSED;
/**
* Function called before any instance of any backend in a module
* group is created;
*
* @param params structure containing global resources, such as
* {@link BReactor}, {@link BProcessManager} and {@link NCDUdevManager}.
* @return 1 on success, 0 on failure
*/
typedef int (*NCDModule_func_globalinit) (struct NCDInterpModuleGroup *group, const struct NCDModuleInst_iparams *params);
/**
* Function called to clean up after {@link NCDModule_func_globalinit} and modules
* in a module group.
* There are no backend instances alive from this module group.
*/
typedef void (*NCDModule_func_globalfree) (struct NCDInterpModuleGroup *group);
/**
* Handler called to create an new module backend instance.
* The backend is initialized in down state.
*
* If the backend fails initialization, this function should report the backend
* instance to have died with error by calling {@link NCDModuleInst_Backend_DeadError}.
*
* @param o if the module specifies a positive alloc_size value in the {@link NCDModule}
* structure, this will point to the allocated memory that can be used by the
* module instance while it exists. If the alloc_size is 0 (default), this may or
* may not be NULL.
* @param i module backend instance handler. The backend may only use this handle via
* the Backend functions of {@link NCDModuleInst}.
*/
typedef void (*NCDModule_func_new2) (void *o, NCDModuleInst *i, const struct NCDModuleInst_new_params *params);
/**
* Handler called to request termination of a backend instance.
* The backend instance was in down or up state.
* The backend instance enters dying state.
*
* @param o state pointer, as in {@link NCDModule_func_new2}
*/
typedef void (*NCDModule_func_die) (void *o);
/**
* Function called to resolve a variable within a backend instance.
* The backend instance is in up state, or in up or down state if can_resolve_when_down=1.
* This function must not have any side effects.
*
* @param o state pointer, as in {@link NCDModule_func_new2}
* @param name name of the variable to resolve
* @param mem value memory to use
* @param out on success, the backend should initialize the value here
* @return 1 if exists, 0 if not exists. If exists, but out of memory, return 1
* and an invalid value.
*/
typedef int (*NCDModule_func_getvar) (void *o, const char *name, NCDValMem *mem, NCDValRef *out);
/**
* Function called to resolve a variable within a backend instance.
* The backend instance is in up state, or in up or down state if can_resolve_when_down=1.
* This function must not have any side effects.
*
* @param o state pointer, as in {@link NCDModule_func_new2}
* @param name name of the variable to resolve as an {@link NCDStringIndex} identifier
* @param mem value memory to use
* @param out on success, the backend should initialize the value here
* @return 1 if exists, 0 if not exists. If exists, but out of memory, return 1
* and an invalid value.
*/
typedef int (*NCDModule_func_getvar2) (void *o, NCD_string_id_t name, NCDValMem *mem, NCDValRef *out);
/**
* Function called to resolve an object within a backend instance.
* The backend instance is in up state, or in up or down state if can_resolve_when_down=1.
* This function must not have any side effects.
*
* @param o state pointer, as in {@link NCDModule_func_new2}
* @param name name of the object to resolve as an {@link NCDStringIndex} identifier
* @param out_object the object will be returned here
* @return 1 on success, 0 on failure
*/
typedef int (*NCDModule_func_getobj) (void *o, NCD_string_id_t name, NCDObject *out_object);
/**
* Handler called when the module instance is in a clean state.
* This means that all statements preceding it in the process are
* up, this statement is down, and all following statements are
* uninitialized. When a backend instance goes down, it is guaranteed,
* as long as it stays down, that either this will be called or
* termination will be requested with {@link NCDModule_func_die}.
* The backend instance was in down state.
*
* @param o state pointer, as in {@link NCDModule_func_new2}
*/
typedef void (*NCDModule_func_clean) (void *o);
#define NCDMODULE_FLAG_CAN_RESOLVE_WHEN_DOWN (1 << 0)
/**
* Structure encapsulating the implementation of a module backend.
*/
struct NCDModule {
/**
* If this implements a plain statement, the name of the statement.
* If this implements a method, then "base_type::method_name".
*/
const char *type;
/**
* The base type for methods operating on instances of this backend.
* Any module with type of form "base_type::method_name" is considered
* a method of instances of this backend.
* If this is NULL, the base type will default to type.
*/
const char *base_type;
/**
* Function called to create an new backend instance.
*/
NCDModule_func_new2 func_new2;
/**
* Function called to request termination of a backend instance.
* May be NULL, in which case the default is to call NCDModuleInst_Backend_Dead().
*/
NCDModule_func_die func_die;
/**
* Function called to resolve a variable within the backend instance.
* May be NULL.
*/
NCDModule_func_getvar func_getvar;
/**
* Function called to resolve a variable within the backend instance.
* May be NULL.
