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|
/*
* File: mimedirprofile.cpp
*
* Author: Lukas Zeller (luz@synthesis.ch)
*
* TMimeDirItemType
* base class for MIME DIR based content types (vCard, vCalendar...)
*
* Copyright (c) 2001-2009 by Synthesis AG (www.synthesis.ch)
*
* 2009-01-09 : luz : created from mimediritemtype.cpp
*
*/
// includes
#include "prefix_file.h"
#include "sysync.h"
#include "vtimezone.h"
#include "rrules.h"
#include "mimedirprofile.h"
#include "mimediritemtype.h"
#include "syncagent.h"
using namespace sysync;
namespace sysync {
// mime-DIR mode names
const char * const mimeModeNames[numMimeModes] = {
"old",
"standard"
};
// VTIMEZONE generation modes
const char * const VTimeZoneGenModes[numVTimeZoneGenModes] = {
"current",
"start",
"end",
"range",
"openend"
};
// VTIMEZONE generation modes
const char * const VTzIdGenModes[numTzIdGenModes] = {
"default",
"olson"
};
// enumeration modes
const char * const EnumModeNames[numEnumModes] = {
"translate", // translation from value to name and vice versa
"prefix", // translation of prefix while copying rest of string
"defaultname", // default name when translating from value to name
"defaultvalue", // default value when translating from name to value
"ignore" // ignore value or name
};
// profile modes
const char * const ProfileModeNames[numProfileModes] = {
"custom", // custom profile
"vtimezones", // VTIMEZONE profile(s), expands to a VTIMEZONE for every time zone referenced by convmode TZID fields
};
// Config
// ======
#pragma exceptions off
// Type registry
TMIMEProfileConfig::TMIMEProfileConfig(const char* aName, TConfigElement *aParentElement) :
TProfileConfig(aName,aParentElement)
{
fRootProfileP=NULL; // no profile yet
clear();
} // TMIMEProfileConfig::TMIMEProfileConfig
TMIMEProfileConfig::~TMIMEProfileConfig()
{
clear();
} // TMIMEProfileConfig::~TMIMEProfileConfig
// init defaults
void TMIMEProfileConfig::clear(void)
{
// init defaults
if (fRootProfileP) {
delete fRootProfileP;
fRootProfileP=NULL; // no profile any more
}
// init options
fUnfloatFloating = false;
fVTimeZoneGenMode = vtzgen_current; // show VTIMEZONE valid for current year (i.e. not dependent on record's time stamps)
fTzIdGenMode = tzidgen_default; // default TZIDs
// reset group building mechanism
#ifdef CONFIGURABLE_TYPE_SUPPORT
fLastProperty = NULL;
fPropertyGroupID = 1; // start at 1 (0=no group)
#endif
// clear inherited
inherited::clear();
} // TMIMEProfileConfig::clear
#pragma exceptions reset
// handler factory
TProfileHandler *TMIMEProfileConfig::newProfileHandler(TMultiFieldItemType *aItemTypeP)
{
// check if fieldlists match as they should
if (aItemTypeP->getFieldDefinitions()!=fFieldListP) {
// profile is for another field list, cannot be used for this item type
return NULL;
}
// our handler is the text profile handler
return (TProfileHandler *)(new TMimeDirProfileHandler(this,aItemTypeP));
}
#ifdef CONFIGURABLE_TYPE_SUPPORT
// get conversion mode, virtual, can be overridden by derivates
bool TMIMEProfileConfig::getConvMode(const char *aText, sInt16 &aConvMode)
{
// basic modes
if (strucmp(aText,"none")==0)
aConvMode=CONVMODE_NONE;
else if (strucmp(aText,"version")==0)
aConvMode=CONVMODE_VERSION;
else if (strucmp(aText,"prodid")==0)
aConvMode=CONVMODE_PRODID;
else if (strucmp(aText,"timestamp")==0)
aConvMode=CONVMODE_TIMESTAMP;
else if (strucmp(aText,"date")==0)
aConvMode=CONVMODE_DATE;
else if (strucmp(aText,"autodate")==0)
aConvMode=CONVMODE_AUTODATE;
else if (strucmp(aText,"autoenddate")==0)
aConvMode=CONVMODE_AUTOENDDATE;
else if (strucmp(aText,"tz")==0)
aConvMode=CONVMODE_TZ;
else if (strucmp(aText,"daylight")==0)
aConvMode=CONVMODE_DAYLIGHT;
else if (strucmp(aText,"tzid")==0)
aConvMode=CONVMODE_TZID;
else if (strucmp(aText,"emptyonly")==0)
aConvMode=CONVMODE_EMPTYONLY;
else if (strucmp(aText,"bitmap")==0)
aConvMode=CONVMODE_BITMAP;
else if (strucmp(aText,"multimix")==0)
aConvMode=CONVMODE_MULTIMIX;
else if (strucmp(aText,"blob_b64")==0)
aConvMode=CONVMODE_BLOB_B64;
else if (strucmp(aText,"mailto")==0)
aConvMode=CONVMODE_MAILTO;
else if (strucmp(aText,"valuetype")==0)
aConvMode=CONVMODE_VALUETYPE;
else if (strucmp(aText,"fullvaluetype")==0)
aConvMode=CONVMODE_FULLVALUETYPE;
else if (strucmp(aText,"rrule")==0)
aConvMode=CONVMODE_RRULE;
else {
fail("'conversion' value '%s' is invalid",aText);
return false;
}
return true;
} // TMIMEProfileConfig::getConvMode
// private helper
bool TMIMEProfileConfig::getConvAttrs(const char **aAttributes, sInt16 &aFid, sInt16 &aConvMode, char &aCombSep)
{
// - get options
const char *fnam = getAttr(aAttributes,"field");
if (fnam && *fnam!=0) {
// has field spec
// - find field ID
aFid = fFieldListP->fieldIndex(fnam);
if (aFid==VARIDX_UNDEFINED) {
fail("'field' '%s' does not exist in field list '%s'",fnam,fFieldListP->getName());
return false;
}
}
// - get conversion mode
const char *conv = getAttr(aAttributes,"conversion");
if (conv) {
if (!getConvMode(conv,aConvMode)) return false;
}
// - get combination char
const char *comb = getAttr(aAttributes,"combine");
if (comb) {
if (strucmp(comb,"no")==0)
aCombSep=0;
else if (strucmp(comb,"lines")==0)
aCombSep='\n';
else if (strlen(comb)==1)
aCombSep=*comb;
else {
fail("'combine' value '%s' is invalid",comb);
return false;
}
}
return true; // ok
} // TMIMEProfileConfig::getConvAttrs
bool TMIMEProfileConfig::getMask(const char **aAttributes, const char *aName, TParameterDefinition *aParamP, TNameExtIDMap &aMask)
{
const char *m=getAttr(aAttributes,aName);
if (m) {
while (*m) {
// skip comma separators and spaces
if (*m==',' || *m<=0x20) { m++; continue; }
// decode substring
TParameterDefinition *paramP = aParamP; // default param
size_t n=0;
while(m[n]>0x20 && m[n]!=',') {
if (m[n]=='.') {
// qualified enum, search param
paramP=fOpenProperty->findParameter(m,n);
if (!paramP) {
fail("Unknown param '%s' referenced in '%s'",m,aName);
return false;
}
m+=n+1; // set start to enum name
n=0; // start anew
continue; // prevent increment
}
n++;
}
if (!paramP) {
fail("Enum value must be qualified with parameter name: '%s'",m);
return false;
}
TNameExtIDMap msk = paramP->getExtIDbit(m,n);
if (msk==0) {
fail("'%s' is not an enum of parameter '%s'",m,paramP->paramname.c_str());
return false;
}
aMask = aMask | msk;
m+=n; // advance pointer
}
}
return true; // ok;
} // TMIMEProfileConfig::getMask
bool TMIMEProfileConfig::processPosition(TParameterDefinition *aParamP, const char **aAttributes)
{
// <position has="TYPE.HOME" hasnot="FAX,CELL" shows="VOICE"
// field="TEL_HOME" repeat="4" increment="1" minshow="0"/>
// - get maps
TNameExtIDMap hasmap=0;
TNameExtIDMap hasnotmap=0;
TNameExtIDMap showsmap=0;
if (!getMask(aAttributes,"has",aParamP,hasmap)) return false; // failed
if (!getMask(aAttributes,"hasnot",aParamP,hasnotmap)) return false; // failed
if (!getMask(aAttributes,"shows",aParamP,showsmap)) return false; // failed
// - get field
sInt16 fid=FID_NOT_SUPPORTED;
const char *fnam = getAttr(aAttributes,"field");
if (fnam) {
fid = fFieldListP->fieldIndex(fnam);
if (fid==VARIDX_UNDEFINED)
return !fail("'field' '%s' does not exist in field list '%s'",fnam,fFieldListP->getName());
}
// - calculate offset from first specified value field in property
sInt16 fidoffs=FID_NOT_SUPPORTED;
if (fid>=0) {
for (sInt16 k=0; k<fOpenProperty->numValues; k++) {
fidoffs=fOpenProperty->convdefs[k].fieldid;
if (fidoffs>=0) break; // found field offset
}
if (fidoffs<0)
return !fail("property '%s' does not have any field assigned, cannot use 'position'",fOpenProperty->propname.c_str());
// calc now
fidoffs=fid-fidoffs;
}
// - get repeat and increment
sInt16 repeat=1; // no repeat, no rewrite, but check other <position>s when property occurs again.
sInt16 incr=1; // inc by 1
sInt16 minshow=-1; // auto mode, same as repeat
bool overwriteempty=true; // do not store empty repetitions
bool readonly=false; // not just a parsing alternative
sInt16 sharecountoffs=0; // no repeat counter sharing
// - check special maxrepeat values
const char *repval = getAttr(aAttributes,"repeat");
if (repval) {
if (strucmp(repval,"rewrite")==0) repeat=REP_REWRITE;
#ifdef ARRAYFIELD_SUPPORT
else if (strucmp(repval,"array")==0) repeat=REP_ARRAY;
#endif
else if (!StrToShort(repval,repeat))
return !fail("expected number, 'rewrite' or 'array' in 'repeat'");
}
// - increment and minshow
if (
!getAttrShort(aAttributes,"increment",incr,true) ||
!getAttrShort(aAttributes,"minshow",minshow,true) ||
!getAttrShort(aAttributes,"sharepreviouscount",sharecountoffs,true)
)
return !fail("number expected in 'increment', 'minshow' and 'sharepreviouscount'");
// - overwrite empty
if (!getAttrBool(aAttributes,"overwriteempty",overwriteempty,true))
return !fail("expected boolean value in 'overwriteempty'");
// - read only position
if (!getAttrBool(aAttributes,"readonly",readonly,true))
return !fail("expected boolean value in 'readonly'");
// - create name extension (position)
fOpenProperty->addNameExt(
fRootProfileP,hasmap,hasnotmap,showsmap,fidoffs,
repeat,incr,minshow,overwriteempty,readonly,sharecountoffs
);
expectEmpty(); // no contents (and not a separte nest level)
return true; // ok
} // TMIMEProfileConfig::processPosition
// called at end of nested parsing level
void TMIMEProfileConfig::nestedElementEnd(void)
{
// - change mode
if (fOpenConvDef) fOpenConvDef=NULL; // done with value spec
else if (fOpenParameter) fOpenParameter=NULL; // done with paramater
else if (fOpenProperty) fOpenProperty=NULL; // done with property
else if (fOpenProfile) {
fOpenProfile=fOpenProfile->parentProfile; // back to parent profile (or NULL if root)
// groups do not span profiles
fLastProperty=NULL;
}
} // TMIMEProfileConfig::nestedElementEnd
// config element parsing
bool TMIMEProfileConfig::localStartElement(const char *aElementName, const char **aAttributes, sInt32 aLine)
{
sInt16 nummand;
const char *nam;
const char *val;
const char *fnam;
sInt16 fid;
sInt16 convmode;
char combsep;
// MIME profile. This is multi-level and therefore needs
// complicated parser.
if (fNest==0) {
// reset to root level
fOpenProfile=NULL;
fOpenProperty=NULL;
fOpenParameter=NULL;
fOpenConvDef=NULL;
}
// - parse generics
// - get MIME-DIR type dependency
TMimeDirMode modeDep = numMimeModes; // no mode dependency by default
sInt16 m;
cAppCharP modeDepName = getAttr(aAttributes,"onlyformode");
if (modeDepName) {
if (!StrToEnum(mimeModeNames,numMimeModes,m,modeDepName))
return fail("unknown 'onlyformode' attribute value '%s'",modeDepName);
else
modeDep=(TMimeDirMode)m;
}
// - now parse specifics
if (fOpenConvDef) {
if (strucmp(aElementName,"enum")==0) {
// <enum name="nam" value="val" mode="translate" positional="yes">
// - get name and value
nam = getAttr(aAttributes,"name");
val = getAttr(aAttributes,"value");
// - get mode
TEnumMode mode=enm_translate; // default to translate
const char *mod=getAttr(aAttributes,"mode");
if (mod) {
if (!StrToEnum(EnumModeNames,numEnumModes,m,mod))
return fail("unknown 'mode' '%s'",mod);
else
mode=(TEnumMode)m;
}
// - get options
bool positional=fOpenParameter && fOpenParameter->extendsname; // default to parameter
if (!getAttrBool(aAttributes,"positional",positional,true))
return fail("bad boolean value for 'positional'");
if (fOpenParameter && positional && !fOpenParameter->extendsname)
return fail("'parameter' must have set 'positional' to use positional 'enum's");
// check logic
if (mode!=enm_default_value && mode!=enm_ignore && (!nam || *nam==0))
return fail("non-default/non-positional 'enum' must have 'name' attribute");
// 1:1 translation shortcut: if no value specified, use name as value
if (mode==enm_translate && !val)
val=nam; // use name as value
// default name and ignore can have no value (prefix can have empty value)
if (!positional && mode!=enm_default_name && mode!=enm_ignore && (!val || (*val==0 && mode!=enm_prefix)))
return fail("non-default 'enum' must have (possibly non-empty) 'value' attribute");
// - create enum
if (positional)
fOpenConvDef->addEnumNameExt(fOpenProperty, nam,val,mode);
else
fOpenConvDef->addEnum(nam,val,mode);
expectEmpty(); // no contents (and not a separate nest level)
}
// none known here
else
return false; // parent is TConfigElement, no need to call inherited
}
else if (fOpenParameter) {
if (strucmp(aElementName,"value")==0) {
// <value field="N_FIRST" conversion="none" combine="no"/>
// - set default options
fid=FID_NOT_SUPPORTED;
convmode=CONVMODE_NONE;
combsep=0;
// - get other options of convdef
if (!getConvAttrs(aAttributes,fid,convmode,combsep)) return true; // failed
// - set convdef
fOpenConvDef=fOpenParameter->setConvDef(fid,convmode,combsep);
startNestedParsing();
}
else if (strucmp(aElementName,"position")==0) {
// Position within parameter, enums reference this parameter without
// explicitly qualified enum names. To reference enums of other params,
// qualified names are allowed.
// <position has="TYPE.HOME" hasnot="FAX,CELL" shows="VOICE" field="TEL_HOME" repeat="4" increment="1"/>
if (!processPosition(fOpenParameter,aAttributes))
return true; // failed
}
// none known here
else
return inherited::localStartElement(aElementName, aAttributes, aLine); // call inherited
}
else if (fOpenProperty) {
if (strucmp(aElementName,"value")==0) {
// <value index="1" field="N_FIRST" conversion="none" combine="no"/>
// - get index
sInt16 idx=0;
if (!getAttrShort(aAttributes,"index",idx,fOpenProperty->numValues==1)) // optional only for 1-value properties (or lists)
return fail("'index' missing or with invalid value");
if (idx>=fOpenProperty->numValues)
return fail("'index' out of range (0..%hd)",fOpenProperty->numValues);
// - set default options
fid=FID_NOT_SUPPORTED;
convmode=CONVMODE_NONE;
combsep=0;
// - get other options of convdef
if (!getConvAttrs(aAttributes,fid,convmode,combsep))
return true; // failed
// - set convdef
fOpenConvDef=fOpenProperty->setConvDef(idx,fid,convmode,combsep);
startNestedParsing();
}
else if (strucmp(aElementName,"parameter")==0) {
// <parameter name="TYPE" default="yes" positional="yes">
// - get name
nam = getAttr(aAttributes,"name");
if (!nam || *nam==0)
return fail("'parameter' must have 'name' attribute");
// - get options
bool positional=false;
bool defparam=false;
bool shownonempty=false; // don't show properties that have only param values, but no main value
bool showinctcap=false; // don't show parameter in CTCap by default
if (
!getAttrBool(aAttributes,"positional",positional,true) ||
!getAttrBool(aAttributes,"default",defparam,true) ||
!getAttrBool(aAttributes,"shownonempty",shownonempty,true) ||
!getAttrBool(aAttributes,"show",showinctcap,true) ||
!getAttrBool(aAttributes,"showindevinf",showinctcap,true) // synonymous with "show" for parameters (note that "show" on properties is no longer effective on purpose!)
)
return fail("bad boolean value");
// - add parameter
fOpenParameter = fOpenProperty->addParam(nam,defparam,positional,shownonempty,showinctcap,modeDep);
startNestedParsing();
}
else if (strucmp(aElementName,"position")==0) {
// Position outside parameter, enums must reference parameters using
// explicitly qualified enum names like "TYPE.HOME"
// <position has="TYPE.HOME" hasnot="TYPE.FAX,TYPE.CELL" shows="TYPE.VOICE" field="TEL_HOME" repeat="4" increment="1"/>
if (!processPosition(NULL,aAttributes))
return true; // failed
}
// none known here
else
return inherited::localStartElement(aElementName, aAttributes, aLine); // call inherited
}
else if (fOpenProfile) {
if (strucmp(aElementName,"subprofile")==0) {
// <subprofile name="VTODO" nummandatory="1" field="KIND" value="TODO" showlevel="yes" showprops="yes">
// <subprofile name="VTODO" nummandatory="1" useproperties="VEVENT" field="KIND" value="TODO" showlevel="yes" showprops="yes">
// - starting a new subprofile starts a new property group anyway
fLastProperty=NULL;
// - get name
nam = getAttr(aAttributes,"name");
if (!nam || *nam==0)
return fail("'subprofile' must have 'name' attribute");
// - get profile mode
TProfileModes mode = profm_custom;
cAppCharP pfmode = getAttr(aAttributes,"mode");
if (pfmode) {
if (!StrToEnum(ProfileModeNames,numProfileModes,m,pfmode))
return fail("unknown profile 'mode' '%s'",pfmode);
else
mode=(TProfileModes)m;
}
// - check mode dependent params
TProfileDefinition *profileP = NULL; // no foreign properties by default
if (mode==profm_custom) {
// Custom profile
// - get number of mandatory properties
if (!getAttrShort(aAttributes,"nummandatory",nummand,false))
return fail ("missing or bad 'nummandatory' specification");
// - check if using properties of other profile
const char *use = getAttr(aAttributes,"useproperties");
if (use) {
profileP = fRootProfileP->findProfile(use);
if (!profileP)
return fail("unknown profile '%s' specified in 'useproperties'",use);
expectEmpty(true); // subprofile is a nest level, so we need to flag that (otherwise, nestedElementEnd() would not get called)
}
else {
// parsing nested elements in this TConfigElement
startNestedParsing();
}
}
else {
// non-custom profiles are expected to be empty
expectEmpty(true); // subprofile is a nest level, so we need to flag that (otherwise, nestedElementEnd() would not get called)
}
// - get DevInf visibility options
bool showifselectedonly = false; // default: show anyway
if (!getAttrBool(aAttributes,"showifselectedonly",showifselectedonly,true))
return fail("bad boolean value for showifselectedonly");
// - create subprofile now
fOpenProfile = fOpenProfile->addSubProfile(nam,nummand,showifselectedonly,mode,modeDep);
// - add properties of other level if any
if (profileP) fOpenProfile->usePropertiesOf(profileP);
// - add level control field stuff, if any
fnam = getAttr(aAttributes,"field");
if (fnam) {
// - "value" is optional, without a value subprofile is activated if field is non-empty
val = getAttr(aAttributes,"value");
// - find field
fid = fFieldListP->fieldIndex(fnam);
if (fid==VARIDX_UNDEFINED)
return fail("'field' '%s' does not exist in field list '%s'",fnam,fFieldListP->getName());
// - set level control convdef
TConversionDef *cdP = fOpenProfile->setConvDef(fid); // set field ID of level control field
if (val)
cdP->addEnum("",val,enm_translate); // set value to be set into level control field when level is entered
}
}
else if (strucmp(aElementName,"property")==0) {
// <property name="VERSION" rule="other" values="1" mandatory="no" show="yes" suppressempty="no" delayedparsing="0">
// - get name
nam = getAttr(aAttributes,"name");
if (!nam || *nam==0)
return fail("'property' must have 'name' attribute");
// - check grouping
if (!fLastProperty || strucmp(TCFG_CSTR(fLastProperty->propname),nam)!=0) {
// first property in group
fPropertyGroupID++; // new group ID
}
#ifndef NO_REMOTE_RULES
// - get rule dependency
bool isRuleDep=false;
const char *depRuleName = getAttr(aAttributes,"rule");
if (depRuleName) {
isRuleDep=true;
if (strucmp(depRuleName,"other")==0) {
// "other" rule (property is active if no other property from the group gets active)
depRuleName=NULL;
}
}
#endif
// - get number of values
sInt16 numval=1; // default to 1
const char *nvs = getAttr(aAttributes,"values");
if (nvs) {
if (strucmp(nvs,"list")==0) numval=NUMVAL_LIST;
else if (strucmp(nvs,"expandedlist")==0) numval=NUMVAL_REP_LIST;
else if (!StrToShort(nvs,numval))
return fail("invalid value in 'values' attribute");
}
// - get options
bool mandatory = false;
bool showprop = true; // show property in devInf by default
bool suppressempty = false;
bool canfilter = false; // 3.2.0.9 onwards: do not show filter caps by default (devInf gets too large)
if (
!getAttrBool(aAttributes,"mandatory",mandatory,true) ||
!getAttrBool(aAttributes,"showindevinf",showprop,true) || // formerly just called "show" (but renamed to make it ineffective in old configs as new engine prevents duplicates automatically)
!getAttrBool(aAttributes,"suppressempty",suppressempty,true) ||
!getAttrBool(aAttributes,"filter",canfilter,true)
) return fail("bad boolean value");
const char *valsep= getAttr(aAttributes,"valueseparator");
if (!valsep) valsep=";"; // default to semicolon if not defined
const char *altvalsep= getAttr(aAttributes,"altvalueseparator");
if (!altvalsep) altvalsep=""; // default to none if not defined
// - group field ID
sInt16 groupFieldID = FID_NOT_SUPPORTED; // no group field ID by default
cAppCharP gfin = getAttr(aAttributes, "groupfield");
if (gfin) {
groupFieldID = fFieldListP->fieldIndex(gfin);
if (groupFieldID==VARIDX_UNDEFINED) {
fail("'groupfield' '%s' does not exist in field list '%s'",gfin,fFieldListP->getName());
return false;
}
}
// - delayed processing
sInt16 delayedprocessing=0; // default to 0
if (!getAttrShort(aAttributes,"delayedparsing",delayedprocessing,true))
return fail ("bad 'delayedparsing' specification");
// - create property now and open new level of parsing
fOpenProperty=fOpenProfile->addProperty(nam,numval,mandatory,showprop,suppressempty,delayedprocessing,*valsep,fPropertyGroupID,canfilter,modeDep, *altvalsep, groupFieldID);
fLastProperty=fOpenProperty; // for group checking
#ifndef NO_REMOTE_RULES
// - add rule dependency (pointer will be resolved later)
fOpenProperty->dependsOnRemoterule=isRuleDep;
fOpenProperty->ruleDependency=NULL; // not known yet
TCFG_ASSIGN(fOpenProperty->dependencyRuleName,depRuleName); // save name for later resolving
#endif
startNestedParsing();
}
// none known here
else
return inherited::localStartElement(aElementName, aAttributes, aLine); // call inherited
}
else {
if (strucmp(aElementName,"profile")==0) {
// <profile name="VCARD" nummandatory="2">
if (fRootProfileP)
return fail("'profile' cannot be defined more than once");
// new profile starts new property group
fLastProperty=NULL;
// get name
nam = getAttr(aAttributes,"name");
if (!nam || *nam==0)
return fail("'profile' must have 'name' attribute");
// - get number of mandatory properties
if (!getAttrShort(aAttributes,"nummandatory",nummand,false))
return fail ("missing or bad 'nummandatory' specification");
// create root profile
fRootProfileP = new TProfileDefinition(NULL,nam,nummand,false,profm_custom,numMimeModes); // root needs no selection to be shown, is always a custom profile, and not mode dependent
// parsing nested elements in this TConfigElement
fOpenProfile=fRootProfileP; // current open profile
startNestedParsing();
}
else if (strucmp(aElementName,"unfloattimestamps")==0)
expectBool(fUnfloatFloating);
else if (strucmp(aElementName,"vtimezonegenmode")==0)
expectEnum(sizeof(fVTimeZoneGenMode),&fVTimeZoneGenMode,VTimeZoneGenModes,numVTimeZoneGenModes);
else if (strucmp(aElementName,"tzidgenmode")==0)
