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/*
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* upb - a minimalist implementation of protocol buffers.
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*
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* Copyright (c) 2010-2011 Google Inc. See LICENSE for details.
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* Author: Josh Haberman <jhaberman@gmail.com>
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*
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* upb_handlers is a generic visitor-like interface for iterating over a stream
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* of protobuf data. You can register function pointers that will be called
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* for each message and/or field as the data is being parsed or iterated over,
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* without having to know the source format that we are parsing from. This
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* decouples the parsing logic from the processing logic.
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*/
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#ifndef UPB_HANDLERS_H
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#define UPB_HANDLERS_H
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#include <limits.h>
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#include "upb/upb.h"
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#include "upb/def.h"
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#include "upb/bytestream.h"
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#ifdef __cplusplus
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extern "C" {
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#endif
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/* Handlers protocol definition ***********************************************/
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// A upb_handlers object represents a graph of handlers. Each message can have
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// a set of handlers as well as a set of fields which themselves have handlers.
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// Fields that represent submessages or groups are linked to other message
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// handlers, so the overall set of handlers can form a graph structure (which
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// may be cyclic).
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//
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// The upb_mhandlers (message handlers) object can have the following handlers:
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//
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// static upb_flow_t startmsg(void *closure) {
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// // Called when the message begins. "closure" was supplied by our caller.
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// return UPB_CONTINUE;
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// }
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//
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// static void endmsg(void *closure, upb_status *status) {
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// // Called when processing of this message ends, whether in success or
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// // failure. "status" indicates the final status of processing, and can
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// / also be modified in-place to update the final status.
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// //
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// // Since this callback is guaranteed to always be called eventually, it
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// // can be used to free any resources that were allocated during processing.
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// }
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//
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// TODO: unknown field handler.
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//
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// The upb_fhandlers (field handlers) object can have the following handlers:
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//
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// static upb_flow_t value(void *closure, upb_value fval, upb_value val) {
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// // Called when the field's value is encountered. "fval" contains
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// // whatever value was bound to this field at registration type
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// // (for upb_register_all(), this will be the field's upb_fielddef*).
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// return UPB_CONTINUE;
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// }
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//
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// static upb_sflow_t startsubmsg(void *closure, upb_value fval) {
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// // Called when a submessage begins. The second element of the return
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// // value is the closure for the submessage.
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// return UPB_CONTINUE_WITH(closure);
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// }
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//
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// static upb_flow_t endsubmsg(void *closure, upb_value fval) {
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// // Called when a submessage ends.
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// return UPB_CONTINUE;
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// }
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//
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// static upb_sflow_t startseqmsg(void *closure, upb_value fval) {
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// // Called when a sequence (repeated field) begins. The second element
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// // of the return value is the closure for the sequence.
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// return UPB_CONTINUE_WITH(closure);
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// }
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//
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// static upb_flow_t endeqvoid *closure, upb_value fval) {
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// // Called when a sequence ends.
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// return UPB_CONTINUE;
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// }
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//
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// All handlers except the endmsg handler return a value from this enum, to
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// control whether parsing will continue or not.
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typedef enum {
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// Data source should continue calling callbacks.
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UPB_CONTINUE = 0,
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// Halt processing permanently (in a non-resumable way). The endmsg handlers
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// for any currently open messages will be called which can supply a more
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// specific status message. No further input data will be consumed.
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UPB_BREAK,
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// Skips to the end of the current submessage (or if we are at the top
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// level, skips to the end of the entire message). In other words, it is
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// like a UPB_BREAK that applies only to the current level.
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//
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// If you UPB_SKIPSUBMSG from a startmsg handler, the endmsg handler will
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// be called to perform cleanup and return a status. Returning
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// UPB_SKIPSUBMSG from a startsubmsg handler will *not* call the startmsg,
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// endmsg, or endsubmsg handlers.
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//
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// If UPB_SKIPSUBMSG is called from the top-level message, no further input
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// data will be consumed.
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UPB_SKIPSUBMSG,
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// TODO: Add UPB_SUSPEND, for resumable producers/consumers.
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} upb_flow_t;
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// The startsubmsg handler needs to also pass a closure to the submsg.