*/
NCDModule_func_getvar2 func_getvar2;
/**
* Function called to resolve an object within the backend instance.
* May be NULL.
*/
NCDModule_func_getobj func_getobj;
/**
* Function called when the backend instance is in a clean state.
* May be NULL.
*/
NCDModule_func_clean func_clean;
/**
* Various flags.
*
* - NCDMODULE_FLAG_CAN_RESOLVE_WHEN_DOWN
* Whether the interpreter is allowed to call func_getvar and func_getobj
* even when the backend instance is in down state (as opposed to just
* in up state.
*/
int flags;
/**
* The amount of memory to preallocate for each module instance.
* Preallocation can be used to avoid having to allocate memory from
* module initialization. The memory can be accessed via the first
* argument to {@link NCDModule_func_new2} and other calls.
*/
int alloc_size;
};
/**
* Structure encapsulating a group of module backend implementations,
* with global init and free functions.
*/
struct NCDModuleGroup {
/**
* Function called before any instance of any module backend in this
* group is crated. May be NULL.
*/
NCDModule_func_globalinit func_globalinit;
/**
* Function called to clean up after {@link NCDModule_func_globalinit}.
* May be NULL.
*/
NCDModule_func_globalfree func_globalfree;
/**
* Array of module backends. The array must be terminated with a
* structure that has a NULL type member.
*/
const struct NCDModule *modules;
/**
* A pointer to an array of strings which will be mapped to
* {@link NCDStringIndex} string identifiers for the module to use.
* The array must be terminated by NULL. The resulting string
* identifiers will be available in the 'strings' member in
* {@link NCDInterpModuleGroup}.
*/
const char *const*strings;
/**
* A pointer to an array of global functions implemented by this module
* group. The array must be terminated with a structure that has a NULL
* func_name member. May be NULL.
*/
struct NCDModuleFunction const *functions;
};
/**
* Represents an {@link NCDModule} within an interpreter.
* This structure is initialized by the interpreter when it loads a module group.
*/
struct NCDInterpModule {
/**
* A copy of the original NCDModule structure,
*/
struct NCDModule module;
/**
* The string identifier of this module's base_type (or type if base_type is
* not specified) according to {@link NCDStringIndex}.
*/
NCD_string_id_t base_type_id;
/**
* A pointer to the {@link NCDInterpModuleGroup} representing the group
* this module belongs to.
*/
struct NCDInterpModuleGroup *group;
};
/**
* Represents an {@link NCDModuleGroup} within an interpreter.
* This structure is initialized by the interpreter when it loads a module group.
*/
struct NCDInterpModuleGroup {
/**
* A copy of the original NCDModuleGroup structure.
*/
struct NCDModuleGroup group;
/**
* An array of string identifiers corresponding to the strings
* in the 'strings' member of NCDModuleGroup. May be NULL if there
* are no strings in the NCDModuleGroup.
*/
NCD_string_id_t *strings;
/**
* Pointer which allows the module to keep private interpreter-wide state.
* This can be freely modified by the module; the interpeter will not
* read or write it.
*/
void *group_state;
};
/**
* An abstraction of function call evaluations, mutually decoupling the
* interpreter and the function implementations.
*
* The function implementation is given an instance of this structure
* in the evaluation callback (func_eval), and uses it to request
* information and submit results. The function implementation does these
* things by calling the various NCDCall functions with the NCDCall
* instance. Note that function arguments are evaluated on demand from
* the function implementation. This enables behavior such as
* short-circuit evaluation of logical operators.
*
* The NCDCall struct has a value semantic - it can be copied
* around freely by the function implementation during the
* lifetime of the evaluation call.
*/
typedef struct {
struct NCDCall_interp_shared const *interp_shared;
void *interp_user;
struct NCDInterpFunction const *interp_function;
size_t arg_count;
NCDValMem *res_mem;
NCDValRef *out_ref;
} NCDCall;
/**
* Used by the intepreter to call a function.
*
* It calls the func_eval callback of the function implementation
* with an appropriately initialized NCDCall value. This is the only
* NCDCall related function used by the interpreter.
*
* As part of the call, callbacks to the interpreter (given in interp_shared)
* may occur. All of these callbacks are passed interp_user as the first
* argument. The callbacks are:
* - logfunc (to log a message),
* - func_eval_arg (to evaluate a particular function argument).
*
* @param interp_shared pointer to things expected to be the same for all
* function calls by the interpreter. This includes interpreter callbacks.
* @param interp_user pointer to be passed through to interpreter callbacks
* @param interp_function the function to call. The evaluation function of
* the function implementation that will be called is taken from here
* (interp_function->function.func_eval), but this is also exposed to the
* function implementation, so it should be initialized appropriately.
* @param arg_count number of arguments passed to the function.
* The function implementation is only permitted to attempt evaluation
* of arguments with indices lesser than arg_count.