expectEnum(sizeof(fTzIdGenMode),&fTzIdGenMode,VTzIdGenModes,numTzIdGenModes);
// none known here
else
return inherited::localStartElement(aElementName, aAttributes, aLine);
}
// ok
return true;
} // TMIMEProfileConfig::localStartElement
#ifndef NO_REMOTE_RULES
// resolve remote rule dependencies in profile (recursive)
static void resolveRemoteRuleDeps(TProfileDefinition *aProfileP, TAgentConfig *aSessionConfigP)
{
TProfileDefinition *profileP = aProfileP;
while (profileP) {
// resolve properties
TPropertyDefinition *propP = profileP->propertyDefs;
while (propP) {
// check for rule-dependent props
if (propP->dependsOnRemoterule) {
propP->ruleDependency=NULL; // assume the "other" rule entry
if (!TCFG_ISEMPTY(propP->dependencyRuleName)) {
// find remote rule
TRemoteRulesList::iterator pos;
for(pos=aSessionConfigP->fRemoteRulesList.begin();pos!=aSessionConfigP->fRemoteRulesList.end();pos++) {
if (strucmp(TCFG_CSTR(propP->dependencyRuleName),(*pos)->getName())==0) {
// found rule by name
propP->ruleDependency=(*pos);
break;
}
}
if (propP->ruleDependency==NULL) {
string s;
StringObjPrintf(s,"property '%s' depends on unknown rule '%s'",TCFG_CSTR(propP->propname),TCFG_CSTR(propP->dependencyRuleName));
SYSYNC_THROW(TConfigParseException(s.c_str()));
}
} // rule specified
}
// next
propP=propP->next;
}
// resolve subprofiles
resolveRemoteRuleDeps(profileP->subLevels,aSessionConfigP);
// next
profileP=profileP->next;
}
} // resolveRemoteRuleDeps
#endif
// resolve
void TMIMEProfileConfig::localResolve(bool aLastPass)
{
if (aLastPass) {
// check for required settings
if (!fRootProfileP)
SYSYNC_THROW(TConfigParseException("empty 'mimeprofile' not allowed"));
#ifndef NO_REMOTE_RULES
// recursively resolve remote rule dependencies in all properties
resolveRemoteRuleDeps(
fRootProfileP,
static_cast<TAgentConfig *>(static_cast<TRootConfig *>(getRootElement())->fAgentConfigP)
);
#endif
}
// resolve inherited
inherited::localResolve(aLastPass);
} // TMIMEProfileConfig::localResolve
#endif // CONFIGURABLE_TYPE_SUPPORT
// implementation of MIME-DIR info classes
#pragma exceptions off
#define EXCEPTIONS_HERE 0
TEnumerationDef::TEnumerationDef(const char *aEnumName, const char *aEnumVal, TEnumMode aMode, sInt16 aNameExtID)
{
next=NULL;
TCFG_ASSIGN(enumtext,aEnumName);
TCFG_ASSIGN(enumval,aEnumVal);
enummode=aMode;
nameextid=aNameExtID;
} // TEnumerationDef::TEnumerationDef
TEnumerationDef::~TEnumerationDef()
{
// make sure entire chain gets deleted
if (next) delete next;
} // TEnumerationDef::~TEnumerationDef
TConversionDef::TConversionDef()
{
fieldid=FID_NOT_SUPPORTED;
enumdefs=NULL;
convmode=0;
combineSep=0;
} // TConversionDef::TConversionDef
TConversionDef::~TConversionDef()
{
// make sure enum list gets deleted
if (enumdefs) delete enumdefs;
} // TEnumerationDef::~TEnumerationDef
TConversionDef *TConversionDef::setConvDef(
sInt16 aFieldId,
sInt16 aConvMode,
char aCombSep
)
{
fieldid=aFieldId;
convmode=aConvMode;
combineSep=aCombSep;
return this;
} // TConversionDef::setConvDef
const TEnumerationDef *TConversionDef::findEnumByName(const char *aName, sInt16 n)
const
{
TEnumerationDef *enumP = enumdefs;
TEnumerationDef *defaultenumP = NULL;
while(enumP) {
// check plain match
if (
(enumP->enummode==enm_translate || enumP->enummode==enm_ignore) &&
strucmp(aName,TCFG_CSTR(enumP->enumtext),n)==0
) break; // found full match
// check prefix match
else if (
enumP->enummode==enm_prefix &&
(TCFG_SIZE(enumP->enumtext)==0 || strucmp(aName,TCFG_CSTR(enumP->enumtext),TCFG_SIZE(enumP->enumtext))==0)
) break; // found prefix match (or prefix entry with no text, which means match as well)
// otherwise: remember if this is a default
else if (enumP->enummode==enm_default_value) {
// default value entry
defaultenumP=enumP; // anyway: remember default value entry
// allow searching default value by name (for "has","hasnot" parsing via getExtIDbit())
if (!(TCFG_ISEMPTY(enumP->enumtext)) && strucmp(aName,TCFG_CSTR(enumP->enumtext),n)==0)
break; // found named default value
}
// check next
enumP=enumP->next;
}
return enumP ? enumP : defaultenumP;
} // TConversionDef::findEnumByName
const TEnumerationDef *TConversionDef::findEnumByVal(const char *aVal, sInt16 n)
const
{
TEnumerationDef *enumP = enumdefs;
TEnumerationDef *defaultenumP = NULL;
while(enumP) {
// check full match
if (
(enumP->enummode==enm_translate || enumP->enummode==enm_ignore) &&
strucmp(aVal,TCFG_CSTR(enumP->enumval),n)==0
) break; // found
// check prefix match
else if (
enumP->enummode==enm_prefix &&
(TCFG_SIZE(enumP->enumval)==0 || strucmp(aVal,TCFG_CSTR(enumP->enumval),TCFG_SIZE(enumP->enumval))==0)
) break; // found prefix match (or prefix entry with no value, which means match as well)
// remember if this is a default
else if (enumP->enummode == enm_default_name) defaultenumP=enumP; // remember default
// check next
enumP=enumP->next;
}
return enumP ? enumP : defaultenumP;
} // TConversionDef::findEnumByVal
void TConversionDef::addEnum(const char *aEnumName, const char *aEnumVal, TEnumMode aMode)
{
TEnumerationDef **enumPP = &enumdefs;
while(*enumPP!=NULL) enumPP=&((*enumPP)->next); // find last in chain
*enumPP = new TEnumerationDef(aEnumName,aEnumVal,aMode); // w/o name extension
} // TConversionDef::addEnum
// add enum for name extension, auto-creates property-unique name extension ID
void TConversionDef::addEnumNameExt(TPropertyDefinition *aProp, const char *aEnumName, const char *aEnumVal, TEnumMode aMode)
{
TEnumerationDef **enumPP = &enumdefs;
while(*enumPP!=NULL) enumPP=&((*enumPP)->next); // find last in chain
if (aProp->nextNameExt>31)
#if EXCEPTIONS_HERE
SYSYNC_THROW(TSyncException(DEBUGTEXT("more than 32 name extensions","mdit3")));
#else
return; // silently ignore
#endif
*enumPP = new TEnumerationDef(aEnumName,aEnumVal, aMode, aProp->nextNameExt++);
} // TConversionDef::addEnumNameExt
TParameterDefinition::TParameterDefinition(
const char *aName, bool aDefault, bool aExtendsName, bool aShowNonEmpty, bool aShowInCTCap, TMimeDirMode aModeDep
) {
next=NULL;
TCFG_ASSIGN(paramname,aName);
defaultparam=aDefault;
extendsname=aExtendsName;
shownonempty=aShowNonEmpty;
showInCTCap=aShowInCTCap;
modeDependency=aModeDep;
} // TParameterDefinition::TParameterDefinition
TParameterDefinition::~TParameterDefinition()
{
if (next) delete next;
} // TParameterDefinition::~TParameterDefinition
TNameExtIDMap TParameterDefinition::getExtIDbit(const char *aEnumName, sInt16 n)
{
const TEnumerationDef *enumP=convdef.findEnumByName(aEnumName,n);
if (enumP) {
return ((TNameExtIDMap)1<<enumP->nameextid);
}
return 0;
} // TParameterDefinition::getExtIDbit
TPropNameExtension::TPropNameExtension(
TNameExtIDMap aMusthave_ids, TNameExtIDMap aForbidden_ids, TNameExtIDMap aAddtlSend_ids,
sInt16 aFieldidoffs, sInt16 aMaxRepeat, sInt16 aRepeatInc, sInt16 aMinShow,
bool aOverwriteEmpty, bool aReadOnly, sInt16 aRepeatID
) {
next=NULL;
musthave_ids=aMusthave_ids;
forbidden_ids=aForbidden_ids;
addtlSend_ids=aAddtlSend_ids;
fieldidoffs=aFieldidoffs;
maxRepeat=aMaxRepeat;
repeatInc=aRepeatInc;
minShow=aMinShow;
overwriteEmpty=aOverwriteEmpty;
readOnly=aReadOnly;
repeatID=aRepeatID;
} // TPropNameExtension::TPropNameExtension
TPropNameExtension::~TPropNameExtension()
{
if (next) delete next;
} // TPropNameExtension::~TPropNameExtension
TPropertyDefinition::TPropertyDefinition(const char* aName, sInt16 aNumVals, bool aMandatory, bool aShowInCTCap, bool aSuppressEmpty, uInt16 aDelayedProcessing, char aValuesep, char aAltValuesep, uInt16 aPropertyGroupID, bool aCanFilter, TMimeDirMode aModeDep, sInt16 aGroupFieldID)
{
next = NULL;
TCFG_ASSIGN(propname,aName);
nameExts = NULL; // none yet
nextNameExt = 0; // no enums with name extensions defined yet for this property
valuelist = false; // no value list by default
expandlist = false; // not expanding value list into repeating property by default
valuesep = aValuesep; // separator for structured-value and value-list properties
altvaluesep = aAltValuesep; // alternate separator for structured-value and value-list properties (for parsing only)
groupFieldID = aGroupFieldID; // fid for field that contains the group tag (prefix to the property name, like "a" in "a.TEL:079122327")
propGroup = aPropertyGroupID; // property group ID
if (aNumVals==NUMVAL_LIST || aNumVals==NUMVAL_REP_LIST) {
// value list
valuelist = true;
expandlist = aNumVals==NUMVAL_REP_LIST;
numValues = 1; // we accept a single convdef only
}
else {
// individual values
numValues = aNumVals;
}
// create convdefs array
convdefs = new TConversionDef[numValues];
parameterDefs = NULL; // none yet
mandatory = aMandatory;
showInCTCap = aShowInCTCap;
canFilter = aCanFilter;
suppressEmpty = aSuppressEmpty;
delayedProcessing = aDelayedProcessing;
modeDependency = aModeDep;
#ifndef NO_REMOTE_RULES
// not dependent on rule yet (as rules do not exists at TPropertyDefinition creation,
// dependency will be added later, if any)
dependsOnRemoterule = false;
ruleDependency = NULL;
#endif
} // TPropertyDefinition::TPropertyDefinition
TPropertyDefinition::~TPropertyDefinition()
{
// delete name extensions
if (nameExts) delete nameExts;
// delete convdefs array
if (convdefs) delete [] convdefs;
// delete parameter definitions
if (parameterDefs) delete parameterDefs;
// delete rest of chain
if (next) delete next;
} // TPropertyDefinition::~TPropertyDefinition
TConversionDef *TPropertyDefinition::setConvDef(sInt16 aValNum, sInt16 aFieldId,sInt16 aConvMode,char aCombSep)
{
if (aValNum<0 || aValNum>=numValues)
#if EXCEPTIONS_HERE
SYSYNC_THROW(TSyncException(DEBUGTEXT("setConvDef for Property with bad value number","mdit4")));
#else
return NULL; // silently ignore
#endif
return convdefs[aValNum].setConvDef(aFieldId,aConvMode,aCombSep);
}; // TPropertyDefinition::TConversionDef
void TPropertyDefinition::addNameExt(TProfileDefinition *aRootProfile, // for profile-global RepID generation
TNameExtIDMap aMusthave_ids, TNameExtIDMap aForbidden_ids, TNameExtIDMap aAddtlSend_ids,
sInt16 aFieldidoffs, sInt16 aMaxRepeat, sInt16 aRepeatInc, sInt16 aMinShow,
bool aOverwriteEmpty, bool aReadOnly, sInt16 aShareCountOffs
)
{
TPropNameExtension **namextPP = &nameExts;
while(*namextPP!=NULL) namextPP=&((*namextPP)->next); // find last in chain
if (aMinShow<0) {
if (aMaxRepeat==REP_ARRAY)
aMinShow=0; // by default, show nothing if array is empty
else
aMinShow=aMaxRepeat; // auto mode, show all repetitions
}
*namextPP = new TPropNameExtension(
aMusthave_ids,aForbidden_ids,aAddtlSend_ids,aFieldidoffs,
aMaxRepeat,aRepeatInc,aMinShow,aOverwriteEmpty,aReadOnly,
// readOnly alternative parsing <position> might want to share the
// repeat count with previous <position> occurrences
aShareCountOffs ? aRootProfile->nextRepID-aShareCountOffs : aRootProfile->nextRepID++
);
} // TPropertyDefinition::addNameExt
TParameterDefinition *TPropertyDefinition::addParam(
const char *aName, bool aDefault, bool aExtendsName, bool aShowNonEmpty, bool aShowInCTCap, TMimeDirMode aModeDep
)
{
TParameterDefinition **paramPP = ¶meterDefs;
while(*paramPP!=NULL) paramPP=&((*paramPP)->next); // find last in chain
*paramPP = new TParameterDefinition(aName,aDefault,aExtendsName,aShowNonEmpty,aShowInCTCap, aModeDep);
return *paramPP;
} // TPropertyDefinition::addParam
// find parameter by name
TParameterDefinition *TPropertyDefinition::findParameter(const char *aNam, sInt16 aLen)
{
TParameterDefinition *paramP = parameterDefs;
while (paramP) {
if (strucmp(aNam,TCFG_CSTR(paramP->paramname),aLen)==0)
return paramP; // found
paramP=paramP->next; // next
}
// not found
return NULL;
} // TPropertyDefinition::findParameter
TProfileDefinition::TProfileDefinition(
TProfileDefinition *aParentProfileP, // parent profile
const char *aProfileName, // name
sInt16 aNumMandatory,
bool aShowInCTCapIfSelectedOnly,
TProfileModes aProfileMode,
TMimeDirMode aModeDep
)
{
parentProfile=aParentProfileP; // NULL if root
next=NULL;
// set fields
TCFG_ASSIGN(levelName,aProfileName);
shownIfSelectedOnly = aShowInCTCapIfSelectedOnly;
profileMode = aProfileMode;
modeDependency = aModeDep;
// init
numMandatoryProperties=aNumMandatory;
propertyDefs=NULL;
subLevels=NULL;
ownsProps=true;
nextRepID=0;
} // TProfileDefinition::TProfileDefinition
TProfileDefinition::~TProfileDefinition()
{
if (propertyDefs && ownsProps) delete propertyDefs;
if (subLevels) delete subLevels;
if (next) delete next;
} // TProfileDefinition::~TProfileDefinition
TProfileDefinition *TProfileDefinition::addSubProfile(
const char *aProfileName, // name
sInt16 aNumMandatory,
bool aShowInCTCapIfSelectedOnly,
TProfileModes aProfileMode,
TMimeDirMode aModeDep
)
{
TProfileDefinition **profilePP=&subLevels;
while (*profilePP!=NULL) profilePP=&((*profilePP)->next);
*profilePP=new TProfileDefinition(this,aProfileName,aNumMandatory,aShowInCTCapIfSelectedOnly,aProfileMode,aModeDep);
return *profilePP;
} // TProfileDefinition::addSubProfile
TPropertyDefinition *TProfileDefinition::addProperty(
const char *aName, // name
sInt16 aNumValues, // number of values
bool aMandatory, // mandatory
bool aShowInCTCap, // show in CTCap
bool aSuppressEmpty, // suppress empty ones on send
uInt16 aDelayedProcessing, // delayed processing when parsed, 0=immediate processing, 1..n=delayed
char aValuesep, // value separator
uInt16 aPropertyGroupID, // property group ID (alternatives for same-named properties should have same ID>0)
bool aCanFilter, // can be filtered -> show in filter cap
TMimeDirMode aModeDep, // property valid only for specific MIME mode
char aAltValuesep, // alternate separator (for parsing)
sInt16 aGroupFieldID // group field ID
)
{
TPropertyDefinition **propPP=&propertyDefs;
while (*propPP!=NULL) propPP=&((*propPP)->next);
*propPP=new TPropertyDefinition(aName,aNumValues,aMandatory,aShowInCTCap,aSuppressEmpty,aDelayedProcessing,aValuesep,aAltValuesep,aPropertyGroupID,aCanFilter,aModeDep,aGroupFieldID);
// return new property
return *propPP;
} // TProfileDefinition::addProperty
void TProfileDefinition::usePropertiesOf(TProfileDefinition *aProfile)
{
ownsProps=false;
propertyDefs=aProfile->propertyDefs;
} // TProfileDefinition::usePropertiesOf
// find (sub)profile by name, recursively
TProfileDefinition *TProfileDefinition::findProfile(const char *aNam)
{
// check myself
if (levelName==aNam) return this;
// check sublevels
TProfileDefinition *lvlP = subLevels;
TProfileDefinition *foundlvlP;
while(lvlP) {
foundlvlP=lvlP->findProfile(aNam);
if (foundlvlP) return foundlvlP;
lvlP=lvlP->next;
}
// does not match myself nor one of my sublevels
return NULL;
} // TProfileDefinition::findProfile
#pragma exceptions reset
#undef EXCEPTIONS_HERE
#define EXCEPTIONS_HERE TARGET_HAS_EXCEPTIONS
#ifdef OBJECT_FILTERING
// get property definition of given filter expression identifier.
TPropertyDefinition *TProfileDefinition::getPropertyDef(const char *aPropName)
{
TPropertyDefinition *propP = NULL;
if (!aPropName) return propP; // no name, no fid
// Depth first: search in subprofiles, if any
TProfileDefinition *profileP = subLevels;
while (profileP) {
// search depth first
if ((propP=profileP->getPropertyDef(aPropName))!=NULL)
return propP; // found
// test next profile
profileP=profileP->next;
}
// now search my own properties
propP = propertyDefs;
while (propP) {
// compare names
if (strucmp(aPropName,TCFG_CSTR(propP->propname))==0) {
return propP;
}
// test next property
propP=propP->next;
}
// not found
return NULL;
} // TProfileDefinition::getPropertyDef
// get field index of given filter expression identifier.
sInt16 TProfileDefinition::getPropertyMainFid(const char *aPropName, uInt16 aIndex)
{
sInt16 fid = VARIDX_UNDEFINED;
// search property definition with matching name
TPropertyDefinition *propP = getPropertyDef(aPropName);
// search for first value with a field assigned
if (propP) {
// found property with matching name
if (propP->convdefs) {
if (aIndex==0) {
// no index specified -> search first with a valid FID
for (uInt16 i=0; i<propP->numValues; i++) {
if ((fid=propP->convdefs[i].fieldid)!=VARIDX_UNDEFINED)
return fid; // found a field index
}
}
else {
// index specified for multivalued properties -> return specified value's ID
if (aIndex<=propP->numValues) {
return propP->convdefs[aIndex-1].fieldid;
}
}
}
}
// not found
return VARIDX_UNDEFINED;
} // TProfileDefinition::getPropertyMainFid
#endif // OBJECT_FILTERING
/*
* Implementation of TMimeDirProfileHandler
*/
TMimeDirProfileHandler::TMimeDirProfileHandler(
TMIMEProfileConfig *aMIMEProfileCfgP,
TMultiFieldItemType *aItemTypeP
) : TProfileHandler(aMIMEProfileCfgP, aItemTypeP)
{
// save profile config pointer
fProfileCfgP = aMIMEProfileCfgP;
fProfileDefinitionP = fProfileCfgP->fRootProfileP;
// settable options defaults
fMimeDirMode=mimo_standard;
fReceiverCanHandleUTC = true;
fVCal10EnddatesSameDay = false; // avoid 23:59:59 style end date by default
fReceiverTimeContext = TCTX_UNKNOWN; // none in particular
fDontSendEmptyProperties = false; // send all defined properties
fDefaultOutCharset = chs_utf8; // standard
fDefaultInCharset = chs_utf8; // standard
fDoQuote8BitContent = false; // no quoting needed per se
fDoNotFoldContent = false; // standard requires folding
fTreatRemoteTimeAsLocal = false; // only for broken implementations
fTreatRemoteTimeAsUTC = false; // only for broken implementations
fActiveRemoteRules.clear(); // no dependency on certain remote rules
} // TMimeDirProfileHandler::TMimeDirProfileHandler
TMimeDirProfileHandler::~TMimeDirProfileHandler()
{
// nop for now
} // TMimeDirProfileHandler::~TTextProfileHandler
#ifdef OBJECT_FILTERING
// get field index of given filter expression identifier.
sInt16 TMimeDirProfileHandler::getFilterIdentifierFieldIndex(const char *aIdentifier, uInt16 aIndex)
{
// search properties for field index
return fProfileDefinitionP->getPropertyMainFid(aIdentifier, aIndex);
} // TMimeDirProfileHandler::getFilterIdentifierFieldIndex
#endif // OBJECT_FILTERING
// parses enum value for CONVMODE_MULTIMIX
// [offs.](Bx|Lzzzzzzz)
// aN returns the bit number or the offset of the zzzzz literal within aMixVal, depending on aIsBitMap
static bool mixvalparse(cAppCharP aMixVal, uInt16 &aOffs, bool &aIsBitMap, uInt16 &aN)
{
aOffs = 0;
cAppCharP p = aMixVal;
// check offset (2 digit max)
if (isdigit(*p)) {
p+=StrToUShort(p,aOffs,2);
if (*p++ != '.') return false; // wrong syntax
}
// check command
if (*p == 'B') {
// bit number
aIsBitMap = true;
if (StrToUShort(p+1,aN,2)<1) return false; // wrong syntax
}
else if (*p=='L') {
// literal, return position within string
aIsBitMap = false;
aN = p+1-aMixVal; // literal starts at this position
}
else
return false; // unknown command
return true;
} // mixvalparse
// returns the size of the field block (how many fids in sequence) related
// to a given convdef (for multi-field conversion modes such as CONVMODE_RRULE
sInt16 TMimeDirProfileHandler::fieldBlockSize(const TConversionDef &aConvDef)
{
if (aConvDef.convmode==CONVMODE_RRULE)
return 6; // RRULE fieldblock: DTSTART,FREQ,INTERVAL,FIRSTMASK,LASTMASK,UNTIL = 6 fields
else
return 1; // single field
} // TMimeDirProfileHandler::fieldBlockSize
// special field translation (to be extended in derived classes)
// Note: the string returned by this function will be scanned as a
// value list if combinesep is set, and every single value will be
// enum-translated if enums defined.
bool TMimeDirProfileHandler::fieldToMIMEString(
TMultiFieldItem &aItem, // the item where data comes from
sInt16 aFid, // the field ID (can be NULL for special conversion modes)
sInt16 aArrIndex, // the repeat offset to handle array fields
const TConversionDef *aConvDefP, // the conversion definition record
string &aString // output string
)
{
const int maxmix = 10;
uInt16 mixOffs[maxmix];
bool mixIsFlags[maxmix];
TEnumerationDef *enumP;
uInt16 offs; bool isFlags;
int nummix, i;
fieldinteger_t flags;
uInt16 bitNo;
TTimestampField *tsFldP;
TIntegerField *ifP;
TStringField *sfP;
timecontext_t tctx;
lineartime_t ts;
string s;
// RRULE field block values
char freq; // frequency
char freqmod; // frequency modifier
sInt16 interval; // interval
fieldinteger_t firstmask; // day mask counted from the first day of the period
fieldinteger_t lastmask; // day mask counted from the last day of the period
lineartime_t until; // last day
timecontext_t untilcontext;
// get pointer to leaf field
TItemField *fldP = aItem.getArrayField(aFid,aArrIndex,true); // existing array elements only
bool dateonly=false; // assume timestamp mode
bool autodate=true; // show date-only values automatically as date-only, even if stored in a timestamp field
switch (aConvDefP->convmode) {
// no special mode
case CONVMODE_NONE:
case CONVMODE_EMPTYONLY:
// just get field as string
if (!fldP) return false; // no field, no value
if (!fldP->isBasedOn(fty_timestamp)) goto normal;
// Based on timestamp
// - handle date-only specially
if (fldP->getType()==fty_date)
goto dateonly; // date-only
else
goto timestamp; // others are treated as timestamps
// date & time modes
case CONVMODE_DATE: // always show as date
dateonly:
dateonly = true; // render as date in all cases
goto timestamp;
case CONVMODE_AUTOENDDATE:
case CONVMODE_AUTODATE: // show date-only as date in iCal 2.0 (mimo_standard), but always as timestamp for vCal 1.0 (mimo_old)
if (fMimeDirMode==mimo_standard) goto timestamp; // use autodate if MIME-DIR format is not vCal 1.0 style
case CONVMODE_TIMESTAMP: // always show as timestamp
// get explictly as timestamp (even if field or field contents is date)
autodate = false; // do not show as date, even if it is a date-only
timestamp:
if (!fldP) return false; // no field, no value
if (!fldP->isBasedOn(fty_timestamp)) goto normal;
// show as timestamp
tsFldP = static_cast<TTimestampField *>(fldP);
tctx = tsFldP->getTimeContext();
// check for auto-date
if (autodate) {
if (TCTX_IS_DATEONLY(tctx))
dateonly=true;
}
// check for special cases
if (TCTX_IS_DURATION(tctx)) {
// duration is shown as such
tsFldP->getAsISO8601(aString, TCTX_UNKNOWN | TCTX_DURATION, false, false, false, false);
}
else if (dateonly) {
// date-only are either floating or shown as date-only part of original timestamp
tsFldP->getAsISO8601(aString, TCTX_UNKNOWN | TCTX_DATEONLY, false, false, false, false);
}
else if (fReceiverCanHandleUTC && !tsFldP->isFloating()) {
// remote can handle UTC and the timestamp is not floating
if (!TCTX_IS_UNKNOWN(fPropTZIDtctx)) {
// if we have rendered a TZID for this property, this means that apparently the remote
// supports TZID (otherwise the field would not be marked available in the devInf).
