xref: /openbmc/qemu/include/qapi/visitor.h (revision 4b9fa0b4)
1 /*
2  * Core Definitions for QAPI Visitor Classes
3  *
4  * Copyright (C) 2012-2016 Red Hat, Inc.
5  * Copyright IBM, Corp. 2011
6  *
7  * Authors:
8  *  Anthony Liguori   <aliguori@us.ibm.com>
9  *
10  * This work is licensed under the terms of the GNU LGPL, version 2.1 or later.
11  * See the COPYING.LIB file in the top-level directory.
12  *
13  */
14 
15 #ifndef QAPI_VISITOR_H
16 #define QAPI_VISITOR_H
17 
18 #include "qapi/qapi-builtin-types.h"
19 
20 /*
21  * The QAPI schema defines both a set of C data types, and a QMP wire
22  * format.  QAPI objects can contain references to other QAPI objects,
23  * resulting in a directed acyclic graph.  QAPI also generates visitor
24  * functions to walk these graphs.  This file represents the interface
25  * for doing work at each node of a QAPI graph; it can also be used
26  * for a virtual walk, where there is no actual QAPI C struct.
27  *
28  * There are four kinds of visitor classes: input visitors (QObject,
29  * string, and QemuOpts) parse an external representation and build
30  * the corresponding QAPI graph, output visitors (QObject and string) take
31  * a completed QAPI graph and generate an external representation, the
32  * dealloc visitor can take a QAPI graph (possibly partially
33  * constructed) and recursively free its resources, and the clone
34  * visitor performs a deep clone of one QAPI object to another.  While
35  * the dealloc and QObject input/output visitors are general, the string,
36  * QemuOpts, and clone visitors have some implementation limitations;
37  * see the documentation for each visitor for more details on what it
38  * supports.  Also, see visitor-impl.h for the callback contracts
39  * implemented by each visitor, and docs/devel/qapi-code-gen.txt for more
40  * about the QAPI code generator.
41  *
42  * All of the visitors are created via:
43  *
44  * Visitor *subtype_visitor_new(parameters...);
45  *
46  * A visitor should be used for exactly one top-level visit_type_FOO()
47  * or virtual walk; if that is successful, the caller can optionally
48  * call visit_complete() (for now, useful only for output visits, but
49  * safe to call on all visits).  Then, regardless of success or
50  * failure, the user should call visit_free() to clean up resources.
51  * It is okay to free the visitor without completing the visit, if
52  * some other error is detected in the meantime.
53  *
54  * All QAPI types have a corresponding function with a signature
55  * roughly compatible with this:
56  *
57  * void visit_type_FOO(Visitor *v, const char *name, T obj, Error **errp);
58  *
59  * where T is FOO for scalar types, and FOO * otherwise.  The scalar
60  * visitors are declared here; the remaining visitors are generated in
61  * qapi-visit.h.
62  *
63  * The @name parameter of visit_type_FOO() describes the relation
64  * between this QAPI value and its parent container.  When visiting
65  * the root of a tree, @name is ignored; when visiting a member of an
66  * object, @name is the key associated with the value; when visiting a
67  * member of a list, @name is NULL; and when visiting the member of an
68  * alternate, @name should equal the name used for visiting the
69  * alternate.
70  *
71  * The visit_type_FOO() functions expect a non-null @obj argument;
72  * they allocate *@obj during input visits, leave it unchanged on
73  * output visits, and recursively free any resources during a dealloc
74  * visit.  Each function also takes the customary @errp argument (see
75  * qapi/error.h for details), for reporting any errors (such as if a
76  * member @name is not present, or is present but not the specified
77  * type).
78  *
79  * If an error is detected during visit_type_FOO() with an input
80  * visitor, then *@obj will be NULL for pointer types, and left
81  * unchanged for scalar types.  Using an output or clone visitor with
82  * an incomplete object has undefined behavior (other than a special
83  * case for visit_type_str() treating NULL like ""), while the dealloc
84  * visitor safely handles incomplete objects.  Since input visitors
85  * never produce an incomplete object, such an object is possible only
86  * by manual construction.