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typedef struct {
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upb_flow_t flow;
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void *closure;
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} upb_sflow_t;
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INLINE upb_sflow_t UPB_SFLOW(upb_flow_t flow, void *closure) {
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upb_sflow_t ret = {flow, closure};
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return ret;
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}
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#define UPB_CONTINUE_WITH(c) UPB_SFLOW(UPB_CONTINUE, c)
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#define UPB_SBREAK UPB_SFLOW(UPB_BREAK, NULL)
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// Typedefs for all of the handler functions defined above.
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typedef upb_flow_t (upb_startmsg_handler)(void *c);
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typedef void (upb_endmsg_handler)(void *c, upb_status *status);
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typedef upb_flow_t (upb_value_handler)(void *c, upb_value fval, upb_value val);
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typedef upb_sflow_t (upb_startfield_handler)(void *closure, upb_value fval);
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typedef upb_flow_t (upb_endfield_handler)(void *closure, upb_value fval);
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/* upb_fhandlers **************************************************************/
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// A upb_fhandlers object represents the set of handlers associated with one
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// specific message field.
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struct _upb_decoder;
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struct _upb_mhandlers;
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typedef struct _upb_fieldent {
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bool junk;
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upb_fieldtype_t type;
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bool repeated;
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bool is_repeated_primitive;
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upb_atomic_t refcount;
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uint32_t number;
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struct _upb_mhandlers *msg;
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struct _upb_mhandlers *submsg; // Set iff upb_issubmsgtype(type) == true.
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upb_value fval;
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upb_value_handler *value;
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upb_startfield_handler *startsubmsg;
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upb_endfield_handler *endsubmsg;
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upb_startfield_handler *startseq;
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upb_endfield_handler *endseq;
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#ifdef UPB_USE_JIT_X64
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uint32_t jit_pclabel;
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uint32_t jit_pclabel_notypecheck;
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uint32_t jit_submsg_done_pclabel;
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#endif
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void (*decode)(struct _upb_decoder *d, struct _upb_fieldent *f);
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} upb_fhandlers;
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// fhandlers are created as part of a upb_handlers instance, but can be ref'd
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// and unref'd to prolong the life of the handlers.
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void upb_fhandlers_ref(upb_fhandlers *m);
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void upb_fhandlers_unref(upb_fhandlers *m);
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// upb_fhandlers accessors
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#define UPB_FHANDLERS_ACCESSORS(name, type) \
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INLINE void upb_fhandlers_set ## name(upb_fhandlers *f, type v){f->name = v;} \
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INLINE type upb_fhandlers_get ## name(upb_fhandlers *f) { return f->name; }
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UPB_FHANDLERS_ACCESSORS(fval, upb_value)
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UPB_FHANDLERS_ACCESSORS(value, upb_value_handler*)
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UPB_FHANDLERS_ACCESSORS(startsubmsg, upb_startfield_handler*)
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UPB_FHANDLERS_ACCESSORS(endsubmsg, upb_endfield_handler*)
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UPB_FHANDLERS_ACCESSORS(startseq, upb_startfield_handler*)
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UPB_FHANDLERS_ACCESSORS(endseq, upb_endfield_handler*)
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UPB_FHANDLERS_ACCESSORS(msg, struct _upb_mhandlers*)
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UPB_FHANDLERS_ACCESSORS(submsg, struct _upb_mhandlers*)
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/* upb_mhandlers **************************************************************/
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// A upb_mhandlers object represents the set of handlers associated with a
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// message in the graph of messages.
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typedef struct _upb_mhandlers {
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upb_atomic_t refcount;
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upb_startmsg_handler *startmsg;
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upb_endmsg_handler *endmsg;
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upb_inttable fieldtab; // Maps field number -> upb_fhandlers.
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bool is_group;
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#ifdef UPB_USE_JIT_X64
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uint32_t jit_startmsg_pclabel;
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uint32_t jit_endofbuf_pclabel;
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uint32_t jit_endofmsg_pclabel;
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uint32_t jit_unknownfield_pclabel;
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int32_t jit_parent_field_done_pclabel;
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uint32_t max_field_number;
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// Currently keyed on field number. Could also try keying it
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// on encoded or decoded tag, or on encoded field number.
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void **tablearray;
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#endif
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} upb_mhandlers;
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// mhandlers are created as part of a upb_handlers instance, but can be ref'd
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// and unref'd to prolong the life of the handlers.
