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2019-06-10 12:57:49 +02:00
parent e8df841b7f
commit 3063ad27ae
7 changed files with 729 additions and 719 deletions
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@ -0,0 +1,63 @@
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192
src/WebSockets.cpp
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@ -48,7 +48,6 @@ extern "C" {
#endif
/**
*
* @param client WSclient_t * ptr to the client struct
@ -60,7 +59,7 @@ void WebSockets::clientDisconnect(WSclient_t * client, uint16_t code, char * rea
DEBUG_WEBSOCKETS("[WS][%d][handleWebsocket] clientDisconnect code: %u\n", client->num, code);
if(client->status == WSC_CONNECTED && code) {
if(reason) {
sendFrame(client, WSop_close, (uint8_t *) reason, reasonLen);
sendFrame(client, WSop_close, (uint8_t *)reason, reasonLen);
} else {
uint8_t buffer[2];
buffer[0] = ((code >> 8) & 0xFF);
@ -82,7 +81,6 @@ void WebSockets::clientDisconnect(WSclient_t * client, uint16_t code, char * rea
* @return true if ok
*/
bool WebSockets::sendFrame(WSclient_t * client, WSopcode_t opcode, uint8_t * payload, size_t length, bool fin, bool headerToPayload) {
if(client->tcp && !client->tcp->connected()) {
DEBUG_WEBSOCKETS("[WS][%d][sendFrame] not Connected!?\n", client->num);
return false;
@ -100,14 +98,14 @@ bool WebSockets::sendFrame(WSclient_t * client, WSopcode_t opcode, uint8_t * pay
DEBUG_WEBSOCKETS("[WS][%d][sendFrame] text: %s\n", client->num, (payload + (headerToPayload ? 14 : 0)));
}
uint8_t maskKey[4] = { 0x00, 0x00, 0x00, 0x00 };
uint8_t maskKey[4] = { 0x00, 0x00, 0x00, 0x00 };
uint8_t buffer[WEBSOCKETS_MAX_HEADER_SIZE] = { 0 };
uint8_t headerSize;
uint8_t * headerPtr;
uint8_t * payloadPtr = payload;
bool useInternBuffer = false;
bool ret = true;
bool ret = true;
// calculate header Size
if(length < 126) {
@ -127,12 +125,12 @@ bool WebSockets::sendFrame(WSclient_t * client, WSopcode_t opcode, uint8_t * pay
// try to send data in one TCP package (only if some free Heap is there)
if(!headerToPayload && ((length > 0) && (length < 1400)) && (GET_FREE_HEAP > 6000)) {
DEBUG_WEBSOCKETS("[WS][%d][sendFrame] pack to one TCP package...\n", client->num);
uint8_t * dataPtr = (uint8_t *) malloc(length + WEBSOCKETS_MAX_HEADER_SIZE);
uint8_t * dataPtr = (uint8_t *)malloc(length + WEBSOCKETS_MAX_HEADER_SIZE);
if(dataPtr) {
memcpy((dataPtr + WEBSOCKETS_MAX_HEADER_SIZE), payload, length);
headerToPayload = true;
useInternBuffer = true;
payloadPtr = dataPtr;
payloadPtr = dataPtr;
}
}
#endif
@ -152,7 +150,7 @@ bool WebSockets::sendFrame(WSclient_t * client, WSopcode_t opcode, uint8_t * pay
if(fin) {
*headerPtr |= bit(7); ///< set Fin
}
*headerPtr |= opcode; ///< set opcode
*headerPtr |= opcode; ///< set opcode
headerPtr++;
// byte 1
@ -268,10 +266,10 @@ bool WebSockets::sendFrame(WSclient_t * client, WSopcode_t opcode, uint8_t * pay
* @param client WSclient_t * ptr to the client struct
*/
void WebSockets::headerDone(WSclient_t * client) {
client->status = WSC_CONNECTED;
client->status = WSC_CONNECTED;
client->cWsRXsize = 0;
DEBUG_WEBSOCKETS("[WS][%d][headerDone] Header Handling Done.\n", client->num);
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
client->cHttpLine = "";
handleWebsocket(client);