// - show it as floating, explicitly with both date AND time (both flags set)
tsFldP->getAsISO8601(aString, TCTX_UNKNOWN | TCTX_TIMEONLY | TCTX_DATEONLY, false, false, false, false);
}
else {
// - show it as UTC
tsFldP->getAsISO8601(aString, TCTX_UTC, true, false, false, false);
}
}
else {
// remote cannot handle UTC or time is floating (possibly dateonly or duration)
if (tsFldP->isFloating()) {
// floating, show as-is
ts = tsFldP->getTimestampAs(TCTX_UNKNOWN);
if (ts==noLinearTime)
aString.erase();
else {
if (TCTX_IS_DATEONLY(tctx)) {
// value is a date-only, but we must render it a datetime
ts=lineartime2dateonlyTime(ts); // make time part 0:00:00
}
// first check for auto-end-date (which must be floating)
// Note: we don't get here with a date only mimo_standard because it will be catched above, so test is not really needed
if (aConvDefP->convmode==CONVMODE_AUTOENDDATE && fVCal10EnddatesSameDay && TCTX_IS_DATEONLY(tctx) && fMimeDirMode==mimo_old)
ts-=1; // subtract one unit to make end show last time unit of previous day
// now show as floating ISO8601
TimestampToISO8601Str(aString, ts, TCTX_UNKNOWN, false, false);
}
}
else {
// not floating (=not a enddateonly), but we can't send UTC - render as localtime
// in item time zone (which defaults to session time zone)
tsFldP->getAsISO8601(aString, fItemTimeContext, false, false, false, false);
}
}
return true; // found
normal:
// simply as string
fldP->getAsString(aString);
return true; // found
case CONVMODE_TZ:
case CONVMODE_TZID:
case CONVMODE_DAYLIGHT:
// use now as default point in time for possible offset calculations
ts = getSession()->getSystemNowAs(TCTX_SYSTEM);
// if no field is specified, the item context is used (which defaults to
// the session's user context)
// Note that testing fldP is not enough, because an empty array will also cause fldP==NULL
if (!fldP) {
if (aFid!=FID_NOT_SUPPORTED)
return false; // field not available (but conversion definition DOES refer to a field --> no time zone)
// conversion definition does not refer to a field: use item context
tctx = fItemTimeContext;
}
else if (fldP->isBasedOn(fty_timestamp)) {
// time zone of a timestamp
tsFldP = static_cast<TTimestampField *>(fldP);
// - if floating time, we have no time zone
if (tsFldP->isFloating() || tsFldP->isDuration()) return false; // floating or duration -> no time zone
// - get context
tctx = tsFldP->getTimeContext(); // get the context
// - get the value
ts = tsFldP->getTimestampAs(TCTX_UNKNOWN);
// prevent generating TZID (and associated VTIMEZONES later) for empty timestamp
if (ts==noLinearTime) return false; // no timestamp -> no time zone
}
else if (fldP->getCalcType()==fty_integer) {
// integer field is simply a time zone offset in minutes
tctx = TCTX_MINOFFSET(fldP->getAsInteger());
}
else if (!fldP->isEmpty()) {
// string field can be timezone name or numeric minute offset
fldP->getAsString(s);
if (!TimeZoneNameToContext(s.c_str(),tctx,getSessionZones())) {
// if not recognized as time zone name, use integer value
tctx = TCTX_MINOFFSET(fldP->getAsInteger());
}
}
else
return false; // no TZ to show
// if remote cannot handle UTC (i.e. only understands localtime), then make sure
// the time zone shown is the general item zone (user zone).
if (!fReceiverCanHandleUTC) {
TzConvertTimestamp(ts,tctx,fItemTimeContext,getSessionZones());
tctx = fItemTimeContext; // use item zone
}
// now render context as selected
if (aConvDefP->convmode==CONVMODE_TZID) {
// time zone ID for iCal 2.0 TZID parameter
// - make sure meta context is resolved (we don't want "SYSTEM" as TZID!)
if (!TzResolveMetaContext(tctx, getSessionZones())) return false; // cannot resolve, no time zone ID
// - if time zone is not UTC (which is represented as "Z" and needs no TZID), show name
if (!TCTX_IS_UTC(tctx) && !TCTX_IS_UNKNOWN(tctx) && !TCTX_IS_DATEONLY(tctx)) {
// - show name of zone as TZID
if (!TimeZoneContextToName(tctx, aString, getSessionZones(), fProfileCfgP->fTzIdGenMode==tzidgen_olson ? "o" : NULL)) return false; // cannot get name/ID
// - flag property-level TZID generated now
fPropTZIDtctx=tctx;
// - add to set of TZID-referenced time zones (for vTimezone generation)
fUsedTCtxSet.insert(fUsedTCtxSet.end(),tctx);
// - update range of time covered for generating VTIMEZONE later
if (ts) {
if (fEarliestTZDate==noLinearTime || fEarliestTZDate>ts) fEarliestTZDate = ts; // new minimum
if (fLatestTZDate==noLinearTime || fLatestTZDate<ts) fLatestTZDate = ts; // new maximum
}
}
}
else {
// CONVMODE_TZ or CONVMODE_DAYLIGHT
// - there's only one TZ/DAYLIGHT per item, so set it as item context
if (!fReceiverCanHandleUTC) {
// devices that can't handle UTC should not be bothered with TZ info
// (e.g. for N-Gage/3650 presence of a TZ shifts the data by the TZ value!?)
return false; // prevent generation of TZ or DAYLIGHT props
}
else {
// only if remote can handle UTC we may change the item time context
// (otherwise, the timestamp must be rendered in itemzone/userzone)
fItemTimeContext = tctx;
fHasExplicitTZ = true; // flag setting explicit time zone for item
}
// - get resolved TZ offset and DAYLIGHT string for vCal 1.0
ContextToTzDaylight(tctx,ts,s,tctx,getSessionZones());
if (aConvDefP->convmode==CONVMODE_TZ) {
// time zone in +/-hh[:mm] format for vCal 1.0 TZ property
// - render offset in extended format
aString.erase();
// - return true only if we actually have a TZ
return ContextToISO8601StrAppend(aString, tctx, true);
}
else if (aConvDefP->convmode==CONVMODE_DAYLIGHT) {
// TZ and DAYLIGHT property for vCal 1.0
aString = s;
// - return true only if we actually have a DAYLIGHT
return !s.empty();
}
}
// done
return true;
case CONVMODE_MAILTO:
// make sure we have a mailto: prefix (but not if string is empty)
if (!fldP) return false; // no field, no value
fldP->getAsString(s);
aString.erase();
if (strucmp(s.c_str(),"mailto:",7)!=0 && s.size()>0)
aString="mailto:";
aString+=s;
return true;
case CONVMODE_VALUETYPE:
case CONVMODE_FULLVALUETYPE:
// specify value type of field if needed
if (!fldP) return false; // no field -> no VALUE param
if (fldP->isBasedOn(fty_timestamp)) {
// show VALUE=DATE if we have date-only or time-only
tctx = static_cast<TTimestampField *>(fldP)->getTimeContext();
if (TCTX_IS_DURATION(tctx)) aString="DURATION";
else if (TCTX_IS_DATEONLY(tctx)) aString="DATE";
else if (TCTX_IS_TIMEONLY(tctx)) aString="TIME";
else {
// only show type if full value type requested
if (aConvDefP->convmode==CONVMODE_FULLVALUETYPE)
aString="DATE-TIME";
else
return false; // we don't need a VALUE param for normal datetimes
}
}
else
return false; // no field type that needs VALUE param
// valuetype generated
return true;
case CONVMODE_VERSION:
// version string
aString=aItem.getItemType()->getTypeVers(fProfileMode);
return true;
case CONVMODE_PRODID:
// PRODID ISO9070 non-registered FPI
// -//ABC Corporation//NONSGML My Product//EN
aString = SYSYNC_FPI;
return true;
case CONVMODE_BITMAP:
// bitmap is a special case of multimix, set up params
nummix = 1;
mixOffs[0]=0;
mixIsFlags[0]=true;
goto genmix;
case CONVMODE_MULTIMIX:
// list of special values that can be either literals or bit masks, and can optionally affect more than one field
// Syntax:
// Bx : Bit number x (like in CONVMODE_BITMAP, x = 0..63)
// Lxxxx : Literal xxxxx (xxxxx will just be copied from the source field)
// y.Bx or y.Lxxxx : use y as field offset to use (no y means 0 offset)
// - collect parameters to generate mix from enums
nummix = 0;
enumP = aConvDefP->enumdefs;
while(enumP) {
if (mixvalparse(TCFG_CSTR(enumP->enumval),offs,isFlags,bitNo)) {
// check if this field is in list already
for (i=0; i<nummix; i++) {
if (mixOffs[i] == offs) goto next; // referring to same field again, skip
}
// is a new field, add it to list
mixOffs[nummix] = offs;
mixIsFlags[nummix] = isFlags;
nummix++;
if (nummix>=maxmix) break; // no more mixes allowed, stop scanning
}
next:
// check next enum
enumP=enumP->next;
}
genmix:
// now generate strings from collected data
aString.erase();
for (i=0; i<nummix; i++) {
// get target field
fldP = aItem.getArrayField(aFid+mixOffs[i],aArrIndex,true); // existing array elements only
if (fldP) {
if (mixIsFlags[i]) {
// use target as bitmask to create bit numbers
flags=fldP->getAsInteger();
bitNo=0;
while (flags) {
if (flags & 1) {
// create bit representation
if (!aString.empty() && aConvDefP->combineSep)
aString+=aConvDefP->combineSep; // separator first if not first item
if (aConvDefP->convmode==CONVMODE_MULTIMIX) {
// multimix mode, use full syntax
if (mixOffs[i]>0)
StringObjAppendPrintf(aString,"%d.",mixOffs[i]);
aString += 'B';
}
// add bit number
StringObjAppendPrintf(aString,"%hd",bitNo);
}
flags >>= 1; // consume this one
bitNo++;
}
}
else {
// literal
if (!fldP->isEmpty()) {
if (!aString.empty() && aConvDefP->combineSep)
aString+=aConvDefP->combineSep; // append separator if there are more flags
if (mixOffs[i]>0)
StringObjAppendPrintf(aString,"%d.",mixOffs[i]);
aString += 'L'; // literal
fldP->appendToString(aString);
}
}
} // field available
} // for each mix
return true;
case CONVMODE_RRULE: {
// get values from field block
if (aFid<0) return false; // no field, no string
// - freq/freqmod
if (!(sfP = ITEMFIELD_DYNAMIC_CAST_PTR(TStringField,fty_string,aItem.getArrayField(aFid,aArrIndex,true)))) return false;
aFid++; // do NOT INCREMENT in macro, as it would get incremented twice
sfP->getAsString(s);
freq='0'; // none
freqmod=' '; // no modifier
if (s.size()>0) freq=s[0];
if (s.size()>1) freqmod=s[1];
// - interval
if (!(ifP = ITEMFIELD_DYNAMIC_CAST_PTR(TIntegerField,fty_integer,aItem.getArrayField(aFid,aArrIndex,true)))) return false;
aFid++; // do NOT INCREMENT in macro, as it would get incremented twice
interval=(sInt16)ifP->getAsInteger();
// - firstmask
if (!(ifP = ITEMFIELD_DYNAMIC_CAST_PTR(TIntegerField,fty_integer,aItem.getArrayField(aFid,aArrIndex,true)))) return false;
aFid++; // do NOT INCREMENT in macro, as it would get incremented twice
firstmask=ifP->getAsInteger();
// - lastmask
if (!(ifP = ITEMFIELD_DYNAMIC_CAST_PTR(TIntegerField,fty_integer,aItem.getArrayField(aFid,aArrIndex,true)))) return false;
aFid++; // do NOT INCREMENT in macro, as it would get incremented twice
lastmask=ifP->getAsInteger();
// - until
if (!(tsFldP = ITEMFIELD_DYNAMIC_CAST_PTR(TTimestampField,fty_timestamp,aItem.getArrayField(aFid,aArrIndex,true)))) return false;
aFid++; // do NOT INCREMENT in macro, as it would get incremented twice
// Until
// - UTC preferred as output format if basically possible and not actively disabled
untilcontext=
fReceiverCanHandleUTC && getSession()->canHandleUTC() ?
TCTX_UTC :
fItemTimeContext;
// - get in preferred zone (or floating)
until=tsFldP->getTimestampAs(untilcontext,&untilcontext);
lineartime_t tzend = until;
// A RRULE with no end extends at least into current time (for tz range update, see below)
if (until==noLinearTime) {
tzend = getSession()->getSystemNowAs(TCTX_UTC);
}
// Now do the conversion
bool ok;
if (fMimeDirMode==mimo_old) {
// vCalendar 1.0 type RRULE
ok = internalToRRULE1(
aString,
freq,
freqmod,
interval,
firstmask,
lastmask,
until,
untilcontext,
GETDBGLOGGER
);
}
else {
// iCalendar 2.0 type RRULE
ok = internalToRRULE2(
aString,
freq,
freqmod,
interval,
firstmask,
lastmask,
until,
untilcontext,
GETDBGLOGGER
);
}
// if we actually generated a RRULE, the range of used time zones must be updated according
// to the recurrence end (date or open end, see tzend calculation above)
if (!aString.empty()) {
if (fEarliestTZDate==noLinearTime || tzend<fEarliestTZDate) fEarliestTZDate = tzend;
if (fLatestTZDate==noLinearTime || tzend>fLatestTZDate) fLatestTZDate = tzend;
}
return ok;
break; // just in case
}
default:
// unknown mode, no value
return false;
}
return false;
} // TMimeDirProfileHandler::fieldToMIMEString
/// @brief test if char is part of a line end
/// @return true if aChar is a line end char
/// @param [in] aChar charcter to check
static bool isLineEndChar(appChar aChar)
{
return (aChar=='\x0D') || (aChar=='\x0A');
} // isLineEndChar
/// @brief test if char is end of a line or end of the text (NUL)
/// @return true if aChar is a line end char or NUL
/// @param [in] aChar charcter to check
static bool isEndOfLineOrText(appChar aChar)
{
return (aChar==0) || isLineEndChar(aChar);
} // isEndOfLineOrText
/// @brief test if a line end of any kind is at aText
/// @note CR,LF,CRLF and CR...CRLF sequences are all considered one line end
/// @return true if line end found
/// @param [in/out] aText advance past line end sequence
static bool testAndSkipLineEnd(cAppCharP &aText)
{
cAppCharP p = aText;
bool crFound = false;
// skip sequence of CRs
while (*p=='\x0D') {
p++;
crFound = true;
}
// past all CRs in a row
if (*p=='\x0A') {
// independent of the number of CRs preceeding, this is a line end including the LF
aText = p+1; // past LF
return true;
}
else if (crFound) {
// we previously found at least one CR at the beginning, but no LF is following
// -> assume CR only line ends, consider first CR as a line end by itself
aText++; // skip first CR
return true;
}
// not a line end
return false;
} // testAndSkipLineEnd
// return incremented pointer pointing to original char or next non-folded char
static cAppCharP skipfolded(cAppCharP aText, TMimeDirMode aMimeMode, bool qpSoftBreakCancel=false)
{
cAppCharP p = aText;
if (testAndSkipLineEnd(p)) {
// check for folding sequence
if (*p==' ' || *p=='\x09') {
// line end followed by space: folding sequence
if (aMimeMode==mimo_standard) {
// ignore entire sequence (CR,LF,SPACE/TAB)
return p+1;
}
else {
// old folding type, LWSP must be preserved
return p;
}
}
}
else if (qpSoftBreakCancel && *p=='=') {
// could be soft break sequence, check for line end
p++;
if (testAndSkipLineEnd(p)) {
return p;
}
}
// not folding sequence, return ptr to char as is
return aText;
} // skipfolded
// get next character, while skipping MIME-DIR folding sequences
// if qpSoftBreakCancel, QUOTED-PRINTABLE encoding style soft-line-break sequences
// will be eliminated
static const char *nextunfolded(const char *p, TMimeDirMode aMimeMode, bool qpSoftBreakCancel=false)
{
if (*p==0) return p; // at end of string, do not advance
p++; // point to next
return skipfolded(p,aMimeMode,qpSoftBreakCancel);
} // nextunfolded
// helper for MIME DIR generation:
// - apply encoding and charset conversion to values part of property if needed
static void decodeValue(
TEncodingTypes aEncoding, // the encoding to be used
TCharSets aCharset, // charset to be applied to 8-bit chars
TMimeDirMode aMimeMode, // the MIME mode
char aStructSep, // input is structured value, stop when aStructSep is encountered
char aAltSep, // alternate separator, also stop when encountering this one (but only if aStructSep is !=0)
const char *&aText, // where to start decoding, updated past last char added to aVal
string &aVal // decoded data is stored here (possibly some binary data)
)
{
const int maxseqlen=6;
int seqlen;
char c,chrs[maxseqlen];
const char *p,*q;
aVal.erase();
bool escaped=false;
if (aEncoding==enc_quoted_printable) {
// decode quoted-printable content
p = skipfolded(aText,aMimeMode,true); // get unfolded start point (in case value starts with folding sequence)
do {
// decode standard content
c=*p;
if (isEndOfLineOrText(c) || (!escaped && aStructSep!=0 && (c==aStructSep || c==aAltSep))) break; // EOLN and struct separators terminate value
// test if escape char (but do not filter it out, as actual de-escaping is done in parseValue() later
escaped=(!escaped) && (c=='\\'); // escape next only if we are not escaped already
// char found
if (c=='=') {
uInt16 code;
const char *s;
char hex[2];
s=nextunfolded(p,aMimeMode,true);
if (*s==0) break; // end of string
hex[0]=*s; // first digit
s=nextunfolded(s,aMimeMode,true);
if (*s==0) break; // end of string
hex[1]=*s; // second digit
if (HexStrToUShort(hex,code,2)==2) {
p=s; // continue with next char after second digit
c=code; // decoded char
if (c=='\x0D') {
c='\n'; // make newline
}
else if (c=='\x0A') {
p=nextunfolded(p,aMimeMode,true); // advance to char after second digit
continue; // ignore LF
}
}
}
seqlen=1; // assume logical char consists of single byte
chrs[0]=c;
do {
seqlen=appendCharsAsUTF8(chrs,aVal,aCharset,seqlen); // add char (possibly with UTF8 expansion) to aVal
if (seqlen<=1) break; // done
// need more bytes to encode entire char
for (int i=1;i<seqlen;i++) {
p=nextunfolded(p,aMimeMode,true);
chrs[i]=*p;
}
} while(true);
p=nextunfolded(p,aMimeMode,true);
} while(true);
} // quoted printable
else if (aEncoding==enc_base64 || aEncoding==enc_b) {
// Decode b64
// - find start of property value
p = skipfolded(aText,aMimeMode,false); // get unfolded start point (in case value starts with folding sequence
// - find end of property value
q=p;
while (*q) {
if (aStructSep!=0 && (*q==aStructSep || *q==aAltSep))
break; // structure separator terminates B64 as well (colon, semicolon and comma never appear in B64)
if (isLineEndChar(*q)) {
// end of line. Check if this is folding or end of property
cAppCharP r=skipfolded(q,aMimeMode,false);
if (r==q) {
// no folding skipped -> this appears to be the end of the property
// Now for ill-encoded vCard 2.1 which chop B64 into lines, but do not prefix continuation
// lines with some whitespace, make sure the next line contains a colon
// - skip that line end
while (isLineEndChar(*r)) r++;
// - examine next line
bool eob64 = false;
for (cAppCharP r2=r; *r2 && !isLineEndChar(*r2); r2++) {
if (*r2==':' || *r2==';') {
eob64 = true;
break;
}
}
if (eob64) break; // q is end of B64 string -> go decode it
// there's more to the b64 string at r, continue looking for end
}
// skip to continuation of B64 string
q=r;
}
else
q++;
}
// - decode base 64
uInt32 binsz=0;
uInt8 *binP = b64::decode(p, q-p, &binsz);
aVal.append((const char *)binP,binsz);
sysync_free(binP);
// - continue at next char after b64 value
p=q;
}
else {
// no (known) encoding
p = skipfolded(aText,aMimeMode,false); // get unfolded start point (in case value starts with folding sequence
do {
c=*p;
if (isEndOfLineOrText(c) || (!escaped && aStructSep!=0 && (c==aStructSep || c==aAltSep))) break; // EOLN and structure-sep (usually ;) terminate value
// test if escape char (but do not filter it out, as actual de-escaping is done in parseValue() later
escaped=(!escaped) && (c=='\\'); // escape next only if we are not escaped already
// process char
seqlen=1; // assume logical char consists of single byte
chrs[0]=c;
do {
seqlen=appendCharsAsUTF8(chrs,aVal,aCharset,seqlen); // add char (possibly with UTF8 expansion) to aVal
if (seqlen<=1) break; // done
// need more bytes to encode entire char
for (int i=1;i<seqlen;i++) {
p=nextunfolded(p,aMimeMode,false);
chrs[i]=*p;
}
} while(true);
p=nextunfolded(p,aMimeMode,false);
} while(true);
} // no encoding
// return pointer to terminating char
aText=p;
} // decodeValue
// helper for MIME DIR generation:
// - apply encoding to values part of property if needed
static void encodeValues(
TEncodingTypes aEncoding, // the encoding to be used
TCharSets aCharSet, // charset to be applied to 8-bit chars
const string &aValuedata, // the data to be encoded (possibly some binary data)
string &aPropertytext, // the property string where encoded data is appended
bool aDoNotFoldContent // special override for folding
)
{
const uInt8 *valPtr = (const uInt8 *)aValuedata.c_str();
size_t valSz = aValuedata.size();
string s;
if (aCharSet!=chs_utf8) {
// we need to convert to target charset first
appendUTF8ToString((const char *)valPtr,s,aCharSet,lem_none,qm_none);
valPtr = (const uInt8 *)s.c_str();
valSz = s.size();
}
// - apply encoding if needed
appendEncoded(
valPtr, // input
valSz,
aPropertytext, // append output here
aEncoding, // desired encoding
aDoNotFoldContent ?