87  *
88  * For the QAPI object types (structs, unions, and alternates), there
89  * is an additional generated function in qapi-visit.h compatible
90  * with:
91  *
92  * void visit_type_FOO_members(Visitor *v, FOO *obj, Error **errp);
93  *
94  * for visiting the members of a type without also allocating the QAPI
95  * struct.
96  *
97  * Additionally, in qapi-types.h, all QAPI pointer types (structs,
98  * unions, alternates, and lists) have a generated function compatible
99  * with:
100  *
101  * void qapi_free_FOO(FOO *obj);
102  *
103  * where behaves like free() in that @obj may be NULL.  Such objects
104  * may also be used with the following macro, provided alongside the
105  * clone visitor:
106  *
107  * Type *QAPI_CLONE(Type, src);
108  *
109  * in order to perform a deep clone of @src.  Because of the generated
110  * qapi_free functions and the QAPI_CLONE() macro, the clone and
111  * dealloc visitor should not be used directly outside of QAPI code.
112  *
113  * QAPI types can also inherit from a base class; when this happens, a
114  * function is generated for easily going from the derived type to the
115  * base type:
116  *
117  * BASE *qapi_CHILD_base(CHILD *obj);
118  *
119  * For a real QAPI struct, typical input usage involves:
120  *
121  * <example>
122  *  Foo *f;
123  *  Error *err = NULL;
124  *  Visitor *v;
125  *
126  *  v = FOO_visitor_new(...);
127  *  visit_type_Foo(v, NULL, &f, &err);
128  *  if (err) {
129  *      ...handle error...
130  *  } else {
131  *      ...use f...
132  *  }
133  *  visit_free(v);
134  *  qapi_free_Foo(f);
135  * </example>
136  *
137  * For a list, it is:
138  * <example>
139  *  FooList *l;
140  *  Error *err = NULL;
141  *  Visitor *v;
142  *
143  *  v = FOO_visitor_new(...);
144  *  visit_type_FooList(v, NULL, &l, &err);
145  *  if (err) {
146  *      ...handle error...
147  *  } else {
148  *      for ( ; l; l = l->next) {
149  *          ...use l->value...
150  *      }
151  *  }
152  *  visit_free(v);
153  *  qapi_free_FooList(l);
154  * </example>
155  *
156  * Similarly, typical output usage is:
157  *
158  * <example>
159  *  Foo *f = ...obtain populated object...
160  *  Error *err = NULL;
161  *  Visitor *v;
162  *  Type *result;
163  *
164  *  v = FOO_visitor_new(..., &result);
165  *  visit_type_Foo(v, NULL, &f, &err);
166  *  if (err) {
167  *      ...handle error...
168  *  } else {
169  *      visit_complete(v, &result);
170  *      ...use result...
171  *  }
172  *  visit_free(v);
173  * </example>
174  *
175  * When visiting a real QAPI struct, this file provides several
176  * helpers that rely on in-tree information to control the walk:
177  * visit_optional() for the 'has_member' field associated with
178  * optional 'member' in the C struct; and visit_next_list() for
179  * advancing through a FooList linked list.  Similarly, the
180  * visit_is_input() helper makes it possible to write code that is
181  * visitor-agnostic everywhere except for cleanup.  Only the generated
182  * visit_type functions need to use these helpers.
183  *
184  * It is also possible to use the visitors to do a virtual walk, where
185  * no actual QAPI struct is present.  In this situation, decisions
186  * about what needs to be walked are made by the calling code, and
187  * structured visits are split between pairs of start and end methods
188  * (where the end method must be called if the start function
189  * succeeded, even if an intermediate visit encounters an error).