#endif
@ -318,12 +316,12 @@ bool WebSockets::handleWebsocketWaitFor(WSclient_t * client, size_t size) {
// timeout or error
server->clientDisconnect(client, 1002);
}
}, this, size, std::placeholders::_1, std::placeholders::_2));
},
this, size, std::placeholders::_1, std::placeholders::_2));
return false;
}
void WebSockets::handleWebsocketCb(WSclient_t * client) {
if(!client->tcp || !client->tcp->connected()) {
return;
}
@ -331,7 +329,7 @@ void WebSockets::handleWebsocketCb(WSclient_t * client) {
uint8_t * buffer = client->cWsHeader;
WSMessageHeader_t * header = &client->cWsHeaderDecode;
uint8_t * payload = NULL;
uint8_t * payload = NULL;
uint8_t headerLen = 2;
@ -340,15 +338,15 @@ void WebSockets::handleWebsocketCb(WSclient_t * client) {
}
// split first 2 bytes in the data
header->fin = ((*buffer >> 7) & 0x01);
header->rsv1 = ((*buffer >> 6) & 0x01);
header->rsv2 = ((*buffer >> 5) & 0x01);
header->rsv3 = ((*buffer >> 4) & 0x01);
header->opCode = (WSopcode_t) (*buffer & 0x0F);
header->fin = ((*buffer >> 7) & 0x01);
header->rsv1 = ((*buffer >> 6) & 0x01);
header->rsv2 = ((*buffer >> 5) & 0x01);
header->rsv3 = ((*buffer >> 4) & 0x01);
header->opCode = (WSopcode_t)(*buffer & 0x0F);
buffer++;
header->mask = ((*buffer >> 7) & 0x01);
header->payloadLen = (WSopcode_t) (*buffer & 0x7F);
header->mask = ((*buffer >> 7) & 0x01);
header->payloadLen = (WSopcode_t)(*buffer & 0x7F);
buffer++;
if(header->payloadLen == 126) {
@ -395,7 +393,7 @@ void WebSockets::handleWebsocketCb(WSclient_t * client) {
if(header->payloadLen > 0) {
// if text data we need one more
payload = (uint8_t *) malloc(header->payloadLen + 1);
payload = (uint8_t *)malloc(header->payloadLen + 1);
if(!payload) {
DEBUG_WEBSOCKETS("[WS][%d][handleWebsocket] to less memory to handle payload %d!\n", client->num, header->payloadLen);
@ -409,7 +407,6 @@ void WebSockets::handleWebsocketCb(WSclient_t * client) {
}
void WebSockets::handleWebsocketPayloadCb(WSclient_t * client, bool ok, uint8_t * payload) {
WSMessageHeader_t * header = &client->cWsHeaderDecode;
if(ok) {
if(header->payloadLen > 0) {
@ -433,22 +430,22 @@ void WebSockets::handleWebsocketPayloadCb(WSclient_t * client, bool ok, uint8_t
break;
case WSop_ping:
// send pong back
DEBUG_WEBSOCKETS("[WS][%d][handleWebsocket] ping received (%s)\n", client->num, payload ? (const char*)payload : "");
DEBUG_WEBSOCKETS("[WS][%d][handleWebsocket] ping received (%s)\n", client->num, payload ? (const char *)payload : "");
sendFrame(client, WSop_pong, payload, header->payloadLen);
messageReceived(client, header->opCode, payload, header->payloadLen, header->fin);
break;
case WSop_pong:
DEBUG_WEBSOCKETS("[WS][%d][handleWebsocket] get pong (%s)\n", client->num, payload ? (const char*)payload : "");
DEBUG_WEBSOCKETS("[WS][%d][handleWebsocket] get pong (%s)\n", client->num, payload ? (const char *)payload : "");
client->pongReceived = true;
messageReceived(client, header->opCode, payload, header->payloadLen, header->fin);
break;
case WSop_close: {
#ifndef NODEBUG_WEBSOCKETS
uint16_t reasonCode = 1000;
if(header->payloadLen >= 2) {
reasonCode = payload[0] << 8 | payload[1];
}
#endif
#ifndef NODEBUG_WEBSOCKETS
uint16_t reasonCode = 1000;
if(header->payloadLen >= 2) {