0 // disable insertion of soft line breaks
: MIME_MAXLINESIZE-1, // limit to standard MIME-linesize, leave one free for possible extra folding space
aPropertytext.size() % MIME_MAXLINESIZE, // current line size
true // insert CRs only for softbreaks (for post-processing by folding)
);
} // encodeValues
// helper for MIME DIR generation:
// - fold, copy and terminate (CRLF) property into aString output
// - \n in input is explicit "fold here" indicator
// - \b in input is an optional "fold here" indicator, which will appear as space in the
// output when needed, but will otherwise be discarded
// - \r in input indicates that a line end must be inserted
// if aDoSoftBreak==true, only a line break is inserted (QUOTED-PRINTABLE soft line break)
// otherwise, a full folding sequence (CRLF + space) is inserted. In case of MIME-DIR,
// QP softbreaks are nothing special, and still need an extra space (as this is reversed on parsing).
static void finalizeProperty(
const char *proptext,
string &aString,
TMimeDirMode aMimeMode, // MIME mode (older or newer vXXX format compatibility)
bool aDoNotFold, // set to prevent folding
bool aDoSoftBreak // set to insert QP-softbreaks when \r is encountered, otherwise do a full hard break (which essentially inserts a space for mimo_old)
)
{
// make sure that allocation does not increase char by char
aString.reserve(aString.size()+strlen(proptext)+100);
char c;
ssize_t n=0,llen=0;
ssize_t lastlwsp=-1; // no linear white space found so far
bool explf;
cAppCharP firstunwritten=proptext; // none written yet
while (proptext && (c=*proptext)!=0) {
// remember position of last lwsp (space or TAB)
if (c==' ' || c==0x09) lastlwsp=n;
// next (UTF8) char
// Note: we prevent folding within UTF8 sequences as result string would become inconvertible e.g. into UTF16
uInt32 uc;
cAppCharP nP = UTF8toUCS4(proptext, uc);
if (uc!=0) {
// UTF-8 compliant byte (or byte sequence), skip as an entiety
n += nP-proptext;
proptext = nP;
}
else {
// Not UTF-8 compliant, simply one byte
n++;
proptext++;
}
// check for optional break indicator
if (c=='\b') {
aString.append(firstunwritten,n-1); // copy what we have up to that '\b'
firstunwritten+=n; // now pointing to next char after '\b'
lastlwsp=0; // usually now pointing to a NON-LWSP, except if by accident a LWSP follows, which is ok as well
n=0; // continue checking from here
continue; // check next
}
// update line length
llen++;
// explicit linefeed flag
explf=(c=='\n' || c=='\r');
if (aDoNotFold) {
// prohibit folding for ugly devices like V3i
if (explf) {
// append what we have until here
n--; // explicit \n or \r is ignored
aString.append(firstunwritten,n);
// forget the explicit linefeed - and continue
n=0;
llen=0;
firstunwritten=proptext;
}
}
else if ((llen>=MIME_MAXLINESIZE && *proptext) || explf) { // avoid unnecessary folding (there must be something more coming)
// folding needed (line gets longer than MIME_MAXLINESIZE or '\n' found in input string)
if (aMimeMode==mimo_old && !explf) {
// vCard 2.1 type folding, must occur before an LWSP
#ifdef DONT_FORCE_FOLD_ITEMS_WITHOUT_LWSP
if (lastlwsp<0) continue; // no LWSP found, cannot fold
#else
if (lastlwsp<0) {
// emergency force fold and accept data being shredded
// - copy all we have by now
aString.append(firstunwritten,n);
firstunwritten+=n; // now pointing to next
n=0; // none left (not needed, would be reset below anyway)
// - insert line break
aString.append("\x0D\x0A "); // line break AND an extra shredding space
}
else
#endif
{
// - copy all up to (but not including) last LWSP
aString.append(firstunwritten,lastlwsp);
firstunwritten+=lastlwsp; // now pointing to LWSP (or non-LWSP in case of '\b')
n-=lastlwsp; // number of chars left (including LWSP)
// - insert line break
aString.append("\x0D\x0A"); // line break
if (*firstunwritten!=' ' && *firstunwritten!=0x09)
aString+=' '; // breaking at location indicated by '\b', LWSP must be added
// - copy rest scanned so far (except in '\b' case, this begins with an LWSP)
aString.append(firstunwritten,n);
}
// we are on a new line now
n=0;
lastlwsp=-1;
llen=0;
firstunwritten=proptext;
}
else {
// MIME-DIR type folding, can occur anywhere and *adds* a LWSP (which is removed at unfolding later)
// or mimo-old type folding containing explicit CR(LF)s -> break here
// - copy line so far to output
if (explf)
n--; // explicit \n or \r is not copied, but only causes line break to occur
aString.append(firstunwritten,n);
aString.append("\x0D\x0A"); // line break
if (
(c!='\r' && aMimeMode==mimo_standard) || // folding indicator and MIME-DIR -> folding always must insert extra space
(c=='\r' && !aDoSoftBreak) // soft-break indicator, but not in softbreak mode (i.e. B64 input) -> always insert extra space
)
aString+=' '; // not only soft line break, but MIMD-DIR type folding
n=0;
llen=0;
firstunwritten=proptext;
}
}
}
// append rest
aString.append(firstunwritten,n);
// terminate property
aString.append("\x0D\x0A"); // CRLF
} // finalizeProperty
// results for generateValue:
#define GENVALUE_NOTSUPPORTED 0 // field not supported
#define GENVALUE_EXHAUSTED 1 // array field exhausted
#define GENVALUE_EMPTYELEMENT 2 // array field empty
#define GENVALUE_EMPTY 3 // non-array field empty
#define GENVALUE_ELEMENT 4 // non-empty array element
#define GENVALUE_NONEMPTY 5 // non-empty non-array value
// helper for generateMimeDir()
// - generate parameter or property value(list),
// returns: GENVALUE_xxx
sInt16 TMimeDirProfileHandler::generateValue(
TMultiFieldItem &aItem, // the item where data comes from
const TConversionDef *aConvDefP,
sInt16 aBaseOffset, // basic fid offset to use
sInt16 aRepOffset, // repeat offset, adds to aBaseOffset for non-array fields, is array index for array fields
string &aString, // where value is ADDED
char aSeparator, // separator to be used between values if field contains multiple values in a list separated by confdef->combineSep
TMimeDirMode aMimeMode, // MIME mode (older or newer vXXX format compatibility)
bool aParamValue, // set if generating parameter value (different escaping rules, i.e. colon must be escaped, or entire value double-quoted)
bool aStructured, // set if value consists of multiple values (needs semicolon content escaping)
bool aCommaEscape, // set if "," content escaping is needed (for values in valuelists like TYPE=TEL,WORK etc.)
TEncodingTypes &aEncoding, // modified if special value encoding is required
bool &aNonASCII, // set if any non standard 7bit ASCII-char is contained
char aFirstChar // will be appended before value if there is any value (and a '\b' optional break indicator is appended as well)
)
{
string vallist; // as received from fieldToMIMEString()
string val; // single value
string outval; // entire value (list) escaped
char c;
// determine field ID
bool isarray = false; // no array by default
sInt16 fid=aConvDefP->fieldid;
if (fid>=0) {
// field has storage
// - fid is always offset by baseoffset
fid += aBaseOffset;
// - adjust now
isarray = aItem.adjustFidAndIndex(fid,aRepOffset);
// generate only if available in both source and target (or non-SyncML context)
if (isFieldAvailable(aItem,fid)) {
// find out if value exists
if (aItem.isAssigned(fid)) {
// - field has a value assigned (altough this might be empty string)
// determine max size to truncate value if needed
outval.erase();
sInt32 valsiz=0; // net size of value
//%%%% getTargetItemType???
sInt32 maxSiz=aItem.getTargetItemType()->getFieldOptions(fid)->maxsize;
if (maxSiz==FIELD_OPT_MAXSIZE_UNKNOWN || maxSiz==FIELD_OPT_MAXSIZE_NONE)
maxSiz = 0; // no size restriction
bool noTruncate=aItem.getTargetItemType()->getFieldOptions(fid)->notruncate;
// check for BLOB values
if (aConvDefP->convmode==CONVMODE_BLOB_B64) {
// no value lists, escaping, enums. Simply set value and encoding
TItemField *fldP = aItem.getArrayField(fid,aRepOffset,true); // existing array elements only
if (!fldP) return GENVALUE_EXHAUSTED; // no leaf field - must be exhausted array (fldP==NULL is not possible here for non-arrays)
if (fldP->isUnassigned()) return GENVALUE_EMPTYELEMENT; // must be empty element empty element, but field supported (fldP==NULL is not possible here for non-arrays)
// check max size and truncate if needed
if (maxSiz && sInt32(fldP->getStringSize())>maxSiz) {
if (noTruncate || getSession()->getSyncMLVersion()<syncml_vers_1_2) {
// truncate not allowed (default for pre-SyncML 1.2 for BLOB fields)
PDEBUGPRINTFX(DBG_ERROR+DBG_GEN,("BLOB value exceeds max size (%ld) and cannot be truncated -> omit", (long)maxSiz));
return GENVALUE_NOTSUPPORTED; // treat it as if field was not supported locally
}
}
// append to existing string
fldP->appendToString(outval,maxSiz);
// force B64 encoding
aEncoding=enc_base64;
aNonASCII=false;
}
else {
// apply custom field(s)-to-string translation if needed
if (!fieldToMIMEString(aItem,fid,aRepOffset,aConvDefP,vallist)) {
// check if no value because array was exhausted
if (aItem.getArrayField(fid,aRepOffset,true))
return isarray ? GENVALUE_EMPTYELEMENT : GENVALUE_EMPTY; // no value (but field supported)
else
return GENVALUE_EXHAUSTED; // no leaf field - must be exhausted array
}
// separate value list into multiple values if needed
const char *lp = vallist.c_str(); // list item pointer
const char *sp; // start of item pointer (helper)
sInt32 n;
while (*lp!=0) {
// find (single) input value string's end
for (sp=lp,n=0; (c=*lp)!=0; lp++, n++) {
if (c==aConvDefP->combineSep) break;
}
// - n=size of input value, p=ptr to end of value (0 or sep)
val.assign(sp,n);
// perform enum translation if needed
if (aConvDefP->enumdefs) {
const TEnumerationDef *enumP = aConvDefP->findEnumByVal(val.c_str());
if (enumP) {
PDEBUGPRINTFX(DBG_GEN+DBG_EXOTIC,("Val='%s' translated to enumName='%s' mode=%s", val.c_str(), TCFG_CSTR(enumP->enumtext), EnumModeNames[enumP->enummode]));
if (enumP->enummode==enm_ignore)
val.erase(); // ignore -> make value empty as empty values are never stored
else if (enumP->enummode==enm_prefix) {
// replace value prefix by text prefix
n=TCFG_SIZE(enumP->enumval);
val.replace(0,n,TCFG_CSTR(enumP->enumtext)); // replace val prefix by text prefix
}
else {
// simply use translated value
val=enumP->enumtext;
}
}
else {
PDEBUGPRINTFX(DBG_GEN+DBG_EXOTIC,("No translation found for Val='%s'", val.c_str()));
}
}
// - val is now translated enum (or original value if value does not match any enum text)
valsiz+=val.size();
// perform escaping and determine need for encoding
bool spaceonly = true;
bool firstchar = true;
sInt32 wordSize=0;
for (const char *p=val.c_str();(c=*p)!=0 && (c!=aConvDefP->combineSep);p++) {
// process char
// - check for whitespace
if (!isspace(c)) {
spaceonly = false; // does not consist of whitespace only
wordSize++; // count consecutive non-spaces
if (aMimeMode==mimo_old && aEncoding==enc_none && wordSize>MIME_MAXLINESIZE/2) {
// If text contains words with critical (probably unfoldable) size in mimo-old, select quoted printable encoding
aEncoding=enc_quoted_printable;
}
}
else {
wordSize = 0; // new word starts
}
// only text must be fully escaped, turn escaping off for RRULE (RECUR type)
bool noescape = aConvDefP->convmode==CONVMODE_RRULE;
// escape reserved chars
switch (c) {
case '"':
if (firstchar && aParamValue && aMimeMode==mimo_standard) goto do_escape; // if param value starts with a double quote, we need to escape it because param value can be in double-quote-enclosed form
goto add_char; // otherwise, just add
case ',':
// in MIME-DIR, always escape commas, in pre-MIME-DIR only if usage in value list requires it
if (noescape || (!aCommaEscape && aMimeMode==mimo_old)) goto add_char;
goto do_escape;
case ':':
// always escape colon in parameters
if (!aParamValue) goto add_char;
goto do_escape;
case '\\':
// Backslash must always be escaped
// - for MIMO-old: at least Nokia 9210 does it this way
// - for MIME-DIR: specified in the standard
goto do_escape;
case ';':
// in MIME-DIR, always escape semicolons, in pre-MIME-DIR only in parameters and structured values
if (noescape || (!aParamValue && !aStructured && aMimeMode==mimo_old)) goto add_char;
do_escape:
// escape chars with backslash
outval+='\\';
goto out_char;
case '\r':
// ignore returns
break;
case '\n':
// quote linefeeds
if (aMimeMode==mimo_old) {
if (aEncoding==enc_none) {
// For line ends in mimo_old: select quoted printable encoding
aEncoding=enc_quoted_printable;
}
// just pass it, will be encoded later
goto add_char;
}
else {
// MIME-DIR: use quoted C-style notation
outval.append("\\n");
}
break;
default:
add_char:
// prevent adding space-only for params
if (spaceonly && aParamValue) break; // just check next
out_char:
// check for non ASCII and set flag if found
if ((uInt8)c > 0x7F) aNonASCII=true;
// just copy to output
outval+=c;
firstchar = false; // first char is out
break;
}
} // for all chars in val item
// go to next item in the val list (if any)
if (*lp!=0) {
// more items in the list
// - add separator if previous one is not empty param value
if (!(spaceonly && aParamValue)) {
outval+=aSeparator;
valsiz++; // count it as part of the value
}
lp++; // skip input list separator
}
// check for truncation needs (do not truncate parameters, ever)
if (maxSiz && valsiz>maxSiz && !aParamValue) {
// size exceeded
if (noTruncate) {
// truncate not allowed
PDEBUGPRINTFX(DBG_ERROR+DBG_GEN,(
"Value '%" FMT_LENGTH(".40") "s' exceeds %ld chars net length but is noTruncate -> omit",
FMT_LENGTH_LIMITED(40,outval.c_str()),
(long)maxSiz
));
// treat it as if field was not supported locally
return GENVALUE_NOTSUPPORTED;
}
else {
// truncate allowed, shorten output accordingly
outval.erase(outval.size()-(valsiz-maxSiz));
PDEBUGPRINTFX(DBG_GEN,(
"Truncated value '%" FMT_LENGTH(".40") "s' to %ld chars net length (maxSize)",
FMT_LENGTH_LIMITED(40,outval.c_str()),
(long)maxSiz
));
// do not add more chars
break;
}
}
} // while value chars available
} // not BLOB conversion
// value generated in outval (altough it might be an empty string)
} // if field assigned
else {
// not assigned. However a not assigned array means an array with no elements, which
// is the same as an exhausted array
return isarray ? GENVALUE_EXHAUSTED : GENVALUE_NOTSUPPORTED; // array is exhaused, non-array unassigned means not available
}
} // source and target both support the field (or field belongs to mandatory property)
else
return GENVALUE_NOTSUPPORTED; // field not supported by either source or target (and not mandatory) -> do not generate value
} // if fieldid exists
else {
// could be special conversion using no data or data from
// internal object variables (such as VERSION value)
if (fieldToMIMEString(aItem,FID_NOT_SUPPORTED,0,aConvDefP,vallist)) {
// got some output, use it as value
outval=vallist;
}
else
// no value, no output
return GENVALUE_NOTSUPPORTED; // field not supported
}
// now we have a value in outval, check if encoding needs to be applied
// - check if we should select QUOTED-PRINTABLE because of nonASCII
if (aNonASCII && fDoQuote8BitContent && aEncoding==enc_none)
aEncoding=enc_quoted_printable;
// just append
if (!outval.empty() && aFirstChar!=0) {
aString+=aFirstChar; // we have a value, add sep char first
aString+='\b'; // and an optional break indicator
}
aString.append(outval);
// done
return outval.empty()
? (isarray ? GENVALUE_EMPTYELEMENT : GENVALUE_EMPTY) // empty
: (isarray ? GENVALUE_ELEMENT : GENVALUE_NONEMPTY); // non empty
} // TMimeDirProfileHandler::generateValue
// generate parameters for one property instance
// - returns true if parameters with shownonempty=true were generated
bool TMimeDirProfileHandler::generateParams(
TMultiFieldItem &aItem, // the item where data comes from
string &aString, // the string to add parameters to
const TPropertyDefinition *aPropP, // the property to generate (all instances)
TMimeDirMode aMimeMode, // MIME mode (older or newer vXXX format compatibility)
sInt16 aBaseOffset,
sInt16 aRepOffset,
TPropNameExtension *aPropNameExt // propname extension for generating musthave param values
)
{
const TParameterDefinition *paramP;
bool paramstarted;
char sep=0; // separator for value lists
bool nonasc=false;
TEncodingTypes encoding;
string paramstr;
bool showalways=false;
// Generate parameters
// Note: altough positional values are always the same, non-positional values
// can vary from repetition to repetition and can be mixed with the
// positional values. So we must generate the mixture again for
// every repetition.
// - check all parameters for musthave values
paramP = aPropP->parameterDefs;
while (paramP) {
// parameter not started yet
paramstarted=false;
// process param only if matching mode
if (mimeModeMatch(paramP->modeDependency)) {
// first append extendsname param values
if (paramP->extendsname && aPropNameExt) {
const TEnumerationDef *enumP = paramP->convdef.enumdefs;
while (enumP) {
if (enumP->nameextid>=0) {
// value is relevant for name extension, check if required for this param
if ((((TNameExtIDMap)1<<enumP->nameextid) & (aPropNameExt->musthave_ids | aPropNameExt->addtlSend_ids))!=0) {
// found param value which is required or flagged to be sent additionally as name extension
if (!paramstarted) {
paramstarted=true;
aString+=';'; // param always starts with ;
if (paramP->defaultparam && (aMimeMode==mimo_old)) {
// default param, values are written like a list of params
sep=';'; // separator, in case other values follow
}
else {
// normal parameter, first add param separator and name
// - lead-in
aString.append(paramP->paramname);
aString+='=';
// - separator, in case other values follow
sep=','; // value list separator is comma by default
}
}
else {
// add separator for one more value
aString+=sep;
}
// add value
aString.append(enumP->enumtext);
} // if enum value is a "must have" value for name extension
} // if enum value is relevant to name extension
// next enum value
enumP=enumP->next;
} // while enum values
} // if extendsname
// append value(s) if there is an associated field
paramstr.erase(); // none to start with
if (paramP->convdef.fieldid!=FID_NOT_SUPPORTED) {
if (!paramstarted) {
// Note: paramstarted must not be set here, as empty value might prevent param from being written
// parameter starts with ";"
paramstr+=';';
if (paramP->defaultparam && (aMimeMode==mimo_old)) {
// default param, values are written like a list of params
sep=';';
}
else {
// normal parameter, first add name
paramstr.append(paramP->paramname);
paramstr+='=';
sep=','; // value list separator is comma by default
}
}
else {
// already started values, just add more
// - next value starts with a separator
paramstr+=sep;
}
// add parameter value(list)
encoding=enc_none; // parameters are not encoded
// NOTE: only non-empty parameters are generated
// NOTE: parameters themselves cannot have a value list that is stored in an array,
// but parameters of repeating properties can be stored in array elements (using the
// same index as for the property itself)
// Note: Escape commas if separator is a comma
if (generateValue(aItem,&(paramP->convdef),aBaseOffset,aRepOffset,paramstr,sep,aMimeMode,true,false,sep==',',encoding,nonasc)>=GENVALUE_ELEMENT) {
// value generated, add parameter name/value (or separator/value for already started params)
aString.append(paramstr);
paramstarted=true; // started only if we really have appended something at all
}
} // if field defined for this param
// update show status
if (paramP->shownonempty && paramstarted)
showalways=true; // param has a value and must make property show
}
// next param
paramP=paramP->next;
} // while params
return showalways;
} // TMimeDirProfileHandler::generateParams
// generateProperty return codes:
#define GENPROP_EXHAUSTED 0 // nothing generated because data source exhausted (or field not supported)
#define GENPROP_EMPTY 1 // nothing generated because empty value (but field supported)
#define GENPROP_NONEMPTY 2 // something generated
// helper for generateMimeDir(), expansion of property according to nameExts
void TMimeDirProfileHandler::expandProperty(
TMultiFieldItem &aItem, // the item where data comes from
string &aString, // the string to add properties to
const char *aPrefix, // the prefix (property name)
const TPropertyDefinition *aPropP, // the property to generate (all instances)
TMimeDirMode aMimeMode // MIME mode (older or newer vXXX format compatibility)
)
{
// scan nameExts to generate name-extended variants and repetitions
TPropNameExtension *propnameextP = aPropP->nameExts;
if (!propnameextP) {
// no name extensions -> this is a non-repeating property
// just generate once, even if empty (except if it has suppressempty set)
generateProperty(
aItem, // the item where data comes from
aString, // the string to add properties to
aPrefix, // the prefix (property name)
aPropP, // the property to generate
0, // field ID offset to be used
0, // additional repeat offset / array index
aMimeMode, // MIME mode (older or newer vXXX format compatibility)
false // if set, a property with only empty values will never be generated
);
}
else {
// scan name extensions
sInt16 generated=0;
sInt16 maxOccur=0; // default to no limit
while (propnameextP) {
sInt16 baseoffs=propnameextP->fieldidoffs;
sInt16 repoffs=0; // no repeat offset yet
if (baseoffs!=OFFS_NOSTORE && !propnameextP->readOnly) {
// we can address fields for this property and it's not readonly (parsing variant)
// generate value part
sInt16 n=propnameextP->maxRepeat;
// check for value list
if (aPropP->valuelist && !aPropP->expandlist) {
// property contains a value list -> all repetitions are shown within ONE property instance
// NOTE: generateProperty will exhaust possible repeats
generateProperty(
aItem, // the item where data comes from
aString, // the string to add properties to
aPrefix, // the prefix (property name)
aPropP, // the property to generate
baseoffs, // field ID offset to be used
repoffs, // additional repeat offset / array index
aMimeMode, // MIME mode (older or newer vXXX format compatibility)
propnameextP->minShow<1, // suppress if fewer to show than 1 (that is, like suppressempty in this case)
propnameextP // propname extension for generating musthave param values and maxrep/repinc for valuelists
);
}
else {
// now generate separate properties for all repetitions
// Note: strategy is to keep order as much as possible (completely if
// minShow is >= maxRepeat
sInt16 emptyRepOffs=-1;
// get occurrence limit as provided by remote
for (sInt16 i=0; i<aPropP->numValues; i++) {
sInt16 fid=aPropP->convdefs[0].fieldid;
if (fid>=0) {
if (fRelatedDatastoreP) {
// only if datastore is related we are in SyncML context, otherwise we should not check maxOccur
maxOccur = aItem.getItemType()->getFieldOptions(fid)->maxoccur;
}
else
maxOccur = 0; // no limit
// Note: all value fields of the property will have the same maxOccur, so we can stop here
break;
}
}
do {
// generate property for this repetition
// - no repeating within generateProperty takes place!
sInt16 genres = generateProperty(
aItem, // the item where data comes from
aString, // the string to add properties to
aPrefix, // the prefix (property name)
aPropP, // the property to generate
baseoffs, // field ID offset to be used
repoffs, // additional repeat offset / array index
aMimeMode, // MIME mode (older or newer vXXX format compatibility)
propnameextP->minShow-generated<n, // suppress if fewer to show than remaining repeats
propnameextP // propname extension for generating musthave param values
);
if (genres==GENPROP_NONEMPTY) {
// generated a property
generated++;
}
else {
// nothing generated
if (emptyRepOffs<0) emptyRepOffs=repoffs; // remember empty
// check for array repeat, in which case exhausted array or non-supported field will stop generating
if (propnameextP->maxRepeat==REP_ARRAY && genres==GENPROP_EXHAUSTED) break; // exit loop if any only if array exhausted
}
// one more generated of the maximum possible (note: REP_ARRAY=32k, so this will not limit an array)
n--;
repoffs+=propnameextP->repeatInc;
// end generation if remote's maxOccur limit is reached
if (maxOccur && generated>=maxOccur) {
PDEBUGPRINTFX(DBG_GEN,(
"maxOccur (%hd) for Property '%s' reached - no more instances will be generated",
maxOccur,
TCFG_CSTR(aPropP->propname)
));
break;
}
} while(n>0);
// add empty ones if needed
while (generated<propnameextP->minShow && emptyRepOffs>=0 && !(maxOccur && generated>=maxOccur)) {
// generate empty ones (no suppression)
generateProperty(aItem,aString,aPrefix,aPropP,baseoffs,emptyRepOffs,aMimeMode,false);
generated++; // count as generated anyway (even in case generation of empty is globally turned off)
}
} // repeat properties when we have repeating enabled
} // if name extension is stored
propnameextP=propnameextP->next;
// stop if maxOccur reached
if (maxOccur && generated>=maxOccur) break;
} // while nameexts
} // if nameexts at all
} // TMimeDirProfileHandler::expandProperty
// helper for expandProperty: generates property
// returns: GENPROP_xxx
sInt16 TMimeDirProfileHandler::generateProperty(
TMultiFieldItem &aItem, // the item where data comes from
string &aString, // the string to add properties to
const char *aPrefix, // the prefix (property name)
const TPropertyDefinition *aPropP, // the property to generate (all instances)
sInt16 aBaseOffset, // field ID offset to be used
sInt16 aRepeatOffset, // additional repeat offset / array index
TMimeDirMode aMimeMode, // MIME mode (older or newer vXXX format compatibility)
bool aSuppressEmpty, // if set, a property with only empty values will not be generated
TPropNameExtension *aPropNameExt // propname extension for generating musthave param values and maxrep/repinc for valuelists
)
{
string proptext; // unfolded property text
proptext.reserve(300); // not too small
string elemtext; // single element (value or param) text
TEncodingTypes encoding;
bool nonasc=false;
// - reset TZID presence flag
fPropTZIDtctx = TCTX_UNKNOWN;
// - start with empty text
proptext.erase();
// - first set group if there is one
if (aPropP->groupFieldID!=FID_NOT_SUPPORTED) {
// get group name
TItemField *g_fldP = aItem.getArrayFieldAdjusted(aPropP->groupFieldID+aBaseOffset, aRepeatOffset, true);
if (g_fldP && !g_fldP->isEmpty()) {
g_fldP->appendToString(proptext);
proptext += '.'; // group separator
}
}
// - append name and (possibly) parameters that are constant over all repetitions
proptext += aPrefix;
bool anyvaluessupported=false; // at least one of the main values must be supported by the remote in order to generate property at all
bool arrayexhausted=false; // flag will be set if a main value was not generated because array exhausted
// - append parameter values
// anyvalues gets set if a parameter with shownonempty attribute was generated
bool anyvalues=generateParams(
aItem, // the item where data comes from
proptext, // where params will be appended
aPropP, // the property definition
aMimeMode,
aBaseOffset,
aRepeatOffset,
aPropNameExt
);
// - append value(s)
encoding=enc_none; // default is no encoding
sInt16 v=0; // value counter
nonasc=false; // assume plain ASCII
sInt16 genres;
TEncodingTypes enc;
bool na;
const TConversionDef *convP;
sInt16 maxrep=1,repinc=1;
if (aPropNameExt) {
maxrep=aPropNameExt->maxRepeat;
repinc=aPropNameExt->repeatInc;
}
// generate property contents
if (aPropP->valuelist && !aPropP->expandlist) {
// property with value list
// NOTE: convdef[0] is used for all values, aRepeatOffset changes
convP = &(aPropP->convdefs[0]);
// - now iterate over available repeats or array contents
while(aRepeatOffset<maxrep*repinc || maxrep==REP_ARRAY) {
// generate one value
enc=encoding;
na=false;
genres=generateValue(
aItem,
convP,
aBaseOffset, // offset relative to base field
aRepeatOffset, // additional offset or array index
elemtext,
aPropP->valuesep, // use valuelist separator between multiple values possibly generated from a list in a single field (e.g. CATEGORIES)
aMimeMode,
false, // not a param
true, // always escape ; in valuelist properties
aPropP->valuesep==',' || aPropP->altvaluesep==',', // escape commas if one of the separators is a comma
enc,
na,
v>0 ? aPropP->valuesep : 0 // separate with specified multi-value-delimiter if not first value
);
// check if something was generated
if (genres>=GENVALUE_ELEMENT) {
// generated something, might have caused encoding/noasc change
encoding=enc;
nonasc=nonasc || na;
}
// update if we have at least one value of this property supported (even if empty) by the remote party
if (genres>GENVALUE_NOTSUPPORTED) anyvaluessupported=true;
if (genres==GENVALUE_EXHAUSTED) arrayexhausted=true; // for at least one component of the property, the array is exhausted
// update if we have any value now (even if only empty)
// - generate empty property according to
// - aSuppressEmpty
// - session-global fDontSendEmptyProperties
// - supressEmpty property flag in property definition
// - if no repeat (i.e. no aPropNameExt), exhausted array is treated like empty value (i.e. rendered unless suppressempty set)
anyvalues = anyvalues ||
(genres>=(aSuppressEmpty || fDontSendEmptyProperties || aPropP->suppressEmpty ? GENVALUE_ELEMENT : (aPropNameExt ? GENVALUE_EMPTYELEMENT : GENVALUE_EXHAUSTED)));
// count effective value appended
v++;
// update repeat offset
aRepeatOffset+=repinc;
// check for array mode - stop if array is exhausted or field not supported
if (maxrep==REP_ARRAY && genres<=GENVALUE_EXHAUSTED) break;
}
}
else {
// property with individual values (like N)
// NOTE: field changes with different convdefs, offsets remain stable
arrayexhausted = true; // assume all arrays exhausted unless we find at least one non-exhausted array
bool somearrays = false; // no arrays yet
do {
convP = &(aPropP->convdefs[v]);
// generate one value
enc=encoding;
na=false;
genres=generateValue(
aItem,
convP,
aBaseOffset, // base offset, relative to
aRepeatOffset, // repeat offset or array index
elemtext, // value will be stored here (might be binary in case of BLOBs, but then encoding will be set)
',', // should for some exotic reason values consist of a list, separate it by "," (";" is reserved for structured values)
aMimeMode,
false,
aPropP->numValues>1, // structured value, escape ";"
aPropP->altvaluesep==',', // escape commas if alternate separator is a comma
enc, // will receive needed encoding (usually B64 for binary values)
na
);
//* %%% */ PDEBUGPRINTFX(DBG_EXOTIC,("generateValue #%hd for property '%s' returns genres==%hd",v,TCFG_CSTR(aPropP->propname),genres));
// check if something was generated
if (genres>=GENVALUE_ELEMENT) {
// generated something, might have caused encoding/noasc change
encoding=enc;
nonasc=nonasc || na;
}
// update if we have at least one value of this property supported (even if empty) by the remote party
if (genres>GENVALUE_NOTSUPPORTED) anyvaluessupported=true;
if (genres==GENVALUE_ELEMENT || genres==GENVALUE_EMPTYELEMENT) {
arrayexhausted = false; // there is at least one non-exhausted array we're reading from (even if only empty value)
somearrays = true; // generating from array
}
else if (genres==GENVALUE_EXHAUSTED)
somearrays = true; // generating from array
// update if we have any value now (even if only empty)
// - generate empty property according to
// - aSuppressEmpty
// - session-global fDontSendEmptyProperties
// - supressEmpty property flag in property definition
// - if no repeat (i.e. no aPropNameExt), exhausted array is treated like empty value (i.e. rendered unless suppressempty set)
anyvalues = anyvalues ||
(genres>=(aSuppressEmpty || fDontSendEmptyProperties || aPropP->suppressEmpty ? GENVALUE_ELEMENT : (aPropNameExt ? GENVALUE_EMPTYELEMENT : GENVALUE_EXHAUSTED)));
// insert delimiter if not last value
v++;
if (v>=aPropP->numValues) break; // done with all values
// add delimiter for next value
elemtext+=aPropP->valuesep;
// add break indicator
elemtext+='\b';
} while(true);
// if none of the data sources is an array, we can't be exhausted.