190  * Thus, a virtual walk corresponding to '{ "list": [1, 2] }' looks
191  * like:
192  *
193  * <example>
194  *  Visitor *v;
195  *  Error *err = NULL;
196  *  int value;
197  *
198  *  v = FOO_visitor_new(...);
199  *  visit_start_struct(v, NULL, NULL, 0, &err);
200  *  if (err) {
201  *      goto out;
202  *  }
203  *  visit_start_list(v, "list", NULL, 0, &err);
204  *  if (err) {
205  *      goto outobj;
206  *  }
207  *  value = 1;
208  *  visit_type_int(v, NULL, &value, &err);
209  *  if (err) {
210  *      goto outlist;
211  *  }
212  *  value = 2;
213  *  visit_type_int(v, NULL, &value, &err);
214  *  if (err) {
215  *      goto outlist;
216  *  }
217  * outlist:
218  *  visit_end_list(v, NULL);
219  *  if (!err) {
220  *      visit_check_struct(v, &err);
221  *  }
222  * outobj:
223  *  visit_end_struct(v, NULL);
224  * out:
225  *  error_propagate(errp, err);
226  *  visit_free(v);
227  * </example>
228  */
229 
230 /*** Useful types ***/
231 
232 /* This struct is layout-compatible with all other *List structs
233  * created by the QAPI generator.  It is used as a typical
234  * singly-linked list. */
235 typedef struct GenericList {
236     struct GenericList *next;
237     char padding[];
238 } GenericList;
239 
240 /* This struct is layout-compatible with all Alternate types
241  * created by the QAPI generator. */
242 typedef struct GenericAlternate {
243     QType type;
244     char padding[];
245 } GenericAlternate;
246 
247 /*** Visitor cleanup ***/
248 
249 /*
250  * Complete the visit, collecting any output.
251  *
252  * May only be called only once after a successful top-level
253  * visit_type_FOO() or visit_end_ITEM(), and marks the end of the
254  * visit.  The @opaque pointer should match the output parameter
255  * passed to the subtype_visitor_new() used to create an output
256  * visitor, or NULL for any other visitor.  Needed for output
257  * visitors, but may also be called with other visitors.
258  */
259 void visit_complete(Visitor *v, void *opaque);
260 
261 /*
262  * Free @v and any resources it has tied up.
263  *
264  * May be called whether or not the visit has been successfully
265  * completed, but should not be called until a top-level
266  * visit_type_FOO() or visit_start_ITEM() has been performed on the
267  * visitor.  Safe if @v is NULL.
268  */
269 void visit_free(Visitor *v);
270 
271 
272 /*** Visiting structures ***/
273 
274 /*
275  * Start visiting an object @obj (struct or union).
276  *
277  * @name expresses the relationship of this object to its parent
278  * container; see the general description of @name above.
279  *
280  * @obj must be non-NULL for a real walk, in which case @size
281  * determines how much memory an input or clone visitor will allocate
282  * into *@obj.  @obj may also be NULL for a virtual walk, in which
283  * case @size is ignored.
284  *
285  * @errp obeys typical error usage, and reports failures such as a
286  * member @name is not present, or present but not an object.  On
287  * error, input visitors set *@obj to NULL.
288  *
289  * After visit_start_struct() succeeds, the caller may visit its
290  * members one after the other, passing the member's name and address
291  * within the struct.  Finally, visit_end_struct() needs to be called
292  * with the same @obj to clean up, even if intermediate visits fail.
293  * See the examples above.
294  *
295  * FIXME Should this be named visit_start_object, since it is also
296  * used for QAPI unions, and maps to JSON objects?
297  */
298 void visit_start_struct(Visitor *v, const char *name, void **obj,
299                         size_t size, Error **errp);
300 
301 /*
302  * Prepare for completing an object visit.
303  *
304  * @errp obeys typical error usage, and reports failures such as
305  * unparsed keys remaining in the input stream.