reasonCode = payload[0] << 8 | payload[1];
}
#endif
DEBUG_WEBSOCKETS("[WS][%d][handleWebsocket] get ask for close. Code: %d", client->num, reasonCode);
if(header->payloadLen > 2) {
DEBUG_WEBSOCKETS(" (%s)\n", (payload + 2));
@ -456,8 +453,7 @@ void WebSockets::handleWebsocketPayloadCb(WSclient_t * client, bool ok, uint8_t
DEBUG_WEBSOCKETS("\n");
}
clientDisconnect(client, 1000);
}
break;
} break;
default:
clientDisconnect(client, 1002);
break;
@ -469,7 +465,7 @@ void WebSockets::handleWebsocketPayloadCb(WSclient_t * client, bool ok, uint8_t
// reset input
client->cWsRXsize = 0;
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
//register callback for next message
handleWebsocketWaitFor(client, 2);
#endif
@ -492,12 +488,12 @@ String WebSockets::acceptKey(String & clientKey) {
sha1(clientKey + "258EAFA5-E914-47DA-95CA-C5AB0DC85B11", &sha1HashBin[0]);
#elif defined(ESP32)
String data = clientKey + "258EAFA5-E914-47DA-95CA-C5AB0DC85B11";
esp_sha(SHA1, (unsigned char*)data.c_str(), data.length(), &sha1HashBin[0]);
esp_sha(SHA1, (unsigned char *)data.c_str(), data.length(), &sha1HashBin[0]);
#else
clientKey += "258EAFA5-E914-47DA-95CA-C5AB0DC85B11";
SHA1_CTX ctx;
SHA1Init(&ctx);
SHA1Update(&ctx, (const unsigned char*)clientKey.c_str(), clientKey.length());
SHA1Update(&ctx, (const unsigned char *)clientKey.c_str(), clientKey.length());
SHA1Final(&sha1HashBin[0], &ctx);
#endif
@ -514,13 +510,13 @@ String WebSockets::acceptKey(String & clientKey) {
* @return base64 encoded String
*/
String WebSockets::base64_encode(uint8_t * data, size_t length) {
size_t size = ((length * 1.6f) + 1);
char * buffer = (char *) malloc(size);
size_t size = ((length * 1.6f) + 1);
char * buffer = (char *)malloc(size);
if(buffer) {
base64_encodestate _state;
base64_init_encodestate(&_state);
int len = base64_encode_block((const char *) &data[0], length, &buffer[0], &_state);
len = base64_encode_blockend((buffer + len), &_state);
int len = base64_encode_block((const char *)&data[0], length, &buffer[0], &_state);
len = base64_encode_blockend((buffer + len), &_state);
String base64 = String(buffer);
free(buffer);
@ -537,7 +533,7 @@ String WebSockets::base64_encode(uint8_t * data, size_t length) {
* @return true if ok
*/
bool WebSockets::readCb(WSclient_t * client, uint8_t * out, size_t n, WSreadWaitCb cb) {
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
if(!client->tcp || !client->tcp->connected()) {
return false;
}
@ -546,7 +542,8 @@ bool WebSockets::readCb(WSclient_t * client, uint8_t * out, size_t n, WSreadWait
if(cb) {
cb(client, ok);
}
}, client, std::placeholders::_1, cb));
},
client, std::placeholders::_1, cb));
#else
unsigned long t = millis();
@ -578,13 +575,13 @@ bool WebSockets::readCb(WSclient_t * client, uint8_t * out, size_t n, WSreadWait
}
if(!client->tcp->available()) {
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266)
delay(0);
#endif
continue;
}
len = client->tcp->read((uint8_t*) out, n);
len = client->tcp->read((uint8_t *)out, n);
if(len) {
t = millis();
out += len;
@ -593,7 +590,7 @@ bool WebSockets::readCb(WSclient_t * client, uint8_t * out, size_t n, WSreadWait
} else {
//DEBUG_WEBSOCKETS("Receive %d left %d!\n", len, n);
}
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266)