if (!somearrays) arrayexhausted = false;
}
// - finalize property if it contains supported fields at all (or is mandatory)
if ((anyvaluessupported && anyvalues) || aPropP->mandatory) {
// - generate encoding parameter if needed
if (encoding!=enc_none) {
// in MIME-DIR, only "B" is allowed for binary, for vCard 2.1 it is "BASE64"
if (encoding==enc_base64 || encoding==enc_b) {
encoding = aMimeMode==mimo_standard ? enc_b : enc_base64;
}
// add the parameter
proptext.append(";ENCODING=");
proptext.append(MIMEEncodingNames[encoding]);
}
// - generate charset parameter if needed
// NOTE: MIME-DIR based formats do NOT have the CHARSET attribute any more!
if (nonasc && aMimeMode==mimo_old && fDefaultOutCharset!=chs_ansi) {
// non-ASCII chars contained, generate property telling what charset is used
proptext.append(";CHARSET=");
proptext.append(MIMECharSetNames[fDefaultOutCharset]);
}
// - separate value from property text
proptext+=':';
// - append (probably encoded) values now, always in UTF-8
encodeValues(encoding,fDefaultOutCharset,elemtext,proptext,fDoNotFoldContent);
// - fold, copy and terminate (CRLF) property into aString output
finalizeProperty(proptext.c_str(),aString,aMimeMode,fDoNotFoldContent,encoding==enc_quoted_printable);
// - special case: base64 (but not B) encoded value must have an extra CRLF even if folding is
// disabled, so we need to insert it here (because non-folding mode eliminates it from being
// generated automatically in encodeValues/finalizeProperty)
if (fDoNotFoldContent && encoding==enc_base64)
aString.append("\x0D\x0A"); // extra CRLF terminating a base64 encoded property (note, base64 only occurs in mimo_old)
// - property generated
return GENPROP_NONEMPTY;
}
else {
// Note: it is essential to return GENPROP_EXHAUSTED if no values are supported for this property at
// all (otherwise caller might loop endless trying to generate a non-empty property
return
anyvaluessupported
? (arrayexhausted ? GENPROP_EXHAUSTED : GENPROP_EMPTY) // no property generated
: GENPROP_EXHAUSTED; // no values supported means "exhausted" as well
}
} // TMimeDirProfileHandler::generateProperty
// generate MIME-DIR from item into string object
void TMimeDirProfileHandler::generateMimeDir(TMultiFieldItem &aItem, string &aString)
{
// clear string
aString.reserve(3000); // not too small
aString.erase();
// reset item time zone before generating
fHasExplicitTZ = false; // none set explicitly
fItemTimeContext = fReceiverTimeContext; // default to receiver context
fUsedTCtxSet.clear(); // no TZIDs used yet
fEarliestTZDate = noLinearTime; // reset range of generated timestamps related to a TZID or TZ/DAYLIGHT
fLatestTZDate = noLinearTime;
fVTimeZonePendingProfileP = NULL; // no VTIMEZONE pending for generation
fVTimeZoneInsertPos = 0; // no insert position yet
// recursively generate levels
generateLevels(aItem,aString,fProfileDefinitionP);
// now generate VTIMEZONE, if needed
if (fVTimeZonePendingProfileP) {
string s, val, vtz;
vtz.erase();
// generate needed vTimeZones (according to fUsedTCtxSet)
for (TTCtxSet::iterator pos=fUsedTCtxSet.begin(); pos!=fUsedTCtxSet.end(); pos++) {
// - calculate first and last year covered by timestamps in this record
sInt16 startYear=0,endYear=0;
if (fEarliestTZDate && fProfileCfgP->fVTimeZoneGenMode!=vtzgen_current) {
// dependent on actually created dates
lineartime2date(fEarliestTZDate, &startYear, NULL, NULL);
lineartime2date(fLatestTZDate, &endYear, NULL, NULL);
// there is at least one date in the record
switch (fProfileCfgP->fVTimeZoneGenMode) {
case vtzgen_start:
endYear = startYear; // only show for start of range
break;
case vtzgen_end:
startYear = endYear; // only show for end of range
break;
case vtzgen_range:
// pass both start and end year
break;
case vtzgen_openend:
// pass start year but request that all rules from start up to the current date are inlcuded
endYear = 0;
break;
case vtzgen_current:
case numVTimeZoneGenModes:
// case statement to keep gcc happy, will not be reached because of if() above
break;
}
}
// - lead-in
s="BEGIN:";
s.append(fVTimeZonePendingProfileP->levelName);
finalizeProperty(s.c_str(),vtz,fMimeDirMode,false,false);
// - generate raw string
//%%% endYear is not yet implemented in internalToVTIMEZONE(), fTzIdGenMode has only the olson option for now
internalToVTIMEZONE(*pos, val, getSessionZones(), NULL, startYear, endYear, fProfileCfgP->fTzIdGenMode==tzidgen_olson ? "o" : NULL);
size_t i,n = 0;
while (val.size()>n) {
i = val.find('\n',n); // next line end
if (i==string::npos) i=val.size();
if (i-n>1) {
// more than one char = not only a trailing line end
s.assign(val,n,i-n);
// finalize and add property
finalizeProperty(s.c_str(),vtz,fMimeDirMode,false,false);
// advance cursor beyond terminating LF
n=i+1;
}
}
// - lead out
s="END:";
s.append(fVTimeZonePendingProfileP->levelName);
finalizeProperty(s.c_str(),vtz,fMimeDirMode,false,false);
} // for
// now insert the VTIMEZONE into the output string (so possibly making it appear BEFORE the
// properties that use TZIDs)
aString.insert(fVTimeZoneInsertPos, vtz);
// done
fVTimeZonePendingProfileP = NULL;
} // if pending VTIMEZONE
} // TMimeDirProfileHandler::generateMimeDir
// generate nested levels of MIME-DIR content
void TMimeDirProfileHandler::generateLevels(
TMultiFieldItem &aItem,
string &aString,
const TProfileDefinition *aProfileP
)
{
//* %%% */ PDEBUGBLOCKDESC("generateLevels",TCFG_CSTR(aProfileP->levelName));
// check if level must be generated
bool dolevel=false;
string s,val;
sInt16 fid=aProfileP->levelConvdef.fieldid;
if (fid<0) dolevel=true; // if no controlling field there, generate anyway
else {
// check field contents to determine if generation is needed
if (aItem.isAssigned(fid)) {
const TEnumerationDef *enumP = aProfileP->levelConvdef.enumdefs;
aItem.getField(fid)->getAsString(val);
if (enumP) {
// if enumdefs, content must match first enumdef's enumval (NOT enumtext!!)
dolevel = strucmp(val.c_str(),TCFG_CSTR(enumP->enumval))==0;
}
else {
// just being not empty enables level
dolevel = !aItem.getField(fid)->isEmpty();
}
}
}
// check for MIME mode dependency
dolevel = dolevel && mimeModeMatch(aProfileP->modeDependency);
// generate level if enabled
if (dolevel) {
// generate level start
if (aProfileP->profileMode==profm_vtimezones) {
// don't generate now, just remember the string position where we should add the
// VTIMEZONEs when we're done generating the record.
fVTimeZonePendingProfileP = aProfileP;
fVTimeZoneInsertPos = aString.size();
}
else {
// standard custom level
s="BEGIN:";
s.append(aProfileP->levelName);
finalizeProperty(s.c_str(),aString,fMimeDirMode,false,false);
// loop through all properties of that level
const TPropertyDefinition *propP = aProfileP->propertyDefs;
#ifndef NO_REMOTE_RULES
uInt16 propGroup=0; // group identifier (all props with same name have same group ID)
const TPropertyDefinition *otherRulePropP = NULL; // default property which is used if none of the rule-dependent in the group was used
bool ruleSpecificExpanded = false;
#endif
const TPropertyDefinition *expandPropP;
while (propP) {
// check for mode dependency
if (!mimeModeMatch(propP->modeDependency)) {
// no mode match -> just skip this one
propP=propP->next;
continue;
}
//* %%% */ PDEBUGBLOCKDESC("expand_property",TCFG_CSTR(propP->propname));
#ifndef NO_REMOTE_RULES
// check for beginning of new group (no or different property group number)
if (propP->propGroup==0 || propP->propGroup!=propGroup) {
// end of last group - start of new group
propGroup = propP->propGroup; // remember new group number
// expand "other"-rule dependent variant from last group
if (!ruleSpecificExpanded && otherRulePropP) {
expandProperty(
aItem,
aString,
TCFG_CSTR(otherRulePropP->propname), // the prefix consists of the property name
otherRulePropP, // the property definition
fMimeDirMode // MIME-DIR mode
);
}
// for next group, no rule-specific version has been expanded yet
ruleSpecificExpanded = false;
// for next group, we don't have a "other"-rule variant
otherRulePropP=NULL;
}
// check if entry is rule-specific
expandPropP=NULL; // do not expand by default
if (propP->dependsOnRemoterule) {
// check if depends on current rule
if (propP->ruleDependency==NULL) {
// this is the "other"-rule dependent variant
// - just remember
otherRulePropP=propP;
}
else if (isActiveRule(propP->ruleDependency)) {
// specific for the applied rule
expandPropP=propP; // default to expand current prop
// now we have expanded a rule-specific property (blocks expanding of "other"-rule dependent prop)
ruleSpecificExpanded=true;
}
}
else {
// does not depend on rule, expand anyway
expandPropP=propP;
}
// check if this is last prop of list
propP=propP->next;
if (!propP && otherRulePropP && !ruleSpecificExpanded) {
// End of prop list, no rule-specific expand yet, and there is a otherRuleProp
// expand "other"-rule's property instead
expandPropP=otherRulePropP;
}
#else
// simply expand it
expandPropP=propP;
propP=propP->next;
#endif
// now expand if selected
if (expandPropP)
{
// recursively generate all properties that expand from this entry
// (includes extendsfieldid-parameters and repetitions
expandProperty(
aItem,
aString,
TCFG_CSTR(expandPropP->propname), // the prefix consists of the property name
expandPropP, // the property definition
fMimeDirMode // MIME-DIR mode
);
}
//* %%% */ PDEBUGENDBLOCK("expand_property");
} // properties loop
// generate sublevels, if any
const TProfileDefinition *subprofileP = aProfileP->subLevels;
while (subprofileP) {
// generate sublevels (possibly, none is generated)
generateLevels(aItem,aString,subprofileP);
// next
subprofileP=subprofileP->next;
}
// generate level end
s="END:";
s.append(aProfileP->levelName);
finalizeProperty(s.c_str(),aString,fMimeDirMode,false,false);
} // normal level
} // if level must be generated
//* %%% */ PDEBUGENDBLOCK("generateLevels");
} // TMimeDirProfileHandler::generateLevels
// Convert string from MIME-format into field value(s).
// - the string passed to this function is already a translated value
// list if combinesep is set, and every single value is already
// enum-translated if enums are defined.
// - returns false if field(s) could not be assigned because aText has
// a bad syntax.
// - returns true if field(s) assigned something useful or no field is
// available to assign anything to.
bool TMimeDirProfileHandler::MIMEStringToField(
const char *aText, // the value text to assign or add to the field
const TConversionDef *aConvDefP, // the conversion definition record
TMultiFieldItem &aItem, // the item where data goes to
sInt16 aFid, // the field ID (can be NULL for special conversion modes)
sInt16 aArrIndex // the repeat offset to handle array fields
)
{
sInt16 moffs;
uInt16 offs,n;
bool isBitMap;
fieldinteger_t flags = 0;
TTimestampField *tsFldP;
timecontext_t tctx;
TParsedTzidSet::iterator tz;
string s;
// RRULE
lineartime_t dtstart;
timecontext_t startcontext = 0, untilcontext = 0;
char freq;
char freqmod;
sInt16 interval;
fieldinteger_t firstmask;
fieldinteger_t lastmask;
lineartime_t until;
bool dostore;
// get pointer to leaf field
TItemField *fldP = aItem.getArrayField(aFid,aArrIndex);
switch (aConvDefP->convmode) {
case CONVMODE_MAILTO:
// remove the mailto: prefix if there is one
if (strucmp(aText,"mailto:",7)==0)
aText+=7; // remove leading "mailto:"
goto normal;
case CONVMODE_EMPTYONLY:
// same as CONVMODE_NONE, but assigns only first occurrence (that is,
// when field is still empty)
if (!fldP) return true; // no field, assignment "ok" (=nop)
if (!fldP->isEmpty()) return true; // field not empty, discard new assignment
case CONVMODE_TIMESTAMP: // nothing special for parsing
case CONVMODE_AUTODATE: // nothing special for parsing
case CONVMODE_AUTOENDDATE: // check for "last minute of the day"
case CONVMODE_DATE: // dates will be made floating
case CONVMODE_NONE:
normal:
if (!fldP) return true; // no field, assignment "ok" (=nop)
// just set as string or add if combine mode
if (aConvDefP->combineSep) {
// combine mode
if (!fldP->isEmpty()) {
// not empty, append with separator
char cs[2];
cs[0]=aConvDefP->combineSep;
cs[1]=0;
fldP->appendString(cs);
}
fldP->appendString(aText);
}
else {
// for non-strings, skip leading spaces before trying to parse
if (!fldP->isBasedOn(fty_string)) {
while (*aText && *aText==' ') aText++; // skip leading spaces
}
// simple assign mode
if (fldP->isBasedOn(fty_timestamp)) {
// read as ISO8601 timestamp
tsFldP = static_cast<TTimestampField *>(fldP);
// if field already has a non-unknown context (e.g. set via TZID, or TZ/DAYLIGHT),
// use that as context for floating ISO date (i.e. no "Z" or "+/-hh:mm" suffix)
if (!tsFldP->isFloating()) {
// field already has a TZ specified (e.g. by a TZID param), use that instead of item level context
tctx = tsFldP->getTimeContext();
}
else {
// no pre-known zone for this specific field, check if property has a specific zone
if (!TCTX_IS_UNKNOWN(fPropTZIDtctx)) {
// property has a specified time zone context from a TZID, use it
tctx = fPropTZIDtctx; // default to property's TZID (if one was parsed, otherwise this will be left floating)
}
else if (fHasExplicitTZ) {
// item has an explicitly specified time zone context (e.g. set via TZ: property),
// treat all timestamps w/o own time zone ("Z" suffix) in that context
tctx = fItemTimeContext;
}
else {
// item has no explicitly specified time zone context,
// parse and leave floating float for now
tctx = TCTX_UNKNOWN; // default to floating
}
}
// Now tctx is the default zone to bet set for ALL values that are in floating notation
// - check for special handling of misbehaving remotes
if (fTreatRemoteTimeAsLocal || fTreatRemoteTimeAsUTC) {
// ignore time zone specs which might be present possibly
tsFldP->setAsISO8601(aText, tctx, true);
// now force time zone to item/user context or UTC depending on flag settings
tctx = fTreatRemoteTimeAsLocal ? fItemTimeContext : TCTX_UTC;
// set it
tsFldP->setTimeContext(tctx);
}
else {
// read with time zone, if present, and default to tctx set above
tsFldP->setAsISO8601(aText, tctx, false);
// check if still floating now
if (tsFldP->isFloating()) {
// unfloat only if remote cannot handle UTC and therefore ALWAYS uses localtime.
// otherwise, assume that floating status is intentional and must be retained.