306  *
307  * Should be called prior to visit_end_struct() if all other
308  * intermediate visit steps were successful, to allow the visitor one
309  * last chance to report errors.  May be skipped on a cleanup path,
310  * where there is no need to check for further errors.
311  */
312 void visit_check_struct(Visitor *v, Error **errp);
313 
314 /*
315  * Complete an object visit started earlier.
316  *
317  * @obj must match what was passed to the paired visit_start_struct().
318  *
319  * Must be called after any successful use of visit_start_struct(),
320  * even if intermediate processing was skipped due to errors, to allow
321  * the backend to release any resources.  Destroying the visitor early
322  * with visit_free() behaves as if this was implicitly called.
323  */
324 void visit_end_struct(Visitor *v, void **obj);
325 
326 
327 /*** Visiting lists ***/
328 
329 /*
330  * Start visiting a list.
331  *
332  * @name expresses the relationship of this list to its parent
333  * container; see the general description of @name above.
334  *
335  * @list must be non-NULL for a real walk, in which case @size
336  * determines how much memory an input or clone visitor will allocate
337  * into *@list (at least sizeof(GenericList)).  Some visitors also
338  * allow @list to be NULL for a virtual walk, in which case @size is
339  * ignored.
340  *
341  * @errp obeys typical error usage, and reports failures such as a
342  * member @name is not present, or present but not a list.  On error,
343  * input visitors set *@list to NULL.
344  *
345  * After visit_start_list() succeeds, the caller may visit its members
346  * one after the other.  A real visit (where @obj is non-NULL) uses
347  * visit_next_list() for traversing the linked list, while a virtual
348  * visit (where @obj is NULL) uses other means.  For each list
349  * element, call the appropriate visit_type_FOO() with name set to
350  * NULL and obj set to the address of the value member of the list
351  * element.  Finally, visit_end_list() needs to be called with the
352  * same @list to clean up, even if intermediate visits fail.  See the
353  * examples above.
354  */
355 void visit_start_list(Visitor *v, const char *name, GenericList **list,
356                       size_t size, Error **errp);
357 
358 /*
359  * Iterate over a GenericList during a non-virtual list visit.
360  *
361  * @size represents the size of a linked list node (at least
362  * sizeof(GenericList)).
363  *
364  * @tail must not be NULL; on the first call, @tail is the value of
365  * *list after visit_start_list(), and on subsequent calls @tail must
366  * be the previously returned value.  Should be called in a loop until
367  * a NULL return; for each non-NULL return, the caller then calls the
368  * appropriate visit_type_*() for the element type of the list, with
369  * that function's name parameter set to NULL and obj set to the
370  * address of @tail->value.
371  */
372 GenericList *visit_next_list(Visitor *v, GenericList *tail, size_t size);
373 
374 /*
375  * Prepare for completing a list visit.
376  *
377  * @errp obeys typical error usage, and reports failures such as
378  * unvisited list tail remaining in the input stream.
379  *
380  * Should be called prior to visit_end_list() if all other
381  * intermediate visit steps were successful, to allow the visitor one
382  * last chance to report errors.  May be skipped on a cleanup path,
383  * where there is no need to check for further errors.
384  */
385 void visit_check_list(Visitor *v, Error **errp);
386 
387 /*
388  * Complete a list visit started earlier.
389  *
390  * @list must match what was passed to the paired visit_start_list().
391  *
392  * Must be called after any successful use of visit_start_list(), even
393  * if intermediate processing was skipped due to errors, to allow the
394  * backend to release any resources.  Destroying the visitor early
395  * with visit_free() behaves as if this was implicitly called.
396  */
397 void visit_end_list(Visitor *v, void **list);
398 
399 
400 /*** Visiting alternates ***/
401 
402 /*
403  * Start the visit of an alternate @obj.
404  *
405  * @name expresses the relationship of this alternate to its parent
406  * container; see the general description of @name above.
407  *
408  * @obj must not be NULL. Input and clone visitors use @size to
409  * determine how much memory to allocate into *@obj, then determine
410  * the qtype of the next thing to be visited, stored in (*@obj)->type.