delay(0);
#endif
}
@ -611,50 +608,54 @@ bool WebSockets::readCb(WSclient_t * client, uint8_t * out, size_t n, WSreadWait
* @param n size_t byte count
* @return bytes send
*/
size_t WebSockets::write(WSclient_t * client, uint8_t *out, size_t n) {
if(out == NULL) return 0;
if(client == NULL) return 0;
unsigned long t = millis();
size_t len = 0;
size_t total = 0;
DEBUG_WEBSOCKETS("[write] n: %zu t: %lu\n", n, t);
while(n > 0) {
if(client->tcp == NULL) {
DEBUG_WEBSOCKETS("[write] tcp is null!\n");
break;
}
size_t WebSockets::write(WSclient_t * client, uint8_t * out, size_t n) {
if(out == NULL)
return 0;
if(client == NULL)
return 0;
unsigned long t = millis();
size_t len = 0;
size_t total = 0;
DEBUG_WEBSOCKETS("[write] n: %zu t: %lu\n", n, t);
while(n > 0) {
if(client->tcp == NULL) {
DEBUG_WEBSOCKETS("[write] tcp is null!\n");
break;
}
if(!client->tcp->connected()) {
DEBUG_WEBSOCKETS("[write] not connected!\n");
break;
}
if(!client->tcp->connected()) {
DEBUG_WEBSOCKETS("[write] not connected!\n");
break;
}
if((millis() - t) > WEBSOCKETS_TCP_TIMEOUT) {
DEBUG_WEBSOCKETS("[write] write TIMEOUT! %lu\n", (millis() - t));
break;
}
if((millis() - t) > WEBSOCKETS_TCP_TIMEOUT) {
DEBUG_WEBSOCKETS("[write] write TIMEOUT! %lu\n", (millis() - t));
break;
}
len = client->tcp->write((const uint8_t*)out, n);
if(len) {
t = millis();
out += len;
n -= len;
total += len;
//DEBUG_WEBSOCKETS("write %d left %d!\n", len, n);
} else {
//DEBUG_WEBSOCKETS("write %d failed left %d!\n", len, n);
}
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266)
delay(0);
len = client->tcp->write((const uint8_t *)out, n);
if(len) {
t = millis();
out += len;
n -= len;
total += len;
//DEBUG_WEBSOCKETS("write %d left %d!\n", len, n);
} else {
//DEBUG_WEBSOCKETS("write %d failed left %d!\n", len, n);
}
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266)
delay(0);
#endif
}
return total;
}
return total;
}
size_t WebSockets::write(WSclient_t * client, const char *out) {
if(client == NULL) return 0;
if(out == NULL) return 0;
return write(client, (uint8_t*)out, strlen(out));
size_t WebSockets::write(WSclient_t * client, const char * out) {
if(client == NULL)
return 0;
if(out == NULL)
return 0;
return write(client, (uint8_t *)out, strlen(out));
}
/**
@ -664,36 +665,37 @@ size_t WebSockets::write(WSclient_t * client, const char *out) {
* @param pongTimeout uint32_t millis after which pong should timout if not received
* @param disconnectTimeoutCount uint8_t how many timeouts before disconnect, 0=> do not disconnect
*/
void WebSockets::enableHeartbeat(WSclient_t * client, uint32_t pingInterval, uint32_t pongTimeout, uint8_t disconnectTimeoutCount){
if(client == NULL) return;
client->pingInterval = pingInterval;
client->pongTimeout = pongTimeout;
void WebSockets::enableHeartbeat(WSclient_t * client, uint32_t pingInterval, uint32_t pongTimeout, uint8_t disconnectTimeoutCount) {
if(client == NULL)
return;
client->pingInterval = pingInterval;
client->pongTimeout = pongTimeout;
client->disconnectTimeoutCount = disconnectTimeoutCount;
client->pongReceived = false;
client->pongReceived = false;
}
/**
* handle ping/pong heartbeat timeout process
* @param client WSclient_t *
*/
void WebSockets::handleHBTimeout(WSclient_t * client){