// Note: TZID and TZ, if present, are already applied by now
// Note: DURATION and DATE floating will always be retained, as they are always intentional
if ((!fReceiverCanHandleUTC || fProfileCfgP->fUnfloatFloating) && !TCTX_IS_DATEONLY(tsFldP->getTimeContext()) && !tsFldP->isDuration()) {
// not intentionally floating, but just not capable otherwise
// - put it into context of item (which is in this case session's user context)
tsFldP->setTimeContext(fItemTimeContext);
}
}
else {
// non-floating
if (fHasExplicitTZ) {
// item has explicit zone - move timestamp to it (e.g. if timestamps are sent
// in ISO8601 Z notation, but a TZ/DAYLIGHT or TZID is present)
tsFldP->moveToContext(tctx,false);
}
}
}
// special conversions
if (aConvDefP->convmode==CONVMODE_DATE) {
tsFldP->makeFloating(); // date-only is forced floating
}
else if (aConvDefP->convmode==CONVMODE_AUTOENDDATE && fMimeDirMode==mimo_old) {
// check if this could be a 23:59 type end-of-day
lineartime_t ts = tsFldP->getTimestampAs(fItemTimeContext,&tctx); // get in item context or floating
lineartime_t ts0 = lineartime2dateonlyTime(ts);
if (ts0!=ts && AlldayCount(ts0,ts)>0) { // only if not already a 0:00
// this is a 23:59 type end-of-day, convert it to midnight of next day (AND adjust time context, in case it is now different from original)
tsFldP->setTimestampAndContext(lineartime2dateonlyTime(ts)+linearDateToTimeFactor,tctx);
}
}
}
else {
// read as text
fldP->setAsString(aText);
}
}
return true; // found
// Time zones
case CONVMODE_TZ:
// parse time zone
if (ISO8601StrToContext(aText, tctx)!=0) {
// Note: this is always global for the entire item, so set the item context
// (which is then used when parsing dates (which should be delayed to make sure TZ is seen first)
fItemTimeContext = tctx;
if (!TCTX_IS_TZ(tctx)) {
// only offset. Try to symbolize it by passing a DAYLIGHT:FALSE and the offset
if (TzDaylightToContext("FALSE", fItemTimeContext, tctx, getSessionZones(), fReceiverTimeContext))
fItemTimeContext = tctx; // there is a symbolized context, keep that
}
fHasExplicitTZ = true; // zone explicitly set, not only copied from session's user zone
goto timecontext;
}
return true; // not set, is ok
case CONVMODE_DAYLIGHT:
// parse DAYLIGHT zone description property, prefer user zone (among multiple zones matching the Tz/daylight info)
// - resolve to offset (assuming that item context came from a TZ property, so it will
// be one of the non-DST zones, so reftime does not matter)
tctx = fItemTimeContext;
TzResolveContext(tctx, getSystemNowAs(TCTX_UTC, getSessionZones()), true, getSessionZones());
// - now find matching zone for given offset and DAYLIGHT property string
if (TzDaylightToContext(aText,tctx,tctx,getSessionZones(),fReceiverTimeContext)) {
// this is always global for the entire item, so set the item context
// (which is then used when parsing dates (which should be delayed to make sure TZ is seen first)
fItemTimeContext = tctx;
fHasExplicitTZ = true; // zone explicitly set, not only copied from session's user zone
goto timecontext;
}
return true; // not set, is ok
case CONVMODE_TZID:
// try to get context for named zone
// - look up in TZIDs we've parsed so far from VTIMEZONE
tz = fParsedTzidSet.find(aText);
if (tz!=fParsedTzidSet.end()) {
tctx = tz->second; // get tctx resolved from VTIMEZONE
// use tctx for all values from this property
fPropTZIDtctx = tctx;
goto timecontext;
}
else if (TimeZoneNameToContext(aText, tctx, getSessionZones())) {
// found valid TZID property, save it so we can use it for all values of this property that don't specify their own TZ
PDEBUGPRINTFX(DBG_ERROR,("Warning: TZID %s could be resolved against internal name, but appropriate VTIMEZONE is missing",aText));
fPropTZIDtctx=tctx;
goto timecontext;
}
else {
PDEBUGPRINTFX(DBG_ERROR,("Invalid TZID value '%s' found (no related VTIMEZONES found and not referring to an internal time zone name)",aText));
}
return true; // not set, is ok
timecontext:
// if no field, we still have the zone as fItemTimeContext
if (!fldP) return true; // no field, is ok
else if (fldP->isBasedOn(fty_timestamp)) {
// based on timestamp, assign context to that timestamp
tsFldP = static_cast<TTimestampField *>(fldP);
tsFldP->setTimeContext(tctx);
}
else if (fldP->getCalcType()==fty_integer || !TCTX_IS_TZ(tctx)) {
// integer field or non-symbolic time zone:
// assign minute offset as number (calculated for now)
TzResolveToOffset(tctx, moffs, getSession()->getSystemNowAs(TCTX_UTC), true, getSessionZones());
fldP->setAsInteger(moffs);
}
else {
// assign symbolic time zone name
TimeZoneContextToName(tctx, s, getSessionZones());
fldP->setAsString(s);
}
return true;
case CONVMODE_MULTIMIX:
case CONVMODE_BITMAP:
while (*aText && *aText==' ') aText++; // skip leading spaces
if (aConvDefP->convmode==CONVMODE_MULTIMIX) {
// parse value to determine field
if (!mixvalparse(aText, offs, isBitMap, n)) return true; // syntax not ok, nop
fldP = aItem.getArrayField(aFid+offs,aArrIndex);
}
else {
// just bit number
isBitMap=true;
if (StrToUShort(aText,n,2)<1) return true; // no integer convertible value, nop
}
if (!fldP) return true; // no field, assignment "ok" (=nop)
if (isBitMap) {
// store or add to bitmap
// - get current bitmap value if we have a spearator (means that we can have multiple values)
if (aConvDefP->combineSep)
flags=fldP->getAsInteger();
flags = flags | ((fieldinteger_t)1<<n);
// - save updated flags
fldP->setAsInteger(flags);
}
else {
// store as literal
fldP->setAsString(aText+n);
}
return true; // ok
case CONVMODE_VERSION:
// version string
// - return true if correct version string
return strucmp(aText,aItem.getItemType()->getTypeVers(fProfileMode))==0;
case CONVMODE_PRODID:
case CONVMODE_VALUETYPE:
case CONVMODE_FULLVALUETYPE:
return true; // simply ignore, always ok
case CONVMODE_RRULE:
// helpers
TTimestampField *tfP;
TIntegerField *ifP;
TStringField *sfP;
if (aFid<0) return true; // no field block, assignment "ok" (=nop)
// read DTSTART (last=6th field in block) as reference for converting count to end time point
dtstart=0; // start date/time, as reference
if (!(tfP = ITEMFIELD_DYNAMIC_CAST_PTR(TTimestampField,fty_timestamp,aItem.getArrayField(aFid+5,aArrIndex)))) return false;
// TZ and TZID should be applied to dates by now, so dtstart should be in right zone
dtstart = tfP->getTimestampAs(TCTX_UNKNOWN,&startcontext);
if (TCTX_IS_UTC(startcontext)) {
// UTC is probably not the correct zone to resolve weekdays -> convert to item zone
dtstart = tfP->getTimestampAs(fItemTimeContext,&startcontext);
}
// init field block values
freq='0'; // frequency
freqmod=' '; // frequency modifier
interval=0; // unspecified interval
firstmask=0; // day mask counted from the first day of the period
lastmask=0; // day mask counted from the last day of the period
until=0; // last day
// do the conversion here
dostore=false;
if (fMimeDirMode==mimo_old) {
// vCalendar 1.0 type RRULE
dostore=RRULE1toInternal(
aText, // RRULE string to be parsed
dtstart, // reference date for parsing RRULE
startcontext,
freq,
freqmod,
interval,
firstmask,
lastmask,
until,
untilcontext,
GETDBGLOGGER
);
}
else {
// iCalendar 2.0 type RRULE
dostore=RRULE2toInternal(
aText, // RRULE string to be parsed
dtstart, // reference date for parsing RRULE
startcontext,
freq,
freqmod,
interval,
firstmask,
lastmask,
until,
untilcontext,
GETDBGLOGGER
);
}
if (dostore) {
// store values into field block
// - freq/freqmod
if (!(sfP = ITEMFIELD_DYNAMIC_CAST_PTR(TStringField,fty_string,aItem.getArrayField(aFid,aArrIndex)))) return false;
aFid++; // do NOT INCREMENT in macro, as it would get incremented twice
sfP->assignEmpty();
if (freq!='0') {
sfP->appendChar(freq);
sfP->appendChar(freqmod);
}
// - interval
if (!(ifP = ITEMFIELD_DYNAMIC_CAST_PTR(TIntegerField,fty_integer,aItem.getArrayField(aFid,aArrIndex)))) return false;
aFid++; // do NOT INCREMENT in macro, as it would get incremented twice
ifP->setAsInteger(interval);
// - firstmask
if (!(ifP = ITEMFIELD_DYNAMIC_CAST_PTR(TIntegerField,fty_integer,aItem.getArrayField(aFid,aArrIndex)))) return false;
aFid++; // do NOT INCREMENT in macro, as it would get incremented twice
ifP->setAsInteger(firstmask);
// - lastmask
if (!(ifP = ITEMFIELD_DYNAMIC_CAST_PTR(TIntegerField,fty_integer,aItem.getArrayField(aFid,aArrIndex)))) return false;
aFid++; // do NOT INCREMENT in macro, as it would get incremented twice
ifP->setAsInteger(lastmask);
// - until
if (!(tfP = ITEMFIELD_DYNAMIC_CAST_PTR(TTimestampField,fty_timestamp,aItem.getArrayField(aFid,aArrIndex)))) return false;
aFid++; // do NOT INCREMENT in macro, as it would get incremented twice
tfP->setTimestampAndContext(until,untilcontext);
// - dtstart is not stored, but only read above for reference
// done
return true;
}
else {
return false;
}
break; // just in case
default:
// unknown mode, cannot convert
return false;
}
return false;
} // TMimeDirProfileHandler::MIMEStringToField
// helper for parseMimeDir()
// - parse parameter or property value(list), returns false if no value(list)
bool TMimeDirProfileHandler::parseValue(
const string &aText, // string to parse as value (could be binary content)
const TConversionDef *aConvDefP,
sInt16 aBaseOffset, // base offset
sInt16 aRepOffset, // repeat offset, adds to aBaseOffset for non-array fields, is array index for array fileds
TMultiFieldItem &aItem, // the item where data goes to
bool &aNotEmpty, // is set true (but never set false) if property contained any (non-positional) values
char aSeparator, // separator between values
TMimeDirMode aMimeMode, // MIME mode (older or newer vXXX format compatibility)
bool aParamValue, // set if parsing parameter value (different escaping rules)
bool aStructured // set if value consists of multiple values (has semicolon content escaping)
)
{
string val,val2;
char c;
const char *p;
// determine field ID
sInt16 fid=aConvDefP->fieldid;
if (fid>=0) {
// value has field where it can be stored
// - fid is ALWAYS offset by baseoffset
fid += aBaseOffset;
// - adjust fid and repoffset (add them and reset aRepOffset if no array field)
aItem.adjustFidAndIndex(fid,aRepOffset);
// find out if value exists (available in source and target)
if (isFieldAvailable(aItem,fid)) {
// parse only if field available in both source and target
if (aConvDefP->convmode==CONVMODE_BLOB_B64) {
// move 1:1 into field
// - get pointer to leaf field
TItemField *fldP = aItem.getArrayField(fid,aRepOffset);
// - directly set field with entire (possiby binary) string content
if (fldP) fldP->setAsString(aText);
// parsed successfully
return true;
}
// normal text value, apply de-escaping, charset transformation, value list and enum conversion
p = aText.c_str(); // start here
while (*p) {
// value list loop
// - get next value
val.erase();
while ((c=*p)!=0) {
// check for field list separator (if field allows list at all)
if (c==aSeparator && aConvDefP->combineSep) {
p++; // skip separator
break;
}
// check for escaped chars
if (c=='\\') {
p++;
c=*p;
if (!c) break; // half escape sequence, ignore
else if (c=='n' || c=='N') c='\n';
// other escaped chars are shown as themselves
}
// add char
val+=c;
// next
p++;
}
// find first non-space and number of chars excluding leading and trailing spaces
const char* valnospc = val.c_str();
size_t numnospc=val.size();
while (*valnospc && *valnospc==' ') { valnospc++; numnospc--; }
while (*(valnospc+numnospc-1)==' ') { numnospc--; }
// - counts as non-empty if there is a non-empty (and not space-only) value string (even if
// it might be converted to empty-value in enum conversion)
if (*valnospc) aNotEmpty=true;
// - apply enum translation if any
const TEnumerationDef *enumP = aConvDefP->findEnumByName(valnospc,numnospc);
if (enumP) {
// we have an explicit value (can be default if there is a enm_defaultvalue enum)
if (enumP->enummode==enm_ignore)
continue; // do not assign anything, get next value
else {
if (enumP->enummode==enm_prefix) {
// append original value minus prefix to translation
size_t n=TCFG_SIZE(enumP->enumtext);
val2.assign(valnospc+n,numnospc-n); // copying from original val
val=enumP->enumval; // assign the prefix
val+=val2; // and append the original value sans prefix
}
else {
val=enumP->enumval; // just use translated value
}
}
}
// assign (or add) value to field
if (!MIMEStringToField(
val.c_str(), // the value text to assign or add to the field
aConvDefP, // the conversion definition
aItem,
fid, // field ID, can be -1
aRepOffset // 0 or array index
)) {
// field conversion error
PDEBUGPRINTFX(DBG_ERROR,(
"TMimeDirProfileHandler::parseValue: MIMEStringToField assignment (fid=%hd, arrindex=%hd) failed",
fid,
aRepOffset
));
return false;
}
} // while(more chars in value text)
} // if source and target fields available
else {
// show this in log, as most probably it's a remote devInf bug
PDEBUGPRINTFX(DBG_PARSE,("No value stored for field index %hd because remote indicates not supported in devInf",fid));
}
} // if fieldid exists
else {
// could be special conversion using no data or data from
// internal object variables (such as VERSION value)
if (!MIMEStringToField(
aText.c_str(), // the value text to process
aConvDefP, // the conversion definition
aItem,
FID_NOT_SUPPORTED,
0
)) {
// field conversion error
PDEBUGPRINTFX(DBG_ERROR,(
"TMimeDirProfileHandler::parseValue: MIMEStringToField in check mode (no field) failed with val=%s",
aText.c_str()
));
return false;
}
}
// parsed successfully
return true;
} // TMimeDirProfileHandler::parseValue
// parse given property
bool TMimeDirProfileHandler::parseProperty(
cAppCharP &aText, // where to start interpreting property, will be updated past end of what was scanned
TMultiFieldItem &aItem, // item to store data into
const TPropertyDefinition *aPropP, // the property definition
sInt16 *aRepArray, // array[repeatID], holding current repetition COUNT for a certain nameExts entry
sInt16 aRepArraySize, // size of array (for security)
TMimeDirMode aMimeMode, // MIME mode (older or newer vXXX format compatibility)
cAppCharP aGroupName, // property group ("a" in "a.TEL:131723612")
size_t aGroupNameLen
)
{
TNameExtIDMap nameextmap;
const TParameterDefinition *paramP;
const char *p,*ep,*vp;
char c;
string pname;
string val;
bool defaultparam;
bool fieldoffsetfound;
bool notempty = false;
bool valuelist;
sInt16 pidx; // parameter index
TEncodingTypes encoding;
TCharSets charset;
// field storage info vars, defaults are used if property has no TPropNameExtension
sInt16 baseoffset = 0;
sInt16 repoffset = 0;
sInt16 maxrep = 1; // no repeat by default
sInt16 repinc = 1; // inc by 1
sInt16 repid = -1; // invalid by default
bool overwriteempty = false; // do not overwrite empty values by default
bool repoffsByGroup = false;
// init
encoding = enc_none; // no encoding by default
charset = aMimeMode==mimo_standard ? chs_utf8 : fDefaultInCharset; // always UTF8 for real MIME-DIR (same as enclosing SyncML doc), for mimo_old depends on <inputcharset> remote rule option (normally UTF-8)
nameextmap = 0; // no name extensions detected so far
fieldoffsetfound = (aPropP->nameExts==NULL); // no first pass needed at all w/o nameExts, just use offs=0
valuelist = aPropP->valuelist; // cache flag
// scan parameter list
do {
p=aText;
while (*p==';') {
// param follows
defaultparam=false;
pname.erase();
p=nextunfolded(p,aMimeMode);
// parameter expected here
// - find end of parameter name
vp=NULL; // no param name found
for (ep=p; *ep; ep=nextunfolded(ep,aMimeMode)) {
if (*ep=='=') {
// param value follows at vp
vp=nextunfolded(ep,aMimeMode);
break;
}
else if (*ep==':' || *ep==';') {
// end of parameter name w/o equal sign
if (aMimeMode!=mimo_old) {
// only mimo_old allows default params, but as e.g. Nokia Intellisync (Synchrologic) does this completely wrong, we now tolerate it
POBJDEBUGPRINTFX(getSession(),DBG_ERROR,(
"Parameter without value: %s - is wrong in MIME-DIR, but we tolerate it and parse as default param name",
pname.c_str()
));
}
// treat this as a value of the default parameter (correct syntax in old vCard 2.1/vCal 1.0, wrong in MIME-DIR)
defaultparam=true; // default param
// value is equal to param name and starts at p
vp=p;
break;
}
// add char to param name (unfolded!)
pname+=*ep;
}
if (!vp) {
POBJDEBUGPRINTFX(getSession(),DBG_ERROR,("parseProperty: bad parameter %s (missing value)",pname.c_str()));
return false;
}
// parameter name & value isolated, pname=name (if not defaultparam), vp points to value
// - obtain unfolded value
val.erase();
bool dquoted = false;
if (*vp=='"' && aMimeMode==mimo_standard) {
dquoted = true;
vp=nextunfolded(vp,aMimeMode);
}
do {
c=*vp;
if (isEndOfLineOrText(c)) break;
if (dquoted) {
// within double quoted value, only closing dquote can end it
if (c=='"') {
// swallow closing double quote and proceed (next should be end of value anyway)
vp = nextunfolded(vp,aMimeMode);
dquoted = false;
continue;
}
}
else {
// not within double quoted value
if (c==':' || c==';') break; // end of value
// check escaped characters
if (c=='\\') {
// escape char, do not check next char for end-of-value (but DO NOT expand \-escaped chars here!!)
vp=nextunfolded(vp,aMimeMode);
c=*vp; // get next
if (c) {
val+='\\'; // keep the escaped sequence for later when value is actually processed!
}
else {
// half-finished escape at end of value, ignore
break;
}
}
}
val+=c;
// cancel QP softbreaks if encoding is already switched to QP at this point
vp=nextunfolded(vp,aMimeMode,encoding==enc_quoted_printable);
} while(true);
// - processing of next param starts here
p=vp;
// check for global parameters
if ((aMimeMode==mimo_old && defaultparam) || strucmp(pname.c_str(),"ENCODING")==0) {
// get encoding (if valid encoding)
for (sInt16 k=0; k<numMIMEencodings; k++) {
if (strucmp(val.c_str(),MIMEEncodingNames[k])==0) {
encoding=static_cast <TEncodingTypes> (k);
}
}
}
else if (strucmp(pname.c_str(),"CHARSET")==0) {
// charset specified (mimo_old value-only not supported)
sInt16 k;
for (k=1; k<numCharSets; k++) {
if (strucmp(val.c_str(),MIMECharSetNames[k])==0) {
// charset found
charset=TCharSets(k);
break;
}
}
if (k>=numCharSets) {
// unknown charset
POBJDEBUGPRINTFX(getSession(),DBG_ERROR,("========== WARNING: Unknown Charset '%s'",val.c_str()));
// %%% replace 8bit chars with underscore
charset=chs_unknown;
}
}
// find param in list now
paramP = aPropP->parameterDefs;
pidx=0; // parameter index
while (paramP) {
// check for match
if (
mimeModeMatch(paramP->modeDependency) &&
((defaultparam && paramP->defaultparam) || strucmp(pname.c_str(),TCFG_CSTR(paramP->paramname))==0)
) {
// param name found
// - process value (list)
if (!fieldoffsetfound) {
// first pass, check for extendsname parameters
if (paramP->extendsname) {
// - for each value in the value list, check if it has a nameextid
if (!paramP->convdef.enumdefs) {
DEBUGPRINTFX(DBG_PARSE,(
"parseProperty: extendsname param w/o enum : %s;%s",
TCFG_CSTR(aPropP->propname),
TCFG_CSTR(paramP->paramname)
));
return false;
}
// - loop through value list
ep=val.c_str();
while (*ep) {
sInt32 n;
const char *pp;
// find end of next value in list
for (n=0,pp=ep; *pp; pp++) {
if (*pp==',') {
pp++; // skip the comma
break;
}
n++;
}
// search in enums list
const TEnumerationDef *enumP = paramP->convdef.findEnumByName(ep,n);
if (enumP && enumP->nameextid>=0) {
// set name extension map bit
nameextmap |= ((TNameExtIDMap)1<<enumP->nameextid);
}
// next value in list
ep=pp;
}
} // if extendsname
} // first pass
else {
// second pass: read param value(s)
if (!parseValue(
val, // input string, possibly binary (e.g. in case of B64 encoded PHOTO)
&(paramP->convdef),
baseoffset, // base offset (as determined by position)
repoffset, // repetition offset or array index
aItem, // the item where data goes to
notempty, // set true if value(s) parsed are not all empty
defaultparam ? ';' : ',', // value list separator
aMimeMode, // MIME mode (older or newer vXXX format compatibility)
true, // parsing a parameter
false // no structured value
)) {
DEBUGPRINTFX(DBG_PARSE,(
"TMimeDirProfileHandler::parseProperty: %s: value not parsed: %s",
pname.c_str(),
val.c_str()
));
return false;
}
} // second pass
} // if (param known)
// test next param
paramP=paramP->next;
pidx++;
} // while more params
// p points to ';' of next param or ':' of value
} // while more parameters (*p==';')
// check if both passes done or if property storage is explicitly blocked already (baseoffset=-1)
if (fieldoffsetfound) break;
// start second pass
fieldoffsetfound=true;
// - assume empty to start with
notempty=false;
// - prepare for second pass: check if set of param values match
// an entry in the nameexts list
TPropNameExtension *propnameextP = aPropP->nameExts;
if (propnameextP) {
repoffsByGroup = false;
bool dostore = false;
while (propnameextP) {
// check if entry matches parsed extendsname param values
if (
((propnameextP->musthave_ids & nameextmap) == propnameextP->musthave_ids) && // needed there
((propnameextP->forbidden_ids & nameextmap) == 0) // none of the forbidden ones there
) {
// found match, get offset
baseoffset=propnameextP->fieldidoffs;
if (baseoffset==OFFS_NOSTORE) break; // abort with dostore=false
// check if repeat needed/allowed
maxrep=propnameextP->maxRepeat;
if (maxrep==REP_REWRITE) {
dostore=true; // we can store
break; // unlimited repeat allowed but stored in same fields (overwrite), no need for index search by group
}
// find index where to store this repetition
repid=propnameextP->repeatID;
if (repid>=aRepArraySize)
SYSYNC_THROW(TSyncException(DEBUGTEXT("TMimeDirProfileHandler::parseProperty: repID too high","mdit11")));
// check if a group ID determines the repoffset (not possible for valuelists)
if (aPropP->groupFieldID!=FID_NOT_SUPPORTED && !valuelist) {
// search in group field
string s;
bool someGroups = false;
for (sInt16 n=0; n<maxrep || maxrep==REP_ARRAY; n++) {
sInt16 g_repoffset = n*propnameextP->repeatInc; // original repeatoffset (not adjusted yet)
TItemField *g_fldP = aItem.getArrayFieldAdjusted(aPropP->groupFieldID+baseoffset,g_repoffset,true); // get leaf field, if it exists
if (!g_fldP) break; // group field for that repetition does not (yet) exist, array exhausted
// compare group name
if (g_fldP->isAssigned()) {
someGroups = someGroups || !g_fldP->isEmpty(); // when we find a non-empty group field, we have at least one group detected
if (someGroups) {
// don't use repetitions already used by SOME of the fields in the group
// for auto-assigning new groups (or ungrouped occurrences)
if (aRepArray[repid]<n+1)
aRepArray[repid] = n+1;
}
// check if group matches (only if there is a group at all)
g_fldP->getAsString(s);
if (aGroupName && strucmp(aGroupName,s.c_str(),aGroupNameLen)==0) {
repoffsByGroup = true;
dostore = true;
repoffset = g_repoffset;
PDEBUGPRINTFX(DBG_PARSE+DBG_EXOTIC,("parseProperty: found group '%s' at repoffset=%d (repcount=%d)",s.c_str(),repoffset,n));
break;
}
}
} // for all possible repetitions
// minrep now contains minimal repetition count for !repoffsByGroup case
} // if grouped property
if (!repoffsByGroup) {
if (aRepArray[repid]<maxrep || maxrep==REP_ARRAY) {
// not exhausted, we can use this entry
// - calculate repeat offset to be used
repinc=propnameextP->repeatInc;
// note: repArray will be updated below (if property not empty or !overwriteempty)
dostore=true; // we can store
do {
repoffset = aRepArray[repid]*repinc;
// - set flag if repeat offset should be incremented after storing an empty property or not
overwriteempty = propnameextP->overwriteEmpty;
// - check if target property main value is empty (must be, or we will skip that repetition)
dostore = false; // if no field exists, we do not store
for (sInt16 e=0; e<aPropP->numValues; e++) {
if (aPropP->convdefs[e].fieldid==FID_NOT_SUPPORTED)
continue; // no field, no need to check it
sInt16 e_fid = aPropP->convdefs[e].fieldid+baseoffset;
sInt16 e_rep = repoffset;
aItem.adjustFidAndIndex(e_fid,e_rep);
// - get base field
TItemField *e_basefldP = aItem.getField(e_fid);
TItemField *e_fldP = NULL;
if (e_basefldP)
e_fldP=e_basefldP->getArrayField(e_rep,true); // get leaf field, if it exists
if (!e_basefldP || (e_fldP && e_fldP->isAssigned())) {
// base field of one of the main fields does not exist or leaf field is already assigned
// -> skip that repetition
dostore = false;
break;
}
else
dostore = true; // at least one field exists, we might store
}
// check if we can test more repetitions
if (!dostore) {
if (aRepArray[repid]+1<maxrep || maxrep==REP_ARRAY) {
// we can increment and try next repetition
aRepArray[repid]++;
}
else
break; // no more possible repetitions with this position rule (check next rule)
}
} while (!dostore);
if (dostore) break; // we can store now
} // if repeat not yet exhausted
} // if repoffset no already found
} // if position rule matches
// next
propnameextP=propnameextP->next;
} // while search for matching nameExts entry
// abort if we can't store
if (!dostore) {
aText=p; // this is what we've read so far
return false;
}
} // if name extension list not empty
// Now baseoffset/repoffset are valid to be used for storage
} while(true); // until parameter pass 1 & pass 2 done
// parameters are all processed by now, decision made to store data (if !dostore, routine exits above)
// - store the group tag value if we have one
if (aPropP->groupFieldID!=FID_NOT_SUPPORTED) {
TItemField *g_fldP = aItem.getArrayFieldAdjusted(aPropP->groupFieldID+baseoffset,repoffset,false);
if (g_fldP)
g_fldP->setAsString(aGroupName,aGroupNameLen); // store the group name (aGroupName might be NULL, that's ok)
}
// - read value(s)
char sep=':'; // first value starts with colon
// repeat until we have all values
for (sInt16 i=0; i<aPropP->numValues || valuelist; i++) {
if (*p!=sep && (aPropP->altvaluesep==0 || *p!=aPropP->altvaluesep)) {
#ifdef SYDEBUG
// Note: for valuelists, this is the normal loop exit case as we are not limited by numValues
if (!valuelist) {
// New behaviour: omitting values is ok (needed e.g. for T39m)
DEBUGPRINTFX(DBG_PARSE,("TMimeDirProfileHandler::parseProperty: %s does not specify all values",TCFG_CSTR(aPropP->propname)));
}
#endif
break; // all available values read
}
// skip separator
p++;
// get value(list) unfolded
decodeValue(encoding,charset,aMimeMode,aPropP->numValues > 1 || valuelist ? aPropP->valuesep : 0,aPropP->altvaluesep,p,val);
// check if we can store, otherwise just read over value
// - get the conversion def for the value
TConversionDef *convDef = &(aPropP->convdefs[valuelist ? 0 : i]); // always use convdef[0] for value lists
// - store value if not a value list (but simple value or part of structured value), or store if
// valuelist and repeat not yet exhausted, or if valuelist without repetition but combination separator
// which allows to put multiple values into a single field
if (!valuelist || repoffset<maxrep*repinc || maxrep==REP_ARRAY || (valuelist && convDef->combineSep)) {
// convert and store value (or comma separated value-list, not to mix with valuelist-property!!)
if (!parseValue(
val,
convDef,
baseoffset, // identifies base field
repoffset, // repeat offset to base field / array index
aItem, // the item where data goes to
notempty, // set true if value(s) parsed are not all empty
',',
aMimeMode, // MIME mode (older or newer vXXX format compatibility)
false, // no parameter
aPropP->numValues > 1 // structured if multiple values
)) {
PDEBUGPRINTFX(DBG_PARSE+DBG_EXOTIC,(
"TMimeDirProfileHandler::parseProperty: %s: value not parsed: %s",
TCFG_CSTR(aPropP->propname),
val.c_str()
));
return false;
}
// update repeat offset and repeat count if this is a value list
if (valuelist && convDef->combineSep==0 && (notempty || !overwriteempty)) {
// - update count for every non-empty value (for empty values only if overwriteempty is not set)
if (repid>=0)
aRepArray[repid]++; // next repetition
repoffset+=repinc; // also update repeat offset
}
}
else {
// value cannot be stored
PDEBUGPRINTFX(DBG_PARSE+DBG_EXOTIC,(
"TMimeDirProfileHandler::parseProperty: %s: value not stored because repeat exhausted: %s",
TCFG_CSTR(aPropP->propname),
val.c_str()
));
}
// more values must be separated by the value sep char (default=';' but can be ',' e.g. for iCalendar 2.0 CATEGORIES)
sep = aPropP->valuesep;
} // for all values
if (notempty && !valuelist) {
// at least one of the components is not empty. Make sure all components are "touched" such that
// in case of arrays, these are assigned even if empty
for (sInt16 j=0; j<aPropP->numValues; j++) {
sInt16 fid=aPropP->convdefs[j].fieldid;
if (fid>=0) {
// requesting the pointer creates the field if it does not already exist
aItem.getArrayFieldAdjusted(fid+baseoffset,repoffset,false);
}
}
}
if (!valuelist && repid>=0 && (notempty || !overwriteempty) && !repoffsByGroup) {
// we have used this repetition and actually stored values, so count it now
// (unless we have stored an empty value only and overwriteempty is true, in
// this case we don't increment, so next value found for this repetition will
// overwrite empty value
// Also, if repeat offset was found by group name, don't increment (aRepArray
// is already updated in this case)
aRepArray[repid]++;
}
// update read pointer past end of what we've scanned (but not necessarily up
// to next property beginning)
aText=p;
// done, ok
return true;
} // TMimeDirProfileHandler::parseProperty
// parse MIME-DIR from specified string into item
bool TMimeDirProfileHandler::parseMimeDir(const char *aText, TMultiFieldItem &aItem)
{
// start with empty item
aItem.cleardata();
// reset item time zone before parsing
fHasExplicitTZ = false; // none set explicitly
fItemTimeContext = fReceiverTimeContext; // default to user context
fDelayedProps.clear(); // start w/o delayed props
fParsedTzidSet.clear(); // start w/o time zones
// start parsing on root level
if (parseLevels(aText,aItem,fProfileDefinitionP,true)) {
// make sure all supported (=available) fields are at least empty (but not missing!)
