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initial change of hap[i] to linked-list from fixed array

This commit is contained in:
Gregg 2024-05-12 07:17:21 -05:00
parent 3643506d89
commit dbfad7d222
3 changed files with 46 additions and 59 deletions
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19
src/HAP.cpp
View File

@ -324,7 +324,7 @@ int HAPClient::postPairSetupURL(uint8_t *content, size_t len){
iosTLV.print();
LOG2("------------ END TLVS! ------------\n");
LOG1("In Pair Setup #%d (%s)...",conNum,client.remoteIP().toString().c_str());
LOG1("In Pair Setup #%d (%s)...",client.fd()-LWIP_SOCKET_OFFSET,client.remoteIP().toString().c_str());
auto itState=iosTLV.find(kTLVType_State);
@ -344,7 +344,7 @@ int HAPClient::postPairSetupURL(uint8_t *content, size_t len){
return(0);
};
LOG2("Found <M%d>. Expected <M%d>.\n",tlvState,pairStatus);
LOG1("Found <M%d>. Expected <M%d>.\n",tlvState,pairStatus);
if(tlvState!=pairStatus){ // error: Device is not yet paired, but out-of-sequence pair-setup STATE was received
LOG0("\n*** ERROR: Out-of-Sequence Pair-Setup request!\n\n");
@ -574,7 +574,7 @@ int HAPClient::postPairVerifyURL(uint8_t *content, size_t len){
iosTLV.print();
LOG2("------------ END TLVS! ------------\n");
LOG1("In Pair Verify #%d (%s)...",conNum,client.remoteIP().toString().c_str());
LOG1("In Pair Verify #%d (%s)...",client.fd()-LWIP_SOCKET_OFFSET,client.remoteIP().toString().c_str());
auto itState=iosTLV.find(kTLVType_State);
@ -594,7 +594,7 @@ int HAPClient::postPairVerifyURL(uint8_t *content, size_t len){
return(0);
};
LOG2("Found <M%d>\n",tlvState); // unlike pair-setup, out-of-sequencing can be handled gracefully for pair-verify (HAP requirement). No need to keep track of pairStatus
LOG1("Found <M%d>\n",tlvState); // unlike pair-setup, out-of-sequencing can be handled gracefully for pair-verify (HAP requirement). No need to keep track of pairStatus
switch(tlvState){ // Pair-Verify STATE received -- process request! (HAP Section 5.7)
@ -756,7 +756,7 @@ int HAPClient::postPairingsURL(uint8_t *content, size_t len){
iosTLV.print();
LOG2("------------ END TLVS! ------------\n");
LOG1("In Post Pairings #%d (%s)...",conNum,client.remoteIP().toString().c_str());
LOG1("In Post Pairings #%d (%s)...",client.fd()-LWIP_SOCKET_OFFSET,client.remoteIP().toString().c_str());
auto itState=iosTLV.find(kTLVType_State);
auto itMethod=iosTLV.find(kTLVType_Method);
@ -882,7 +882,7 @@ int HAPClient::getAccessoriesURL(){
return(0);
}
LOG1("In Get Accessories #%d (%s)...\n",conNum,client.remoteIP().toString().c_str());
LOG1("In Get Accessories #%d (%s)...\n",client.fd()-LWIP_SOCKET_OFFSET,client.remoteIP().toString().c_str());
homeSpan.printfAttributes();
size_t nBytes=hapOut.getSize();
@ -910,7 +910,7 @@ int HAPClient::getCharacteristicsURL(char *urlBuf){
return(0);
}
LOG1("In Get Characteristics #%d (%s)...\n",conNum,client.remoteIP().toString().c_str());
LOG1("In Get Characteristics #%d (%s)...\n",client.fd()-LWIP_SOCKET_OFFSET,client.remoteIP().toString().c_str());
int len=strlen(urlBuf); // determine number of IDs specified by counting commas in URL
int numIDs=1;
@ -978,7 +978,7 @@ int HAPClient::putCharacteristicsURL(char *json){
return(0);
}
LOG1("In Put Characteristics #%d (%s)...\n",conNum,client.remoteIP().toString().c_str());
LOG1("In Put Characteristics #%d (%s)...\n",client.fd()-LWIP_SOCKET_OFFSET,client.remoteIP().toString().c_str());
int n=homeSpan.countCharacteristics(json); // count number of objects in JSON request
if(n==0) // if no objects found, return
@ -1031,7 +1031,7 @@ int HAPClient::putPrepareURL(char *json){
return(0);
}
LOG1("In Put Prepare #%d (%s)...\n",conNum,client.remoteIP().toString().c_str());
LOG1("In Put Prepare #%d (%s)...\n",client.fd()-LWIP_SOCKET_OFFSET,client.remoteIP().toString().c_str());
char ttlToken[]="\"ttl\":";
char pidToken[]="\"pid\":";
@ -1237,7 +1237,6 @@ void HAPClient::checkTimedWrites(){
else
tw++;
}
}
//////////////////////////////////////

1
src/HAP.h
View File

@ -93,7 +93,6 @@ struct HAPClient {
WiFiClient client; // handle to client
Controller *cPair=NULL; // pointer to info on current, session-verified Paired Controller (NULL=un-verified, and therefore un-encrypted, connection)
boolean isConnected=false; // flag to indicate client is connect
// These temporary Curve25519 keys are generated in the first call to pair-verify and used in the second call to pair-verify so must persist for a short period