if (client->pingInterval) { // if heartbeat is enabled
*/
void WebSockets::handleHBTimeout(WSclient_t * client) {
if(client->pingInterval) { // if heartbeat is enabled
uint32_t pi = millis() - client->lastPing;
if (client->pongReceived) {
if(client->pongReceived) {
client->pongTimeoutCount = 0;
} else {
if (pi > client->pongTimeout){ // pong not received in time
if(pi > client->pongTimeout) { // pong not received in time
client->pongTimeoutCount++;
client->lastPing = millis() - client->pingInterval - 500; // force ping on the next run
client->lastPing = millis() - client->pingInterval - 500; // force ping on the next run
DEBUG_WEBSOCKETS("[HBtimeout] pong TIMEOUT! lp=%d millis=%d pi=%d count=%d\n", client->lastPing, millis(), pi, client->pongTimeoutCount);
if (client->disconnectTimeoutCount && client->pongTimeoutCount >= client->disconnectTimeoutCount){
if(client->disconnectTimeoutCount && client->pongTimeoutCount >= client->disconnectTimeoutCount) {
DEBUG_WEBSOCKETS("[HBtimeout] count=%d, DISCONNECTING\n", client->pongTimeoutCount);
clientDisconnect(client);
}
}
}
}
}
}

202
src/WebSockets.h
View File

@ -27,7 +27,7 @@
#ifdef STM32_DEVICE
#include <application.h>
#define bit(b) (1UL << (b)) // Taken directly from Arduino.h
#define bit(b) (1UL << (b)) // Taken directly from Arduino.h
#else
#include <Arduino.h>
#include <IPAddress.h>
@ -40,16 +40,14 @@
#include <functional>
#endif
#ifndef NODEBUG_WEBSOCKETS
#ifdef DEBUG_ESP_PORT
#define DEBUG_WEBSOCKETS(...) DEBUG_ESP_PORT.printf( __VA_ARGS__ )
#define DEBUG_WEBSOCKETS(...) DEBUG_ESP_PORT.printf(__VA_ARGS__)
#else
//#define DEBUG_WEBSOCKETS(...) os_printf( __VA_ARGS__ )
#endif
#endif
#ifndef DEBUG_WEBSOCKETS
#define DEBUG_WEBSOCKETS(...)
#define NODEBUG_WEBSOCKETS
@ -57,7 +55,7 @@
#if defined(ESP8266) || defined(ESP32)
#define WEBSOCKETS_MAX_DATA_SIZE (15*1024)
#define WEBSOCKETS_MAX_DATA_SIZE (15 * 1024)
#define WEBSOCKETS_USE_BIG_MEM
#define GET_FREE_HEAP ESP.getFreeHeap()
// moves all Header strings to Flash (~300 Byte)
@ -65,31 +63,30 @@
#elif defined(STM32_DEVICE)
#define WEBSOCKETS_MAX_DATA_SIZE (15*1024)
#define WEBSOCKETS_MAX_DATA_SIZE (15 * 1024)
#define WEBSOCKETS_USE_BIG_MEM
#define GET_FREE_HEAP System.freeMemory()
#else
//atmega328p has only 2KB ram!
#define WEBSOCKETS_MAX_DATA_SIZE (1024)
#define WEBSOCKETS_MAX_DATA_SIZE (1024)
// moves all Header strings to Flash
#define WEBSOCKETS_SAVE_RAM
#endif
#define WEBSOCKETS_TCP_TIMEOUT (2000)
#define WEBSOCKETS_TCP_TIMEOUT (2000)
#define NETWORK_ESP8266_ASYNC (0)
#define NETWORK_ESP8266 (1)
#define NETWORK_W5100 (2)
#define NETWORK_ENC28J60 (3)
#define NETWORK_ESP32 (4)
#define NETWORK_ESP32_ETH (5)
#define NETWORK_ESP8266_ASYNC (0)
#define NETWORK_ESP8266 (1)
#define NETWORK_W5100 (2)
#define NETWORK_ENC28J60 (3)
#define NETWORK_ESP32 (4)
#define NETWORK_ESP32_ETH (5)
// max size of the WS Message Header
#define WEBSOCKETS_MAX_HEADER_SIZE (14)
#define WEBSOCKETS_MAX_HEADER_SIZE (14)
#if !defined(WEBSOCKETS_NETWORK_TYPE)
// select Network type based
@ -108,13 +105,12 @@
#endif
// Includes and defined based on Network Type
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
// Note:
// No SSL/WSS support for client in Async mode
// TLS lib need a sync interface!