aItem.assignAvailables();
return true;
}
else
return false;
} // TMimeDirProfileHandler::parseMimeDir
// parameter string for QP encoding. Needed when skipping otherwise unknown properties
#define QP_ENCODING_PARAM "ENCODING=QUOTED-PRINTABLE"
// parse MIME-DIR level from specified string into item
bool TMimeDirProfileHandler::parseLevels(
const char *&aText,
TMultiFieldItem &aItem,
const TProfileDefinition *aProfileP,
bool aRootLevel
)
{
appChar c;
cAppCharP p, propname, groupname;
sInt32 n, gn;
sInt16 foundmandatory=0;
const sInt16 maxreps = 50;
sInt16 repArray[maxreps];
bool atStart = aRootLevel;
// reset repetition counts
for (sInt16 k=0; k<maxreps; k++) repArray[k]=0;
// level is known
sInt16 disabledLevels=0;
// set level marker field, if any is defined
sInt16 fid=aProfileP->levelConvdef.fieldid;
if (fid>=0) {
// field defined for level entry
// - make sure field exists and is assigned empty value at least
aItem.getFieldRef(fid).assignEmpty();
const TEnumerationDef *enumP = aProfileP->levelConvdef.enumdefs;
if (enumP) {
// if enumdefs, content is set to first enumdef's enumval (NOT enumtext!!)
aItem.getField(fid)->setAsString(TCFG_CSTR(enumP->enumval));
}
}
// skip possible leading extra LF and CR and whitespace here
// NOTE: Magically server sends XML CDATA with 0x0D 0x0D 0x0A for example
while (isspace(*aText)) aText++;
// parse input text property by property
do {
// start of property parsing
// - reset TZID flag
fPropTZIDtctx = TCTX_UNKNOWN;
// - prepare scanning
p=aText;
propname = p; // assume name starts at beginning of text
n = 0;
groupname = NULL; // assume no group
gn = 0;
// determine property name end (and maybe group name)
do {
c=*p;
if (!c) {
// end of text reached w/o property name
POBJDEBUGPRINTFX(getSession(),DBG_ERROR,("parseMimeDir: no property name found, text=%s",aText));
return false;
}
if (c==':' || c==';') break;
// handle grouping
if (c=='.') {
// this is a group name (or element of it)
// - remember the group name
if (!groupname) groupname = propname;
gn = p-groupname; // size of groupname
// - prop name starts after group name (and dot)
propname = ++p; // skip group
n = 0;
continue;
}
// next char
p++; n++;
} while(true);
// propname points to start, p points to end of property name, n=name size
// - search through all properties
bool propparsed=false;
// - check for BEGIN and END
if (strucmp(propname,"BEGIN",n)==0) {
// BEGIN encountered
p = propname+n;
// - skip possible parameters for broken implementations like Intellisync/Synchrologic
if (*p==';') while (*p && *p!=':') p++;
// - isolate value
size_t l=0; const char *lnam=p+1;
while (*(lnam+l)>=0x20) l++; // calculate length of value
p=lnam+l; // advance scanning pointer to terminator
n=0; // prevent false advancing at end of prop loop
if (atStart) {
// value must be level name, else this is a bad profile
if (strucmp(lnam,TCFG_CSTR(aProfileP->levelName),l)!=0) {
POBJDEBUGPRINTFX(getSession(),DBG_ERROR,("parseMimeDir: root level BEGIN has bad value: %s",aText));
return false;
}
atStart=false; // no special lead-in check any more
propparsed=true;
}
else {
// value determines new level to enter
if (disabledLevels==0) {
// search for sublevel
const TProfileDefinition *subprofileP = aProfileP->subLevels;
while (subprofileP) {
// check
if (
mimeModeMatch(subprofileP->modeDependency) &&
strucmp(lnam,TCFG_CSTR(subprofileP->levelName),l)==0
) {
// sublevel found, process
while ((uInt8)(*p)<0x20) p++; // advance scanning pointer to beginning of next property
// check special case first
if (subprofileP->profileMode==profm_vtimezones) {
// vTimeZone is handled specially
string s2;
string s = "END:";
s.append(subprofileP->levelName);
n = s.size(); // size of lead-out
cAppCharP e = strstr(p,s.c_str());
if (e==NULL) return false; // unterminated vTimeZone sublevel
s.assign(p,e-p); // everything between lead-in and lead-out
p = e+n; // advance pointer beyond VTIMEZONES
appendStringAsUTF8(s.c_str(), s2, chs_utf8, lem_cstr, false);
timecontext_t tctx;
// identify or add this in the session zones
string tzid;
if (VTIMEZONEtoInternal(s2.c_str(), tctx, getSessionZones(), NULL, &tzid)) {
// time zone identified
#ifdef SYDEBUG
string tzname;
TimeZoneContextToName(tctx, tzname, getSessionZones());
PDEBUGPRINTFX(DBG_PARSE+DBG_EXOTIC,("parseMimeDir: VTIMEZONE with ID='%s' parsed to internal time zone '%s'",tzid.c_str(),tzname.c_str()));
#endif
// remember it by original name for TZID parsing
fParsedTzidSet[tzid] = tctx;
}
else {
POBJDEBUGPRINTFX(getSession(),DBG_ERROR,("parseMimeDir: could not parse VTIMEZONE: %s",s.c_str()));
}
}
else {
// ordinary non-root level
if (!parseLevels(p,aItem,subprofileP,false)) return false;
}
// - now continue on this level
propparsed=true;
break;
}
// next
subprofileP=subprofileP->next;
}
if (!propparsed) {
// no matching sublevel found, disable this level
disabledLevels=1;
}
}
else {
// already disabled, just nest
disabledLevels++;
}
} // BEGIN not on rootlevel
} // BEGIN found
else if (strucmp(propname,"END",n)==0) {
// END encountered
p = propname+n;
// - skip possible parameters for broken implementations like Intellisync/Synchrologic
if (*p==';') while (*p && *p!=':') p++;
// - isolate value
size_t l=0; const char *lnam=p+1;
while (*(lnam+l)>=0x20) l++; // calculate length of value
p=lnam+l; // advance scanning pointer to terminator
n=0; // prevent false advancing at end of prop loop
// check
if (disabledLevels>0) {
// end of a disabled level, just un-nest
disabledLevels--;
}
else {
// should be end of active level, check name
if (strucmp(lnam,TCFG_CSTR(aProfileP->levelName),l)!=0) {
POBJDEBUGPRINTFX(getSession(),DBG_ERROR,("parseMimeDir: unexpected END value: %s",aText));
return false;
}
// correct end of level
aText=p; // points to terminator, which is correct for end-of-level
// break scanner loop
break;
}
} // END found
else if (disabledLevels==0) {
if (atStart) {
POBJDEBUGPRINTFX(getSession(),DBG_ERROR,("parseMimeDir: root level does not start with BEGIN: %s",aText));
return false;
}
// not disabled level
const TPropertyDefinition *propP = aProfileP->propertyDefs;
#ifndef NO_REMOTE_RULES
const TPropertyDefinition *otherRulePropP = NULL; // default property which is used if none of the rule-dependent in the group was used
bool ruleSpecificParsed = false;
uInt16 propGroup=0; // group identifier (all props with same name have same group ID)
#endif
const TPropertyDefinition *parsePropP;
while(propP) {
// compare
if (
mimeModeMatch(propP->modeDependency) && // none or matching mode dependency
strucmp(propname,TCFG_CSTR(propP->propname),n)==0
) {
// found property def with matching name (and MIME mode)
// check all in group (=all subsequent with same name)
#ifndef NO_REMOTE_RULES
propGroup=propP->propGroup;
ruleSpecificParsed=false;
otherRulePropP=NULL;
while (propP && propP->propGroup==propGroup && propP->propGroup!=0)
#else
do
#endif
{
// still in same group (= same name)
#ifndef NO_REMOTE_RULES
// check if this property should be used for parsing
parsePropP=NULL; // do not parse by default
if (propP->dependsOnRemoterule) {
// check if depends on current rule
if (propP->ruleDependency==NULL) {
// this is the "other"-rule dependent variant
// - just remember for now
otherRulePropP=propP;
}
else if (isActiveRule(propP->ruleDependency)) {
// specific for the applied rule
parsePropP=propP; // default to expand current prop
// now we have expanded a rule-specific property (blocks parsing of "other"-rule dependent prop)
ruleSpecificParsed=true;
}
}
else {
// does not depend on rule, parse anyway
parsePropP=propP;
}
// check if this is last prop of list
propP=propP->next;
if (!(propP && propP->propGroup==propGroup) && otherRulePropP && !ruleSpecificParsed) {
// End of alternatives for parsing this property, no rule-specific parsed yet, and there is a otherRuleProp
// parse "other"-rule's property instead
parsePropP=otherRulePropP;
}
#else
// simply parse it
parsePropP=propP;
propP=propP->next;
#endif
// now parse (or save for delayed parsing later)
if (parsePropP) {
if (parsePropP->delayedProcessing) {
// buffer parameters needed to parse later
PDEBUGPRINTFX(DBG_PARSE+DBG_EXOTIC,("parseMimeDir: property %s parsing delayed, rank=%hd",TCFG_CSTR(parsePropP->propname),parsePropP->delayedProcessing));
TDelayedPropParseParams dppp;
dppp.delaylevel = parsePropP->delayedProcessing;
dppp.start = p;
dppp.groupname = groupname;
dppp.groupnameLen = gn;
dppp.propDefP = parsePropP;
TDelayedParsingPropsList::iterator pos;
for (pos=fDelayedProps.begin(); pos!=fDelayedProps.end(); pos++) {
// insert at end or before first occurrence of higer delay
if ((*pos).delaylevel>dppp.delaylevel) {
fDelayedProps.insert(pos,dppp);
break;
}
}
if (pos==fDelayedProps.end())
fDelayedProps.push_back(dppp);
// update mandatory count (even if we haven't parsed it yet)
if (parsePropP->mandatory) foundmandatory++;
// skip for now
p=propname+n;
propparsed=true; // but is "parsed" for loop
break; // parse next
}
if (parseProperty(
p, // where to start interpreting property, will be updated past end of poperty
aItem, // item to store data into
parsePropP, // the (matching) property definition
repArray,
maxreps,
fMimeDirMode, // MIME-DIR mode
groupname,
gn
)) {
// property parsed successfully
propparsed=true;
// count mandarory properties found
if (parsePropP->mandatory) foundmandatory++;
break; // parse next
}
// if not successfully parsed, continue with next property which
// can have the same name, but possibly different parameter definitions
} // if parseProp
} // while same property group (poperties with same name)
#ifdef NO_REMOTE_RULES
while(false); // if no remote rules, we do not loop
#endif
if (propparsed) break; // do not continue outer loop if inner loop has parsed a prop successfully
} // if name matches (=start of group found)
else {
// not start of group
// - next property
propP=propP->next;
}
} // while all properties
} // else: neither BEGIN nor END
if (!propparsed) {
// unknown property
PDEBUGPRINTFX(DBG_PARSE,("parseMimeDir: property not parsed (unknown or not storable): %" FMT_LENGTH(".30") "s",FMT_LENGTH_LIMITED(30,aText)));
// skip parsed part (the name)
p=propname+n;
}
// p is now end of parsed part
// - skip rest up to EOLN (=any ctrl char)
// Note: we need to check if this is quoted-printable, otherwise we might NOT cancel soft breaks
bool isqp = false;
while ((c=*p)!=0) {
if (isEndOfLineOrText(c)) break; // end of line or string
if (c==';' && *(p+1)) {
if (strucmp(p+1, QP_ENCODING_PARAM, strlen(QP_ENCODING_PARAM))==0) {
c = *(p+1+strlen(QP_ENCODING_PARAM));
isqp = c==':' || c==';'; // the property is QP encoded, we need to cancel QP softbreaks while looking for end of property
}
}
p=nextunfolded(p,fMimeDirMode,isqp); // cancel soft breaks if we are in QP encoded property
}
// - skip entire EOLN (=all control chars in sequence %%%)
while (*p && (uInt8)(*p)<'\x20') p=nextunfolded(p,fMimeDirMode);
// set next property start point
aText=p;
} while (*aText); // exit if end of string
// now parse delayed ones (list is in delay order already)
if (aRootLevel) {
// process delayed properties only after entire record is parsed (i.e. when we are at root level here)
TDelayedParsingPropsList::iterator pos;
for (pos=fDelayedProps.begin(); pos!=fDelayedProps.end(); pos++) {
p = (*pos).start; // where to start parsing
PDEBUGPRINTFX(DBG_PARSE+DBG_EXOTIC,(
"parseMimeDir: now parsing delayed property rank=%hd: %" FMT_LENGTH(".30") "s",
(*pos).delaylevel,
FMT_LENGTH_LIMITED(30,(*pos).start)
));
if (parseProperty(
p, // where to start interpreting property, will be updated past end of property
aItem, // item to store data into
(*pos).propDefP, // the (matching) property definition
repArray,
maxreps,
fMimeDirMode, // MIME-DIR mode
(*pos).groupname,
(*pos).groupnameLen
)) {
// count mandarory properties found
//%%% moved this to when we queue the delayed props, as mandatory count is per-profile
//if ((*pos).propDefP->mandatory) foundmandatory++;
}
else {
// delayed parsing failed
PDEBUGPRINTFX(DBG_PARSE,("parseMimeDir: failed delayed parsing of property %" FMT_LENGTH(".30") "s",FMT_LENGTH_LIMITED(30,(*pos).start)));
}
}
// we don't need them any more - clear delayed props
fDelayedProps.clear();
}
// verify integrity
if (foundmandatory<aProfileP->numMandatoryProperties) {
// not all mandatory properties found
POBJDEBUGPRINTFX(getSession(),DBG_ERROR,(
"parseMimeDir: missing %hd of %hd mandatory properies",
aProfileP->numMandatoryProperties-foundmandatory,
aProfileP->numMandatoryProperties
));
// unsuccessful parsing
return false;
}
// successful parsing done
return true;
// %%%%% NOTE: exactly those fields in aItem should be assigned
// which are available in source and target.
// possibly this should be done in prepareForSendTo (o.‰) of
// MultiFieldItem...
} // TMimeDirProfileHandler::parseLevels
void TMimeDirProfileHandler::getOptionsFromDatastore(void)
{
// get options datastore if one is related
if (fRelatedDatastoreP) {
fReceiverCanHandleUTC = fRelatedDatastoreP->getSession()->fRemoteCanHandleUTC;
fVCal10EnddatesSameDay = fRelatedDatastoreP->getSession()->fVCal10EnddatesSameDay;
fReceiverTimeContext = fRelatedDatastoreP->getSession()->fUserTimeContext; // default to user context
fDontSendEmptyProperties = fRelatedDatastoreP->getSession()->fDontSendEmptyProperties;
fDefaultOutCharset = fRelatedDatastoreP->getSession()->fDefaultOutCharset;
fDefaultInCharset = fRelatedDatastoreP->getSession()->fDefaultInCharset;
fDoQuote8BitContent = fRelatedDatastoreP->getSession()->fDoQuote8BitContent;
fDoNotFoldContent = fRelatedDatastoreP->getSession()->fDoNotFoldContent;
fTreatRemoteTimeAsLocal = fRelatedDatastoreP->getSession()->fTreatRemoteTimeAsLocal;
fTreatRemoteTimeAsUTC = fRelatedDatastoreP->getSession()->fTreatRemoteTimeAsUTC;
#ifndef NO_REMOTE_RULES
fActiveRemoteRules = fRelatedDatastoreP->getSession()->fActiveRemoteRules; // copy the list
#endif
}
}
// generate Data item (includes header and footer)
void TMimeDirProfileHandler::generateText(TMultiFieldItem &aItem, string &aString)
{
// get options datastore if one is related
getOptionsFromDatastore();
#ifdef SYDEBUG
PDEBUGPRINTFX(DBG_GEN+DBG_HOT,("Generating...."));
aItem.debugShowItem(DBG_DATA+DBG_GEN);
#endif
// baseclass just generates MIME-DIR
fBeginEndNesting=0; // no BEGIN out yet
generateMimeDir(aItem,aString);
#ifdef SYDEBUG
if (PDEBUGTEST(DBG_GEN+DBG_USERDATA)) {
// note, do not use debugprintf because string is too long
PDEBUGPRINTFX(DBG_GEN,("Generated: "));
PDEBUGPUTSXX(DBG_GEN+DBG_USERDATA,aString.c_str(),0,true);
}
#endif
} // TMimeDirProfileHandler::generateText
// parse Data item (includes header and footer)
bool TMimeDirProfileHandler::parseText(const char *aText, stringSize aTextSize, TMultiFieldItem &aItem)
{
//#warning "aTextSize must be checked!"
// get options datastore if one is related
getOptionsFromDatastore();
// baseclass just parses MIME-DIR
fBeginEndNesting = 0; // no BEGIN found yet
#ifdef SYDEBUG
if (PDEBUGTEST(DBG_PARSE)) {
// very detailed, show item being parsed
PDEBUGPRINTFX(DBG_PARSE+DBG_HOT,("Parsing: "));
PDEBUGPUTSXX(DBG_PARSE+DBG_USERDATA,aText,0,true);
}
#endif
if (parseMimeDir(aText,aItem)) {
if (fBeginEndNesting) {
PDEBUGPRINTFX(DBG_ERROR,("TMimeDirProfileHandler parsing ended with NestCount<>0: %hd",fBeginEndNesting));
return false; // unmatched BEGIN/END
}
#ifdef SYDEBUG
PDEBUGPRINTFX(DBG_PARSE,("Successfully parsed: "));
aItem.debugShowItem(DBG_DATA+DBG_PARSE);
#endif
return true;
}
else {
PDEBUGPRINTFX(DBG_ERROR,("Failed parsing item"));
return false;
}
} // TMimeDirProfileHandler::parseText
bool TMimeDirProfileHandler::parseForProperty(SmlItemPtr_t aItemP, const char *aPropName, string &aString)
{
if (aItemP && aItemP->data)
return parseForProperty(smlPCDataToCharP(aItemP->data),aPropName,aString);
else
return false;
} // TMimeDirProfileHandler::parseForProperty
// scan Data item for specific property (used for quick type tests)
bool TMimeDirProfileHandler::parseForProperty(const char *aText, const char *aPropName, string &aString)
{
uInt16 n=strlen(aPropName);
while (*aText) {
const char *p=aText;
// find property end
do {
p=nextunfolded(p,fMimeDirMode,true);
} while ((*p)>=0x20);
// p now points to property end
if (strucmp(aText,aPropName,n)==0 && aText[n]==':') {
aText+=n+1; // start of value
aString.assign(aText,p-aText); // save value
return true;
}
// find next property beginning
do {
p=nextunfolded(p,fMimeDirMode,true);
} while (*p && ((*p)<0x20));
// set to beginning of next
aText=p;
}
// not found
return false;
} // TMimeDirProfileHandler::parseForProperty
// helper for newCTDataPropList
void TMimeDirProfileHandler::enumerateLevels(const TProfileDefinition *aProfileP, SmlPcdataListPtr_t *&aPcdataListPP, const TProfileDefinition *aSelectedProfileP, TMimeDirItemType *aItemTypeP)
{
// only if mode matches
if (!mimeModeMatch(aProfileP->modeDependency)) return;
// add name of this profile if...
// ...generally enabled for CTCap (shownIfSelectedOnly=false), independent of what other profiles might be selected (e.g. VALARM)
// ...this is the explicitly selected profile (like VTODO while creating DS 1.2 devinf for the tasks datastor)
// ...no profile is specifically selected, which means we want to see ALL profiles (like a DS 1.1 vCalendar type outside <datastore>)
// This means, the only case a name is NOT added are those with those having showlevel="no" when ANOTHER profile is explicitly selected.
if (!aProfileP->shownIfSelectedOnly || aProfileP==aSelectedProfileP || aSelectedProfileP==NULL) {
aPcdataListPP = addPCDataStringToList(TCFG_CSTR(aProfileP->levelName),aPcdataListPP);
// check for special subprofiles
if (aProfileP->profileMode==profm_vtimezones) {
// has STANDARD and DAYLIGHT subprofiles
aPcdataListPP = addPCDataStringToList("STANDARD",aPcdataListPP);
aPcdataListPP = addPCDataStringToList("DAYLIGHT",aPcdataListPP);
}
// add names of subprofiles, if any
const TProfileDefinition *subprofileP = aProfileP->subLevels;
while (subprofileP) {
// If this profile is the selected profile, ALL subprofiles must be shown in all cases (so we pass NULL)
enumerateLevels(subprofileP,aPcdataListPP,aProfileP==aSelectedProfileP ? NULL : aSelectedProfileP, aItemTypeP);
// next
subprofileP=subprofileP->next;
}
}
} // TMimeDirProfileHandler::enumerateLevels
// add a CTDataProp item to a CTDataPropList
static void addCTDataPropToListIfNotExists(
SmlDevInfCTDataPropPtr_t aCTDataPropP, // existing CTDataProp item data structure, ownership is passed to list
SmlDevInfCTDataPropListPtr_t *aCTDataPropListPP // adress of list root pointer (which points to existing item list or NULL)
)
{
// add it to the list (but only if we don't already have it)
while (*aCTDataPropListPP) {
// check name
if (strcmp(smlPCDataToCharP(aCTDataPropP->prop->name),smlPCDataToCharP((*aCTDataPropListPP)->data->prop->name))==0) {
//%%% we can add merging parameters here as well
// same property already exists, forget this one
smlFreeDevInfCTDataProp(aCTDataPropP);
aCTDataPropP = NULL;
break;
}
aCTDataPropListPP = &((*aCTDataPropListPP)->next);
}
// if not detected duplicate, add it now
if (aCTDataPropP) {
addCTDataPropToList(aCTDataPropP,aCTDataPropListPP);
}
} // addCTDataPropToListIfNotExists
// add a CTData describing a property (as returned by newDevInfCTData())
// as a new property without parameters to a CTDataPropList
static void addNewPropToListIfNotExists(
SmlDevInfCTDataPtr_t aPropCTData, // CTData describing property
SmlDevInfCTDataPropListPtr_t *aCTDataPropListPP // adress of list root pointer (which points to existing item list or NULL)
)
{
SmlDevInfCTDataPropPtr_t propdataP = SML_NEW(SmlDevInfCTDataProp_t);
propdataP->param = NULL; // no params
propdataP->prop = aPropCTData;
addCTDataPropToListIfNotExists(propdataP, aCTDataPropListPP);
} // addNewPropToListIfNotExists
// helper for newCTDataPropList
void TMimeDirProfileHandler::enumerateProperties(const TProfileDefinition *aProfileP, SmlDevInfCTDataPropListPtr_t *&aPropListPP, const TProfileDefinition *aSelectedProfileP, TMimeDirItemType *aItemTypeP)
{
// remember start of properties
// add all properties of this level (if enabled)
// Note: if this is the explicitly selected (sub)profile, it will be shown under any circumstances
if ((!aProfileP->shownIfSelectedOnly || aProfileP==aSelectedProfileP || aSelectedProfileP==NULL) && mimeModeMatch(aProfileP->modeDependency)) {
if (aProfileP->profileMode==profm_vtimezones) {
// Add properties of VTIMEZONE here
addNewPropToListIfNotExists(newDevInfCTData("TZID"),aPropListPP);
addNewPropToListIfNotExists(newDevInfCTData("DTSTART"),aPropListPP);
addNewPropToListIfNotExists(newDevInfCTData("RRULE"),aPropListPP);
addNewPropToListIfNotExists(newDevInfCTData("TZOFFSETFROM"),aPropListPP);
addNewPropToListIfNotExists(newDevInfCTData("TZOFFSETTO"),aPropListPP);
addNewPropToListIfNotExists(newDevInfCTData("TZNAME"),aPropListPP);
}
else {
// normal profile defined in config, add properties as defined in profile, avoid duplicates
const TPropertyDefinition *propP = aProfileP->propertyDefs;
while (propP) {
if (propP->showInCTCap && mimeModeMatch(propP->modeDependency)) {
// - new list entry in CTCap (if property to be shown)
SmlDevInfCTDataPropPtr_t propdataP = SML_NEW(SmlDevInfCTDataProp_t);
propdataP->param = NULL; // default to no params
// - add params, if needed
SmlDevInfCTDataListPtr_t *nextParamPP = &(propdataP->param);
const TParameterDefinition *paramP = propP->parameterDefs;
while(paramP) {
// check if parameter is enabled for being shown in CTCap
if (paramP->showInCTCap && mimeModeMatch(paramP->modeDependency)) {
// For some older 1.1 devices (in particular Nokia 7610), enum values of default params
// in pre-MIME-DIR must be shown as param NAMES (not enums).
// But newer 1.2 Nokias like E90 need proper TYPE param with valEnums (when run in 1.2 mode. E90 is fine with 7610 style for 1.1)
// So: normally (fEnumDefaultPropParams==undefined==-1), we show 7610 style for 1.1 and E90 style for 1.2.