411  * Other visitors will leave @obj unchanged.
412  *
413  * If successful, this must be paired with visit_end_alternate() with
414  * the same @obj to clean up, even if visiting the contents of the
415  * alternate fails.
416  */
417 void visit_start_alternate(Visitor *v, const char *name,
418                            GenericAlternate **obj, size_t size,
419                            Error **errp);
420 
421 /*
422  * Finish visiting an alternate type.
423  *
424  * @obj must match what was passed to the paired visit_start_alternate().
425  *
426  * Must be called after any successful use of visit_start_alternate(),
427  * even if intermediate processing was skipped due to errors, to allow
428  * the backend to release any resources.  Destroying the visitor early
429  * with visit_free() behaves as if this was implicitly called.
430  *
431  */
432 void visit_end_alternate(Visitor *v, void **obj);
433 
434 
435 /*** Other helpers ***/
436 
437 /*
438  * Does optional struct member @name need visiting?
439  *
440  * @name must not be NULL.  This function is only useful between
441  * visit_start_struct() and visit_end_struct(), since only objects
442  * have optional keys.
443  *
444  * @present points to the address of the optional member's has_ flag.
445  *
446  * Input visitors set *@present according to input; other visitors
447  * leave it unchanged.  In either case, return *@present for
448  * convenience.
449  */
450 bool visit_optional(Visitor *v, const char *name, bool *present);
451 
452 /*
453  * Visit an enum value.
454  *
455  * @name expresses the relationship of this enum to its parent
456  * container; see the general description of @name above.
457  *
458  * @obj must be non-NULL.  Input visitors parse input and set *@obj to
459  * the enumeration value, leaving @obj unchanged on error; other
460  * visitors use *@obj but leave it unchanged.
461  *
462  * Currently, all input visitors parse text input, and all output
463  * visitors produce text output.  The mapping between enumeration
464  * values and strings is done by the visitor core, using @strings; it
465  * should be the ENUM_lookup array from visit-types.h.
466  *
467  * May call visit_type_str() under the hood, and the enum visit may
468  * fail even if the corresponding string visit succeeded; this implies
469  * that visit_type_str() must have no unwelcome side effects.
470  */
471 void visit_type_enum(Visitor *v, const char *name, int *obj,
472                      const QEnumLookup *lookup, Error **errp);
473 
474 /*
475  * Check if visitor is an input visitor.
476  */
477 bool visit_is_input(Visitor *v);
478 
479 /*** Visiting built-in types ***/
480 
481 /*
482  * Visit an integer value.
483  *
484  * @name expresses the relationship of this integer to its parent
485  * container; see the general description of @name above.
486  *
487  * @obj must be non-NULL.  Input visitors set *@obj to the value;
488  * other visitors will leave *@obj unchanged.
489  */
490 void visit_type_int(Visitor *v, const char *name, int64_t *obj, Error **errp);
491 
492 /*
493  * Visit a uint8_t value.
494  * Like visit_type_int(), except clamps the value to uint8_t range.
495  */
496 void visit_type_uint8(Visitor *v, const char *name, uint8_t *obj,
497                       Error **errp);
498 
499 /*
500  * Visit a uint16_t value.
501  * Like visit_type_int(), except clamps the value to uint16_t range.
502  */
503 void visit_type_uint16(Visitor *v, const char *name, uint16_t *obj,
504                        Error **errp);
505 
506 /*
507  * Visit a uint32_t value.
508  * Like visit_type_int(), except clamps the value to uint32_t range.
509  */
510 void visit_type_uint32(Visitor *v, const char *name, uint32_t *obj,
511                        Error **errp);
512 
513 /*
514  * Visit a uint64_t value.
515  * Like visit_type_int(), except clamps the value to uint64_t range,
516  * that is, ensures it is unsigned.