#if defined(ESP8266)
#include <ESP8266WiFi.h>
#elif defined(ESP32)
@ -131,7 +127,7 @@
#define WEBSOCKETS_NETWORK_CLASS AsyncTCPbuffer
#define WEBSOCKETS_NETWORK_SERVER_CLASS AsyncServer
#elif (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266)
#elif(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266)
#if !defined(ESP8266) && !defined(ESP31B)
#error "network type ESP8266 only possible on the ESP mcu!"
@ -146,7 +142,7 @@
#define WEBSOCKETS_NETWORK_SSL_CLASS WiFiClientSecure
#define WEBSOCKETS_NETWORK_SERVER_CLASS WiFiServer
#elif (WEBSOCKETS_NETWORK_TYPE == NETWORK_W5100)
#elif(WEBSOCKETS_NETWORK_TYPE == NETWORK_W5100)
#ifdef STM32_DEVICE
#define WEBSOCKETS_NETWORK_CLASS TCPClient
@ -158,13 +154,13 @@
#define WEBSOCKETS_NETWORK_SERVER_CLASS EthernetServer
#endif
#elif (WEBSOCKETS_NETWORK_TYPE == NETWORK_ENC28J60)
#elif(WEBSOCKETS_NETWORK_TYPE == NETWORK_ENC28J60)
#include <UIPEthernet.h>
#define WEBSOCKETS_NETWORK_CLASS UIPClient
#define WEBSOCKETS_NETWORK_SERVER_CLASS UIPServer
#elif (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
#elif(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
#include <WiFi.h>
#include <WiFiClientSecure.h>
@ -172,7 +168,7 @@
#define WEBSOCKETS_NETWORK_SSL_CLASS WiFiClientSecure
#define WEBSOCKETS_NETWORK_SERVER_CLASS WiFiServer
#elif (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32_ETH)
#elif(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32_ETH)
#include <ETH.h>
#define WEBSOCKETS_NETWORK_CLASS WiFiClient
@ -182,16 +178,15 @@
#error "no network type selected!"
#endif
#ifdef WEBSOCKETS_NETWORK_SSL_CLASS
#define HAS_SSL
#endif
// moves all Header strings to Flash (~300 Byte)
#ifdef WEBSOCKETS_SAVE_RAM
#define WEBSOCKETS_STRING(var) F(var)
#define WEBSOCKETS_STRING(var) F(var)
#else
#define WEBSOCKETS_STRING(var) var
#define WEBSOCKETS_STRING(var) var
#endif
typedef enum {
@ -206,130 +201,125 @@ typedef enum {
WStype_CONNECTED,
WStype_TEXT,
WStype_BIN,
WStype_FRAGMENT_TEXT_START,
WStype_FRAGMENT_BIN_START,
WStype_FRAGMENT,
WStype_FRAGMENT_FIN,
WStype_PING,
WStype_PONG,
WStype_FRAGMENT_TEXT_START,
WStype_FRAGMENT_BIN_START,
WStype_FRAGMENT,
WStype_FRAGMENT_FIN,
WStype_PING,
WStype_PONG,
} WStype_t;
typedef enum {
WSop_continuation = 0x00, ///< %x0 denotes a continuation frame
WSop_text = 0x01, ///< %x1 denotes a text frame
WSop_binary = 0x02, ///< %x2 denotes a binary frame
///< %x3-7 are reserved for further non-control frames
WSop_close = 0x08, ///< %x8 denotes a connection close
WSop_ping = 0x09, ///< %x9 denotes a ping
WSop_pong = 0x0A ///< %xA denotes a pong
///< %xB-F are reserved for further control frames
WSop_continuation = 0x00, ///< %x0 denotes a continuation frame
WSop_text = 0x01, ///< %x1 denotes a text frame
WSop_binary = 0x02, ///< %x2 denotes a binary frame