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void upb_mhandlers_ref(upb_mhandlers *m);
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void upb_mhandlers_unref(upb_mhandlers *m);
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// Creates a new field with the given name and number. There must not be an
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// existing field with either this name or number or abort() will be called.
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// TODO: this should take a name also.
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upb_fhandlers *upb_mhandlers_newfhandlers(upb_mhandlers *m, uint32_t n,
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upb_fieldtype_t type, bool repeated);
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// Like the previous but for MESSAGE or GROUP fields. For GROUP fields, the
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// given submessage must not have any fields with this field number.
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upb_fhandlers *upb_mhandlers_newfhandlers_subm(upb_mhandlers *m, uint32_t n,
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upb_fieldtype_t type,
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bool repeated,
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upb_mhandlers *subm);
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// upb_mhandlers accessors.
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#define UPB_MHANDLERS_ACCESSORS(name, type) \
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INLINE void upb_mhandlers_set ## name(upb_mhandlers *m, type v){m->name = v;} \
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INLINE type upb_mhandlers_get ## name(upb_mhandlers *m) { return m->name; }
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UPB_MHANDLERS_ACCESSORS(startmsg, upb_startmsg_handler*);
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UPB_MHANDLERS_ACCESSORS(endmsg, upb_endmsg_handler*);
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/* upb_handlers ***************************************************************/
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struct _upb_handlers {
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upb_atomic_t refcount;
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upb_mhandlers **msgs; // Array of msgdefs, [0]=toplevel.
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int msgs_len, msgs_size;
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bool should_jit;
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};
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typedef struct _upb_handlers upb_handlers;
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upb_handlers *upb_handlers_new(void);
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void upb_handlers_ref(upb_handlers *h);
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void upb_handlers_unref(upb_handlers *h);
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// Appends a new message to the graph of handlers and returns it. This message
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// can be obtained later at index upb_handlers_msgcount()-1. All handlers will
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// be initialized to no-op handlers.
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upb_mhandlers *upb_handlers_newmhandlers(upb_handlers *h);
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upb_mhandlers *upb_handlers_getmhandlers(upb_handlers *h, int index);
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// Convenience function for registering handlers for all messages and
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// fields in a msgdef and all its children. For every registered message
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// "msgreg_cb" will be called with the newly-created mhandlers, and likewise
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// with "fieldreg_cb"
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//
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// See upb_handlers_reghandlerset() below for an example.
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typedef void upb_onmsgreg(void *closure, upb_mhandlers *mh, upb_msgdef *m);
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typedef void upb_onfieldreg(void *closure, upb_fhandlers *mh, upb_fielddef *m);
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upb_mhandlers *upb_handlers_regmsgdef(upb_handlers *h, upb_msgdef *m,
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upb_onmsgreg *msgreg_cb,
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upb_onfieldreg *fieldreg_cb,
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void *closure);
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// Convenience function for registering a set of handlers for all messages and
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// fields in a msgdef and its children, with the fval bound to the upb_fielddef.
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// Any of the handlers may be NULL, in which case no callback will be set and
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// the nop callback will be used.
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typedef struct {
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upb_startmsg_handler *startmsg;
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upb_endmsg_handler *endmsg;
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upb_value_handler *value;
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upb_startfield_handler *startsubmsg;
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upb_endfield_handler *endsubmsg;
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upb_startfield_handler *startseq;
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upb_endfield_handler *endseq;
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} upb_handlerset;
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INLINE void upb_onmreg_hset(void *c, upb_mhandlers *mh, upb_msgdef *m) {
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(void)m;
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upb_handlerset *hs = (upb_handlerset*)c;
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if (hs->startmsg) upb_mhandlers_setstartmsg(mh, hs->startmsg);
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if (hs->endmsg) upb_mhandlers_setendmsg(mh, hs->endmsg);
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}
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INLINE void upb_onfreg_hset(void *c, upb_fhandlers *fh, upb_fielddef *f) {
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upb_handlerset *hs = (upb_handlerset*)c;
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if (hs->value) upb_fhandlers_setvalue(fh, hs->value);
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if (hs->startsubmsg) upb_fhandlers_setstartsubmsg(fh, hs->startsubmsg);
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if (hs->endsubmsg) upb_fhandlers_setendsubmsg(fh, hs->endsubmsg);
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if (hs->startseq) upb_fhandlers_setstartseq(fh, hs->startseq);
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if (hs->endseq) upb_fhandlers_setendseq(fh, hs->endseq);
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upb_value val;
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upb_value_setfielddef(&val, f);
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upb_fhandlers_setfval(fh, val);
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}
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INLINE upb_mhandlers *upb_handlers_reghandlerset(upb_handlers *h, upb_msgdef *m,
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upb_handlerset *hs) {
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return upb_handlers_regmsgdef(h, m, &upb_onmreg_hset, &upb_onfreg_hset, hs);
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}
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/* upb_dispatcher *************************************************************/
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// upb_dispatcher can be used by sources of data to invoke the appropriate
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// handlers on a upb_handlers object. Besides maintaining the runtime stack of
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// closures and handlers, the dispatcher checks the return status of user
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// callbacks and properly handles statuses other than UPB_CONTINUE, invoking
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// "skip" or "exit" handlers on the underlying data source as appropriate.