517  */
518 void visit_type_uint64(Visitor *v, const char *name, uint64_t *obj,
519                        Error **errp);
520 
521 /*
522  * Visit an int8_t value.
523  * Like visit_type_int(), except clamps the value to int8_t range.
524  */
525 void visit_type_int8(Visitor *v, const char *name, int8_t *obj, Error **errp);
526 
527 /*
528  * Visit an int16_t value.
529  * Like visit_type_int(), except clamps the value to int16_t range.
530  */
531 void visit_type_int16(Visitor *v, const char *name, int16_t *obj,
532                       Error **errp);
533 
534 /*
535  * Visit an int32_t value.
536  * Like visit_type_int(), except clamps the value to int32_t range.
537  */
538 void visit_type_int32(Visitor *v, const char *name, int32_t *obj,
539                       Error **errp);
540 
541 /*
542  * Visit an int64_t value.
543  * Identical to visit_type_int().
544  */
545 void visit_type_int64(Visitor *v, const char *name, int64_t *obj,
546                       Error **errp);
547 
548 /*
549  * Visit a uint64_t value.
550  * Like visit_type_uint64(), except that some visitors may choose to
551  * recognize additional syntax, such as suffixes for easily scaling
552  * values.
553  */
554 void visit_type_size(Visitor *v, const char *name, uint64_t *obj,
555                      Error **errp);
556 
557 /*
558  * Visit a boolean value.
559  *
560  * @name expresses the relationship of this boolean to its parent
561  * container; see the general description of @name above.
562  *
563  * @obj must be non-NULL.  Input visitors set *@obj to the value;
564  * other visitors will leave *@obj unchanged.
565  */
566 void visit_type_bool(Visitor *v, const char *name, bool *obj, Error **errp);
567 
568 /*
569  * Visit a string value.
570  *
571  * @name expresses the relationship of this string to its parent
572  * container; see the general description of @name above.
573  *
574  * @obj must be non-NULL.  Input and clone visitors set *@obj to the
575  * value (always using "" rather than NULL for an empty string).
576  * Other visitors leave *@obj unchanged, and commonly treat NULL like
577  * "".
578  *
579  * It is safe to cast away const when preparing a (const char *) value
580  * into @obj for use by an output visitor.
581  *
582  * FIXME: Callers that try to output NULL *obj should not be allowed.
583  */
584 void visit_type_str(Visitor *v, const char *name, char **obj, Error **errp);
585 
586 /*
587  * Visit a number (i.e. double) value.
588  *
589  * @name expresses the relationship of this number to its parent
590  * container; see the general description of @name above.
591  *
592  * @obj must be non-NULL.  Input visitors set *@obj to the value;
593  * other visitors will leave *@obj unchanged.  Visitors should
594  * document if infinity or NaN are not permitted.
595  */
596 void visit_type_number(Visitor *v, const char *name, double *obj,
597                        Error **errp);
598 
599 /*
600  * Visit an arbitrary value.
601  *
602  * @name expresses the relationship of this value to its parent
603  * container; see the general description of @name above.
604  *
605  * @obj must be non-NULL.  Input visitors set *@obj to the value;
606  * other visitors will leave *@obj unchanged.  *@obj must be non-NULL
607  * for output visitors.
608  *
609  * Note that some kinds of input can't express arbitrary QObject.
610  * E.g. the visitor returned by qobject_input_visitor_new_keyval()
611  * can't create numbers or booleans, only strings.
612  */
613 void visit_type_any(Visitor *v, const char *name, QObject **obj, Error **errp);
614 
615 /*
616  * Visit a JSON null value.
617  *
618  * @name expresses the relationship of the null value to its parent
619  * container; see the general description of @name above.
620  *
621  * @obj must be non-NULL.  Input visitors set *@obj to the value;
622  * other visitors ignore *@obj.
623  */
624 void visit_type_null(Visitor *v, const char *name, QNull **obj,
625                      Error **errp);
626 
627 #endif
628