79
src/HomeSpan.cpp
View File

@ -47,6 +47,8 @@ using namespace Utils;
HapOut hapOut; // Specialized output stream that can both print to serial monitor and encrypt/transmit to HAP Clients with minimal memory usage (global-scoped variable)
HAPClient **hap; // HAP Client structure containing HTTP client connections, parsing routines, and state variables (global-scoped variable)
list<HAPClient, Mallocator<HAPClient>> hapList; // linked-list of HAP Client structures containing HTTP client connections, parsing routines, and state variables (global-scoped variable)
Span homeSpan; // HAP Attributes database and all related control functions for this Accessory (global-scoped variable)
HapCharacteristics hapChars; // Instantiation of all HAP Characteristics used to create SpanCharacteristics (global-scoped variable)
@ -229,43 +231,36 @@ void Span::pollTask() {
processSerialCommand(cBuf);
}
WiFiClient newClient;
if(hapServer->hasClient()){
if(newClient=hapServer->available()){ // found new client
auto it=hapList.emplace(hapList.begin());
(*it).client=hapServer->available();
int socket=newClient.fd()-LWIP_SOCKET_OFFSET; // get socket number (starting at zero)
// homeSpan.clearNotify(socket); // clear all notification requests for this connection
if(hap[socket]==NULL) // create HAPClient at that socket if it does not alreay exist
hap[socket]=new HAPClient;
hap[socket]->client=newClient; // copy new client handle
hap[socket]->isConnected=true; // set isConnected flag
hap[socket]->cPair=NULL; // reset pointer to verified ID
homeSpan.clearNotify(socket); // clear all notification requests for this connection
HAPClient::pairStatus=pairState_M1; // reset starting PAIR STATE (which may be needed if Accessory failed in middle of pair-setup)
LOG2("=======================================\n");
LOG1("** Client #%d Connected (%lu sec): %s\n",socket,millis()/1000,newClient.remoteIP().toString().c_str());
LOG1("** Client #%d Connected (%lu sec): %s\n",(*it).client.fd()-LWIP_SOCKET_OFFSET,millis()/1000,(*it).client.remoteIP().toString().c_str());
LOG2("\n");
}
for(int i=0;i<CONFIG_LWIP_MAX_SOCKETS;i++){ // loop over all HAP Connection slots
auto it=hapList.begin();
while(it!=hapList.end()){
if(hap[i]){ // if this socket has a configured HAPClient
if(hap[i]->client){ // if the client is connected
if(hap[i]->client.available()){ // if client has data available
HAPClient::conNum=i; // set connection number
homeSpan.lastClientIP=hap[i]->client.remoteIP().toString(); // store IP Address for web logging
hap[i]->processRequest(); // PROCESS HAP REQUEST
homeSpan.lastClientIP="0.0.0.0"; // reset stored IP address to show "0.0.0.0" if homeSpan.getClientIP() is used in any other context
}
}
else if(hap[i]->isConnected){ // if client is not connected, but HAPClient thinks it is
LOG1("** Client #%d DISCONNECTED (%lu sec)\n",i,millis()/1000);
hap[i]->isConnected=false;
hap[i]->client.stop();
delay(1);
if((*it).client.connected()){ // if the client is connected
if((*it).client.available()){ // if client has data available
// HAPClient::conNum=i; // set connection number
homeSpan.lastClientIP=(*it).client.remoteIP().toString(); // store IP Address for web logging
(*it).processRequest(); // PROCESS HAP REQUEST
homeSpan.lastClientIP="0.0.0.0"; // reset stored IP address to show "0.0.0.0" if homeSpan.getClientIP() is used in any other context
}
it++;
} else {
LOG1("** Client #%d DISCONNECTED (%lu sec)\n",(*it).client.fd()-LWIP_SOCKET_OFFSET,millis()/1000);
(*it).client.stop();
delay(5);
it=hapList.erase(it);
}
}
@ -277,7 +272,7 @@ void Span::pollTask() {
for(auto it=PushButtons.begin();it!=PushButtons.end();it++) // check for SpanButton presses
(*it)->check();
HAPClient::checkNotifications();
////// HAPClient::checkNotifications();
HAPClient::checkTimedWrites();
if(spanOTA.enabled)
@ -584,26 +579,20 @@ void Span::processSerialCommand(const char *c){
HAPClient::printControllers();
LOG0("\n");
for(int i=0;i<CONFIG_LWIP_MAX_SOCKETS;i++){
if(hap[i]){
LOG0("Client #%d:",i);
if(hap[i]->client){
LOG0(" %s",hap[i]->client.remoteIP().toString().c_str());
if(hap[i]->cPair){
LOG0(" ID=");
HAPClient::charPrintRow(hap[i]->cPair->getID(),36);
LOG0(hap[i]->cPair->isAdmin()?" (admin)":" (regular)");
} else {
LOG0(" (unverified)");
}
} else {
LOG0(" unconnected");
}
LOG0("\n");
for(auto it=hapList.begin(); it!=hapList.end(); ++it){
LOG0("Client #%d: %s",(*it).client.fd()-LWIP_SOCKET_OFFSET,(*it).client.remoteIP().toString().c_str());
if((*it).cPair){
LOG0(" ID=");
HAPClient::charPrintRow((*it).cPair->getID(),36);
LOG0((*it).cPair->isAdmin()?" (admin)":" (regular)\n");
} else {
LOG0(" (unverified)\n");
}
}
if(hapList.empty())
LOG0("No Client Connections!\n");
LOG0("\n*** End Status ***\n\n");
}
break;