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typedef struct {
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upb_fhandlers *f;
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void *closure;
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// Members to use as the data source requires.
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void *srcclosure;
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uint64_t end_ofs;
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uint16_t msgindex;
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uint16_t fieldindex;
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bool is_sequence; // frame represents seq or submsg? (f might be both).
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bool is_packed; // !upb_issubmsg(f) && end_ofs != UINT64_MAX (strings aren't pushed)
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} upb_dispatcher_frame;
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// Called when some of the input needs to be skipped. All frames from
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// top to bottom, inclusive, should be skipped.
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typedef void upb_skip_handler(void *, upb_dispatcher_frame *top,
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upb_dispatcher_frame *bottom);
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typedef void upb_exit_handler(void *);
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typedef struct {
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upb_dispatcher_frame *top, *limit;
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upb_handlers *handlers;
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// Msg and dispatch table for the current level.
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upb_mhandlers *msgent;
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upb_inttable *dispatch_table;
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upb_skip_handler *skip;
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upb_exit_handler *exit;
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void *srcclosure;
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// Stack.
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upb_status status;
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upb_dispatcher_frame stack[UPB_MAX_NESTING];
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} upb_dispatcher;
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void upb_dispatcher_init(upb_dispatcher *d, upb_handlers *h,
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upb_skip_handler *skip, upb_exit_handler *exit,
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void *closure);
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upb_dispatcher_frame *upb_dispatcher_reset(upb_dispatcher *d, void *topclosure);
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void upb_dispatcher_uninit(upb_dispatcher *d);
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// Tests whether the runtime stack is in the base level message.
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bool upb_dispatcher_stackempty(upb_dispatcher *d);
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// Looks up a field by number for the current message.
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INLINE upb_fhandlers *upb_dispatcher_lookup(upb_dispatcher *d, uint32_t n) {
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return (upb_fhandlers*)upb_inttable_fastlookup(
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d->dispatch_table, n, sizeof(upb_fhandlers));
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}
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void _upb_dispatcher_unwind(upb_dispatcher *d, upb_flow_t flow);
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// Dispatch functions -- call the user handler and handle errors.
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INLINE void upb_dispatch_value(upb_dispatcher *d, upb_fhandlers *f,
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upb_value val) {
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upb_flow_t flow = UPB_CONTINUE;
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if (f->value) flow = f->value(d->top->closure, f->fval, val);
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if (flow != UPB_CONTINUE) _upb_dispatcher_unwind(d, flow);
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}
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void upb_dispatch_startmsg(upb_dispatcher *d);
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void upb_dispatch_endmsg(upb_dispatcher *d, upb_status *status);
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upb_dispatcher_frame *upb_dispatch_startsubmsg(upb_dispatcher *d, upb_fhandlers *f);
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upb_dispatcher_frame *upb_dispatch_endsubmsg(upb_dispatcher *d);
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upb_dispatcher_frame *upb_dispatch_startseq(upb_dispatcher *d, upb_fhandlers *f);
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upb_dispatcher_frame *upb_dispatch_endseq(upb_dispatcher *d);
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#ifdef __cplusplus
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} /* extern "C" */
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#endif
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#endif
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