* @param res_mem the (initialized) value memory object for the result to
* be stored into. However this may also be used as storage for temporary
* values computed as part of the call.
* @param res_out on success, *res_out will be set to the result of the call
* @return 1 on success, 0 on error
*/
int NCDCall_DoIt (
struct NCDCall_interp_shared const *interp_shared, void *interp_user,
struct NCDInterpFunction const *interp_function,
size_t arg_count, NCDValMem *res_mem, NCDValRef *res_out
) WARN_UNUSED;
/**
* Returns a pointer to the NCDInterpFunction object for the function,
* initialized by the interpreter. This alows, among other things,
* determining which function is being called, and getting the module
* group's private data pointer.
*/
struct NCDInterpFunction const * NCDCall_InterpFunction (NCDCall const *o);
/**
* Returns a pointer to an NCDModuleInst_iparams structure, exposing
* services provided by the interpreter.
*/
struct NCDModuleInst_iparams const * NCDCall_Iparams (NCDCall const *o);
/**
* Returns the number of arguments for the function call.
*/
size_t NCDCall_ArgCount (NCDCall const *o);
/**
* Attempts to evaluate a function argument.
*
* @param index the index of the argument to be evaluated. Must be
* in the range [0, ArgCount).
* @param mem the value memory object for the value to be stored into.
* However temporary value data may also be stored here.
* @return on success, the value reference to the argument value;
* on failure, an invalid value reference
*/
NCDValRef NCDCall_EvalArg (NCDCall const *o, size_t index, NCDValMem *mem);
/**
* Returns a pointer to the value memory object that the result
* of the call should be stored into. The memory object may also
* be used to store temporary value data.
*/
NCDValMem * NCDCall_ResMem (NCDCall const *o);
/**
* Provides result value of the evaluation to the interpreter.
* Note that this only stores the result without any immediate
* action.
*
* Passing an invalid value reference indicates failure of the
* call, though failure is also assumed if this function is
* not called at all during the call. When a non-invalid
* value reference is passed (indicating success), it must point
* to a value stored within the memory object returned by
* NCDCall_ResMem.
*
* @param ref the result value for the call, or an invalid
* value reference to indicate failure of the call
*/
void NCDCall_SetResult (NCDCall const *o, NCDValRef ref);
/**
* Returns a log context that can be used to log messages
* associated with the call.
*/
BLogContext NCDCall_LogContext (NCDCall const *o);
/**
* A structure initialized by the interpreter and passed
* to NCDCall_DoIt for function evaluations.
* It contains a pointer to things expected to be the same for all
* function calls by the interpreter, so it can be initialized once
* and not for every call.
*/
struct NCDCall_interp_shared {
/**
* A callack for log messages originating from the function call.
* The first argument is the interp_user argument to NCDCall_DoIt.
*/
BLog_logfunc logfunc;
/**
* A callback for evaluating function arguments.
*
* @param user interpreter private data (the interp_user argument
* to NCDCall_DoIt)
* @param index the index of the argument to be evaluated.
* This will be in the range [0, arg_count).
* @param mem the value memory object where the result of the
* evaluation should be stored. Temporary value data may also
* be stored here.
* @param out on success, *out should be set to the value reference
* to the result of the evaluation. An invalid value reference is
* permitted, in which case failure is assumed.
* @return 1 on success (but see above), 0 on failure
*/
int (*func_eval_arg) (void *user, size_t index, NCDValMem *mem, NCDValRef *out);
/**
* A pointer to an NCDModuleInst_iparams structure, exposing
* services provided by the interpreter.
*/
struct NCDModuleInst_iparams const *iparams;
};
/**
* This structure is initialized statically by a function
* implementation to describe the function and provide
* the resources required for its evaluation by the interpreter.
*
* These structures always appear in arrays, pointed to by
* the functions pointer in the NCDModuleGroup structure.
*/
struct NCDModuleFunction {
/**
* The name of the function.
* NULL to terminate the array of functions.
*/
char const *func_name;
/**
* Callback for evaluating the function.
*/
void (*func_eval) (NCDCall call);
};
/**
* Represents an {@link NCDModuleFunction} within an interpreter.
* This structure is initialized by the interpreter when it loads a module group.
*/
struct NCDInterpFunction {
/**
* A copy of the original NCDModuleFunction structure.
* We could just use a pointer to the original statically defined structure,
* but then we wouldn't be annoying the premature-optimization hipsters.
*/
struct NCDModuleFunction function;
/**
* The string identifier of this functions's name. according to
* {@link NCDStringIndex}.
*/
NCD_string_id_t func_name_id;
/**
* A pointer to the {@link NCDInterpModuleGroup} representing the group
* this function belongs to.
*/
struct NCDInterpModuleGroup *group;
};
#endif