// <enumdefaultpropparams> and ENUMDEFAULTPROPPARAMS() can be used to control this behaviour when needed
if (
paramP->defaultparam &&
fMimeDirMode==mimo_old &&
(
(getSession()->fEnumDefaultPropParams==-1 && getSession()->getSyncMLVersion()<syncml_vers_1_2) || // auto mode and SyncML 1.1 or older
(getSession()->fEnumDefaultPropParams==1) // ..or explicitly enabled
)
) {
// add the name extending enum values as param names
TEnumerationDef *enumP = paramP->convdef.enumdefs;
while(enumP) {
if (!TCFG_ISEMPTY(enumP->enumtext) && enumP->enummode==enm_translate) {
// create new param list entry
nextParamPP = addCTDataToList(newDevInfCTData(TCFG_CSTR(enumP->enumtext)),nextParamPP);
}
enumP=enumP->next;
}
}
else {
// - proper parameter with valEnum list
SmlDevInfCTDataPtr_t paramdataP = newDevInfCTData(TCFG_CSTR(paramP->paramname));
// - add valenums if any
SmlPcdataListPtr_t *nextValenumPP = &(paramdataP->valenum);
TEnumerationDef *enumP = paramP->convdef.enumdefs;
while(enumP) {
if (!TCFG_ISEMPTY(enumP->enumtext) && enumP->enummode==enm_translate) {
// create new valenum list entry
nextValenumPP = addPCDataStringToList(TCFG_CSTR(enumP->enumtext),nextValenumPP);
}
enumP=enumP->next;
}
// - add it to the params list
nextParamPP = addCTDataToList(paramdataP,nextParamPP);
}
} // if param to be shown
paramP=paramP->next;
}
// - get possible size limit and notruncate flag
uInt32 sz=0; // no size limit by default
bool noTruncate=false; // by default, truncation is ok
TFieldDefinition *fieldDefP = NULL;
for (sInt16 i=0; i<propP->numValues; i++) {
sInt16 fid=propP->convdefs[0].fieldid;
if (fid>=0) {
// Field type (we need it later when we have a maxsize, which is only allowed together with a datatype in 1.1 DTD)
if (!fieldDefP)
fieldDefP = fItemTypeP->getFieldDefinition(fid);
// Size
uInt32 fsz = fItemTypeP->getFieldOptions(fid)->maxsize; // only if related datastore (i.e. SyncML context)
// - smallest non-fieldblock (excludes RRULE-type special conversions), not-unknown and not-unlimited maxsize is used
if (fieldBlockSize(propP->convdefs[0])==1 && (sz==0 || sz>fsz) && fsz!=FIELD_OPT_MAXSIZE_NONE && sInt32(fsz)!=FIELD_OPT_MAXSIZE_UNKNOWN)
sz=fsz;
// If any field requests no truncation, report noTruncate
if (getSession()->getSyncMLVersion()>=syncml_vers_1_2 && fItemTypeP->getFieldOptions(fid)->notruncate)
noTruncate=true;
}
}
// - calculate our own maxoccur (value in our field options is not used for now %%%)
uInt32 maxOccur=0;
if (getSession()->getSyncMLVersion()>=syncml_vers_1_2) {
if (propP->nameExts) {
// name extensions determine repeat count
TPropNameExtension *extP = propP->nameExts;
while (extP) {
if (!extP->readOnly) {
if (extP->maxRepeat==REP_ARRAY) {
// no limit
maxOccur=0; // unlimited
break; // prevent other name extensions to intervene
}
else {
// limited number of occurrences, add to count
maxOccur+=extP->maxRepeat;
}
}
// next
extP=extP->next;
}
}
else {
// not repeating: property may not occur more than once
maxOccur=1;
}
}
// - some SyncML 1.0 clients crash when they see type/size
if (!(getSession()->fShowTypeSzInCTCap10) && getSession()->getSyncMLVersion()<=syncml_vers_1_0) {
sz = 0; // prevent size/type in SyncML 1.0 (as old clients like S55 crash if it is included)
}
// - find out if we need to show the type (before SyncML 1.2, Size MUST be preceeded by DataType)
// On the other hand, DataType MUST NOT be used in 1.2 for VersIt types!!!
cAppCharP dataType=NULL;
if (sz!=0 && fieldDefP && getSession()->getSyncMLVersion()<syncml_vers_1_2) {
// we have a size, so we NEED a datatype
TPropDataTypes dt = devInfPropTypes[fieldDefP->type];
if (dt==proptype_text) dt=proptype_chr; // SyncML 1.1 does not have "text" type
if (dt!=proptype_unknown)
dataType = propDataTypeNames[dt];
}
// - add property data descriptor
propdataP->prop = newDevInfCTData(TCFG_CSTR(propP->propname),sz,noTruncate,maxOccur,dataType);
if (propP->convdefs && propP->convdefs->convmode==CONVMODE_VERSION) {
// special case: add version valenum
addPCDataStringToList(aItemTypeP->getTypeVers(),&(propdataP->prop->valenum));
}
// add it if not already same-named property in the list, otherwise discard it
addCTDataPropToListIfNotExists(propdataP,aPropListPP);
} // if to be shown in CTCap
propP=propP->next;
} // while properties
} // normal profile defined in config
// add properties of other levels
const TProfileDefinition *subprofileP = aProfileP->subLevels;
while (subprofileP) {
// only if the current profile is the selected profile, properties of ALL contained subprofiles will be shown
// (otherwise, selection might be within the current profile, so we need to pass on the selection)
enumerateProperties(subprofileP,aPropListPP,aProfileP==aSelectedProfileP ? NULL : aSelectedProfileP, aItemTypeP);
// next
subprofileP=subprofileP->next;
}
}
} // TMimeDirProfileHandler::enumerateProperties
// helper: enumerate filter properties
void TMimeDirProfileHandler::enumeratePropFilters(const TProfileDefinition *aProfileP, SmlPcdataListPtr_t &aFilterProps, const TProfileDefinition *aSelectedProfileP, TMimeDirItemType *aItemTypeP)
{
// add all properties of this level (if enabled)
// Note: if this is the explicitly selected (sub)profile, it will be shown under any circumstances
if (!aProfileP->shownIfSelectedOnly || aProfileP==aSelectedProfileP) {
const TPropertyDefinition *propP = aProfileP->propertyDefs;
while (propP) {
if (
propP->canFilter &&
(propP->showInCTCap || aProfileP==aSelectedProfileP) &&
propP->convdefs && propP->convdefs[0].convmode!=CONVMODE_VERSION && propP->convdefs[0].convmode!=CONVMODE_PRODID
) {
// Note: properties of explicitly selected (sub)profiles will be shown anyway,
// as only purpose of suppressing properties in devInf is to avoid
// duplicate listing in case of multiple subprofiles in ONE CTCap.
// - add property name to filter property list
addPCDataStringToList(TCFG_CSTR(propP->propname), &aFilterProps);
} // if to be shown in filterCap
propP=propP->next;
}
}
// add properties of other levels
const TProfileDefinition *subprofileP = aProfileP->subLevels;
while (subprofileP) {
if (aSelectedProfileP==NULL || subprofileP==aSelectedProfileP) {
// only if the current profile is the selected profile, filter properties of ALL contained subprofiles will be shown
enumeratePropFilters(subprofileP,aFilterProps,aProfileP==aSelectedProfileP ? NULL : aSelectedProfileP, aItemTypeP);
}
// next
subprofileP=subprofileP->next;
}
} // TMimeDirProfileHandler::enumeratePropFilters
#ifdef OBJECT_FILTERING
// Filtering: add keywords and property names to filterCap
void TMimeDirProfileHandler::addFilterCapPropsAndKeywords(SmlPcdataListPtr_t &aFilterKeywords, SmlPcdataListPtr_t &aFilterProps, TTypeVariantDescriptor aVariantDescriptor, TSyncItemType *aItemTypeP)
{
// get pointer to selected variant (if none, all variants will be shown)
const TProfileDefinition *selectedSubprofileP = (const TProfileDefinition *)aVariantDescriptor;
// get pointer to mimedir item type
TMimeDirItemType *mimeDirItemTypeP;
GET_CASTED_PTR(mimeDirItemTypeP,TMimeDirItemType,aItemTypeP,"MIME-DIR profile used with non-MIME-DIR type");
// add name of all properties that have canFilter attribute set
enumeratePropFilters(fProfileDefinitionP,aFilterProps,selectedSubprofileP, mimeDirItemTypeP);
} // TMimeDirProfileHandler::addFilterCapPropsAndKeywords
#endif // OBJECT_FILTERING
// generates SyncML-Devinf property list for type
SmlDevInfCTDataPropListPtr_t TMimeDirProfileHandler::newCTDataPropList(TTypeVariantDescriptor aVariantDescriptor, TSyncItemType *aItemTypeP)
{
TMimeDirItemType *itemTypeP = static_cast<TMimeDirItemType *>(aItemTypeP);
// get pointer to selected variant (if none, all variants will be shown)
const TProfileDefinition *selectedSubprofileP = (const TProfileDefinition *)aVariantDescriptor;
// generate new list
SmlDevInfCTDataPropListPtr_t proplistP = SML_NEW(SmlDevInfCTDataPropList_t);
SmlDevInfCTDataPropListPtr_t nextpropP = proplistP;
// generate BEGIN property
// - add property contents
nextpropP->data = SML_NEW(SmlDevInfCTDataProp_t);
nextpropP->data->param=NULL; // no params
// - property data descriptor
SmlDevInfCTDataPtr_t pdataP = newDevInfCTData("BEGIN");
nextpropP->data->prop = pdataP;
// - add valenums for all profiles and subprofiles
SmlPcdataListPtr_t *liststartPP = &pdataP->valenum;
enumerateLevels(fProfileDefinitionP,liststartPP,selectedSubprofileP,itemTypeP);
// generate END property
nextpropP->next = SML_NEW(SmlDevInfCTDataPropList_t);
nextpropP=nextpropP->next;
// - add property contents
nextpropP->data = SML_NEW(SmlDevInfCTDataProp_t);
nextpropP->data->param=NULL; // no params
// - property data descriptor
pdataP = newDevInfCTData("END");
nextpropP->data->prop = pdataP;
// - add valenums for all profiles and subprofiles
liststartPP = &pdataP->valenum;
enumerateLevels(fProfileDefinitionP,liststartPP,selectedSubprofileP,itemTypeP);
// generate all other properties of all levels
nextpropP->next=NULL; // in case no properties are found
SmlDevInfCTDataPropListPtr_t *propstartPP = &nextpropP->next;
enumerateProperties(fProfileDefinitionP,propstartPP,selectedSubprofileP,itemTypeP);
// done
return proplistP;
} // TMimeDirProfileHandler::newCTDataPropList
// Analyze CTCap part of devInf
bool TMimeDirProfileHandler::analyzeCTCap(SmlDevInfCTCapPtr_t aCTCapP, TSyncItemType *aItemTypeP)
{
TMimeDirItemType *itemTypeP = static_cast<TMimeDirItemType *>(aItemTypeP);
// assume all sublevels enabled (as long as we don't get a
// BEGIN CTCap listing all the available levels.
//aItemTypeP->setLevelOptions(NULL,true);
// check details
SmlDevInfCTDataPropListPtr_t proplistP = aCTCapP->prop;
if (proplistP) {
if (!itemTypeP->fReceivedFieldDefs) {
// there is a propList, and we haven't scanned one already for this type
// (could be the case for DS 1.2 vCalendar where we get events & tasks separately)
// so disable all non-mandatory fields first (available ones will be re-enabled)
for (sInt16 i=0; i<itemTypeP->fFieldDefinitionsP->numFields(); i++) {
itemTypeP->getFieldOptions(i)->available=false;
}
// force mandatory properties to be always "available"
setfieldoptions(NULL,fProfileDefinitionP,itemTypeP);
}
// now we have received fields
itemTypeP->fReceivedFieldDefs=true;
}
while (proplistP) {
// get property descriptor
SmlDevInfCTDataPtr_t propP = proplistP->data->prop;
// see if we have this property in any of the levels
setfieldoptions(propP,fProfileDefinitionP,itemTypeP);
// next property in CTCap
proplistP=proplistP->next;
} // properties in CTCap
return true;
} // TMimeDirProfileHandler::analyzeCTCap
// %%%%% dummy for now
bool TMimeDirProfileHandler::setLevelOptions(const char *aLevelName, bool aEnable, TMimeDirItemType *aItemTypeP)
{
// do it recursively.
// %%% we need to have a flag somewhere for these
// don't we have one already???
// YES, its fSubLevelRestrictions (supposedly a bitmask for max 32 levels)
// %%% checking the levels and ignoring incoming/outgoing items with
// wrong levels must be added later
return true;
} // TMimeDirProfileHandler::setLevelOptions
// enable fields related to aPropP property in profiles recursively
// or (if aPropP is NULL), enable fields of all mandatory properties
void TMimeDirProfileHandler::setfieldoptions(
const SmlDevInfCTDataPtr_t aPropP, // property to enable fields for, NULL if all mandatory properties should be enabled
const TProfileDefinition *aProfileP,
TMimeDirItemType *aItemTypeP
)
{
// set defaults
sInt32 propsize = FIELD_OPT_MAXSIZE_NONE;
sInt32 maxOccur = 0; // none by default
bool noTruncate=false;
const char* propname = NULL;
TFieldOptions *fo;
// get params from CTCap property definition (if any)
if (aPropP) {
// get name of CTCap property
propname = smlPCDataToCharP(aPropP->name);
// get possible maxSize
if (aPropP->maxsize) {
if (getSession()->fIgnoreDevInfMaxSize) {
// remote rule flags maxsize as invalid (like in E90), flag it as unknown (but possibly limited)
propsize = FIELD_OPT_MAXSIZE_UNKNOWN;
}
else {
// treat as valid
StrToLong(smlPCDataToCharP(aPropP->maxsize),propsize);
}
}
// get possible maxOccur
if (aPropP->maxoccur) {
StrToLong(smlPCDataToCharP(aPropP->maxoccur),maxOccur);
}
// get possible noTruncate
if (aPropP->flags & SmlDevInfNoTruncate_f)
noTruncate=true;
// check for BEGIN to check for enabled sublevels
if (strucmp(propname,"BEGIN")==0) {
// check ValEnums that denote supported levels
SmlPcdataListPtr_t valenumP = aPropP->valenum;
if (valenumP) {
// we HAVE supported BEGINs listed, so disable all levels first
// and have them individually enabled below according to ValEnums
setLevelOptions(NULL,false,aItemTypeP);
}
while (valenumP) {
// get sublevel name
const char *slname = smlPCDataToCharP(valenumP->data);
setLevelOptions(slname,true,aItemTypeP); // enable this one
// check next
valenumP=valenumP->next;
}
}
} // if enabling for specified property
// enable all fields related to this property and set options
const TPropertyDefinition *propdefP = aProfileP->propertyDefs;
sInt16 j,q,i,o,r,bs;
while (propdefP) {
// compare
if (
(propname==NULL && propdefP->mandatory) ||
(propname && (strucmp(propname,TCFG_CSTR(propdefP->propname))==0))
) {
// match (or enabling mandatory) -> enable all fields that are related to this property
// - values
for (i=0; i<propdefP->numValues; i++) {
// base field ID
j=propdefP->convdefs[i].fieldid;
bs=fieldBlockSize(propdefP->convdefs[i]);
if (j>=0) {
// field supported
TPropNameExtension *pneP = propdefP->nameExts;
if (pneP) {
while(pneP) {
o = pneP->fieldidoffs;
if (o>=0) {
r=0;
// for all repetitions (but only for first if mode is REP_ARRAY
// or field is an array)
do {
// make entire field block addressed by this convdef available
// and set maxoccur/notruncate
for (q=0; q<bs; q++) {
// flag available
fo = aItemTypeP->getFieldOptions(j+o+q);
if (fo) fo->available=true;
}
// set size if specified (only for first field in block)
fo = aItemTypeP->getFieldOptions(j+o);
if (fo) {
if (propsize!=FIELD_OPT_MAXSIZE_NONE) fo->maxsize=propsize;
// set maxoccur if specified
if (maxOccur!=0) fo->maxoccur=maxOccur;
// set noTruncate
if (noTruncate) fo->notruncate=true;
}
// next
o+=pneP->repeatInc;
} while (
++r < pneP->maxRepeat &&
pneP->maxRepeat!=REP_ARRAY
#ifdef ARRAYFIELD_SUPPORT
&& !aItemTypeP->getFieldDefinition(j)->array
#endif
);
}
pneP=pneP->next;
}
}
else {
// single variant, non-repeating property
// make entire field block addressed by this convdef available
for (q=0; q<bs; q++) { fo = aItemTypeP->getFieldOptions(j+q); if (fo) fo->available=true; }
// set size if specified
fo = aItemTypeP->getFieldOptions(j);
if (fo) {
if (propsize!=FIELD_OPT_MAXSIZE_NONE) fo->maxsize=propsize;
// set maxoccur if specified
if (maxOccur!=0) fo->maxoccur=maxOccur;
// set noTruncate
if (noTruncate) fo->notruncate=true;
}
}
}
} // enable values
// - parameter values
const TParameterDefinition *paramdefP = propdefP->parameterDefs;
while(paramdefP) {
// base field ID
j=paramdefP->convdef.fieldid;
bs=fieldBlockSize(paramdefP->convdef);
if (j>=0) {
// field supported
TPropNameExtension *pneP = propdefP->nameExts;
if (pneP) {
while(pneP) {
o = pneP->fieldidoffs;
if (o>=0) {
r=0;
// for all repetitions
do {
// make entire field block addressed by this convdef available
for (q=0; q<bs; q++) { fo = aItemTypeP->getFieldOptions(j+o+q); if (fo) fo->available=true; }
// set size if specified
fo = aItemTypeP->getFieldOptions(j+o);
if (propsize!=FIELD_OPT_MAXSIZE_NONE && fo) fo->maxsize=propsize;
// Note: MaxOccur and NoTruncate are not relevant for parameter values
// next
o+=pneP->repeatInc;
} while (
++r < pneP->maxRepeat &&
pneP->maxRepeat!=REP_ARRAY
#ifdef ARRAYFIELD_SUPPORT
&& !aItemTypeP->getFieldDefinition(j)->array
#endif
);
}
pneP=pneP->next;
}
}
else {
// single variant, non-repeating property
// make entire field block addressed by this convdef available
for (q=0; q<bs; q++) { fo=aItemTypeP->getFieldOptions(j+q); if (fo) fo->available=true; }
// set size if specified
fo = aItemTypeP->getFieldOptions(j);
if (propsize!=FIELD_OPT_MAXSIZE_NONE && fo) fo->maxsize=propsize;
}
}
paramdefP=paramdefP->next;
} // while
} // if known property
propdefP=propdefP->next;
}
// now enable fields in all subprofiles
const TProfileDefinition *subprofileP = aProfileP->subLevels;
while (subprofileP) {
setfieldoptions(aPropP,subprofileP,aItemTypeP);
// next
subprofileP=subprofileP->next;
}
} // TMimeDirProfileHandler::setfieldoptions
// set mode (for those profiles that have more than one, like MIME-DIR's old/standard)
void TMimeDirProfileHandler::setProfileMode(sInt32 aMode)
{
fProfileMode = aMode;
// determine derived mime mode
switch (aMode) {
case PROFILEMODE_OLD : fMimeDirMode=mimo_old; break; // 1 = old = vCard 2.1 / vCalendar 1.0
default : fMimeDirMode=mimo_standard; break; // anything else = standard = vCard 3.0 / iCalendar 2.0 style
}
} // TMimeDirProfileHandler::setProfileMode
#ifndef NO_REMOTE_RULES
void TMimeDirProfileHandler::setRemoteRule(const string &aRemoteRuleName)
{
TSessionConfig *scP = getSession()->getSessionConfig();
TRemoteRulesList::iterator pos;
for(pos=scP->fRemoteRulesList.begin();pos!=scP->fRemoteRulesList.end();pos++) {
if((*pos)->fElementName == aRemoteRuleName) {
// only this rule must be active
fActiveRemoteRules.clear();
fActiveRemoteRules.push_back(*pos);
break;
}
}
} // TMimeDirProfileHandler::setRemoteRule
// check if given rule (by name, or if aRuleName=NULL by rule pointer) is active
bool TMimeDirProfileHandler::isActiveRule(TRemoteRuleConfig *aRuleP)
{
TRemoteRulesList::iterator pos;
for(pos=fActiveRemoteRules.begin();pos!=fActiveRemoteRules.end();pos++) {
if ((*pos)==aRuleP)
return true;
}
// no match
return false;
} // TMimeDirProfileHandler::isActiveRule
#endif // NO_REMOTE_RULES
// - check mode
bool TMimeDirProfileHandler::mimeModeMatch(TMimeDirMode aMimeMode)
{
return
aMimeMode==numMimeModes || // not dependent on MIME mode
aMimeMode==fMimeDirMode;
} // TMimeDirProfileHandler::mimeModeMatch
/* end of TMimeDirProfileHandler implementation */
// Utility functions
// -----------------
/// @brief checks two timestamps if they represent an all-day event
/// @param[in] aStart start time
/// @param[in] aEnd end time
/// @return 0 if not allday, x=1..n if allday (spanning x days) by one of the
/// following criteria:
/// - both start and end at midnight of the same day (= 1 day)
/// - both start and end at midnight of different days (= 1..n days)
/// - start at midnight and end between 23:59:00 and 23:59:59 of
/// same or different days (= 1..n days)
uInt16 AlldayCount(lineartime_t aStart, lineartime_t aEnd)
{
lineartime_t startTime = lineartime2timeonly(aStart);
if (startTime!=0) return 0; // start not at midnight -> no allday
lineartime_t endTime = lineartime2timeonly(aEnd);
if (endTime==0) {
if (aStart==aEnd) aEnd += linearDateToTimeFactor; // one day
}
else if (endTime>= (23*MinsPerHour+59)*SecsPerMin*secondToLinearTimeFactor) {
// add one minute to make sure we reach into next day
aEnd += SecsPerMin*secondToLinearTimeFactor;
}
else
return 0; // allday criteria not met
// now calculate number of days
return (aEnd-aStart) / linearDateToTimeFactor;
} // AlldayCount
/// @brief checks two timestamps if they represent an all-day event
/// @param[in] aStartFldP start time field
/// @param[in] aEndFldP end time field
/// @param[in] aTimecontext context to use to check allday criteria for all non-floating timestamps
/// or UTC timestamps only (if aContextForUTC is set).
/// @param[in] aContextForUTC if set, context is only applied for UTC timestamps, other non-floatings are checked as-is
/// @return 0 if not allday, x=1..n if allday (spanning x days)
uInt16 AlldayCount(TItemField *aStartFldP, TItemField *aEndFldP, timecontext_t aTimecontext, bool aContextForUTC)
{
if (!aStartFldP->isBasedOn(fty_timestamp)) return 0;
if (!aEndFldP->isBasedOn(fty_timestamp)) return 0;
TTimestampField *startFldP = static_cast<TTimestampField *>(aStartFldP);
TTimestampField *endFldP = static_cast<TTimestampField *>(aEndFldP);
// check in specified time zone if originally UTC (or aContextForUTC not set), otherwise check as-is
timecontext_t tctx;
lineartime_t start = startFldP->getTimestampAs(!aContextForUTC || TCTX_IS_UTC(startFldP->getTimeContext()) ? aTimecontext : TCTX_UNKNOWN, &tctx);
lineartime_t end = endFldP->getTimestampAs(!aContextForUTC || TCTX_IS_UTC(endFldP->getTimeContext()) ? aTimecontext : TCTX_UNKNOWN, &tctx);
return AlldayCount(start,end);
} // AlldayCount
/// @brief makes two timestamps represent an all-day event
/// @param[in/out] aStart start time within the first day, will be set to midnight (00:00:00)
/// @param[in/out] aEnd end time within the last day or at midnight of the next day,
/// will be set to midnight of the next day
/// @param[in] aDays if>0, this is used to calculate the aEnd timestamp (aEnd input is
/// ignored then)
void MakeAllday(lineartime_t &aStart, lineartime_t &aEnd, sInt16 aDays)
{
lineartime_t duration = 0;
// first calculate duration (assuming that even if there's a timezone problem, both
// timestamps will be affected so duration is still correct)
if (aDays<=0) {
// use implicit duration
duration = aEnd-aStart;
} else {
// use explicit duration
duration = aDays * linearDateToTimeFactor;
}
// truncate start to midnight
aStart = lineartime2dateonlyTime(aStart);
// calculate timestamp that for sure is in next day
aEnd = aStart + duration + linearDateToTimeFactor-1; // one unit less than a full day, ensures that 00:00:00 input will remain same day
// make day-only of next day
aEnd = lineartime2dateonlyTime(aEnd);
} // MakeAllday
/// @brief makes two timestamp fields represent an all-day event
/// @param[in/out] aStartFldP start time within the first day, will be set to dateonly
/// @param[in/out] aEndFldP end time within the last day or at midnight of the next day, will be set to dateonly of the next day
/// @param[in] aTimecontext context to calculate day boundaries in (if timestamp is not already floating), can be floating to treat in context of start date
/// @param[in] aDays if>0, this is used to calculate the aEnd timestamp (aEnd input is
/// ignored then)
/// @note fields will be made floating and dateonly
void MakeAllday(TItemField *aStartFldP, TItemField *aEndFldP, timecontext_t aTimecontext, sInt16 aDays)
{
if (!aStartFldP->isBasedOn(fty_timestamp)) return;
if (!aEndFldP->isBasedOn(fty_timestamp)) return;
TTimestampField *startFldP = static_cast<TTimestampField *>(aStartFldP);
TTimestampField *endFldP = static_cast<TTimestampField *>(aEndFldP);
// adjust in specified time zone (or floating)
timecontext_t tctx;
lineartime_t start = startFldP->getTimestampAs(aTimecontext,&tctx);
// context must match, unless either requested-as-is or timestamp is already floating
if (tctx!=aTimecontext && !TCTX_IS_UNKNOWN(aTimecontext) && !TCTX_IS_UNKNOWN(tctx)) return; // cannot do anything
// get end in same context as start is
lineartime_t end = endFldP->getTimestampAs(tctx);
// make allday
MakeAllday(start,end,aDays);
// store back and floating + dateonly
tctx = TCTX_UNKNOWN | TCTX_DATEONLY;
// for output format capable of date-only
startFldP->setTimestampAndContext(start,tctx);
endFldP->setTimestampAndContext(end,tctx);
} // MakeAllday
} // namespace sysync
// eof
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