///< %x3-7 are reserved for further non-control frames
WSop_close = 0x08, ///< %x8 denotes a connection close
WSop_ping = 0x09, ///< %x9 denotes a ping
WSop_pong = 0x0A ///< %xA denotes a pong
///< %xB-F are reserved for further control frames
} WSopcode_t;
typedef struct {
bool fin;
bool rsv1;
bool rsv2;
bool rsv3;
bool fin;
bool rsv1;
bool rsv2;
bool rsv3;
WSopcode_t opCode;
bool mask;
WSopcode_t opCode;
bool mask;
size_t payloadLen;
size_t payloadLen;
uint8_t * maskKey;
uint8_t * maskKey;
} WSMessageHeader_t;
typedef struct {
uint8_t num; ///< connection number
uint8_t num; ///< connection number
WSclientsStatus_t status;
WSclientsStatus_t status;
WEBSOCKETS_NETWORK_CLASS * tcp;
WEBSOCKETS_NETWORK_CLASS * tcp;
bool isSocketIO; ///< client for socket.io server
bool isSocketIO; ///< client for socket.io server
#if defined(HAS_SSL)
bool isSSL; ///< run in ssl mode
WEBSOCKETS_NETWORK_SSL_CLASS * ssl;
bool isSSL; ///< run in ssl mode
WEBSOCKETS_NETWORK_SSL_CLASS * ssl;
#endif
String cUrl; ///< http url
uint16_t cCode; ///< http code
String cUrl; ///< http url
uint16_t cCode; ///< http code
bool cIsClient = false; ///< will be used for masking
bool cIsUpgrade; ///< Connection == Upgrade
bool cIsWebsocket; ///< Upgrade == websocket
bool cIsClient = false; ///< will be used for masking
bool cIsUpgrade; ///< Connection == Upgrade
bool cIsWebsocket; ///< Upgrade == websocket
String cSessionId; ///< client Set-Cookie (session id)
String cKey; ///< client Sec-WebSocket-Key
String cAccept; ///< client Sec-WebSocket-Accept
String cProtocol; ///< client Sec-WebSocket-Protocol
String cExtensions; ///< client Sec-WebSocket-Extensions
uint16_t cVersion; ///< client Sec-WebSocket-Version
String cSessionId; ///< client Set-Cookie (session id)
String cKey; ///< client Sec-WebSocket-Key
String cAccept; ///< client Sec-WebSocket-Accept
String cProtocol; ///< client Sec-WebSocket-Protocol
String cExtensions; ///< client Sec-WebSocket-Extensions
uint16_t cVersion; ///< client Sec-WebSocket-Version
uint8_t cWsRXsize; ///< State of the RX
uint8_t cWsHeader[WEBSOCKETS_MAX_HEADER_SIZE]; ///< RX WS Message buffer
WSMessageHeader_t cWsHeaderDecode;
uint8_t cWsRXsize; ///< State of the RX
uint8_t cWsHeader[WEBSOCKETS_MAX_HEADER_SIZE]; ///< RX WS Message buffer
WSMessageHeader_t cWsHeaderDecode;
String base64Authorization; ///< Base64 encoded Auth request
String plainAuthorization; ///< Base64 encoded Auth request
String base64Authorization; ///< Base64 encoded Auth request
String plainAuthorization; ///< Base64 encoded Auth request
String extraHeaders;
String extraHeaders;
bool cHttpHeadersValid; ///< non-websocket http header validity indicator
size_t cMandatoryHeadersCount; ///< non-websocket mandatory http headers present count
bool cHttpHeadersValid; ///< non-websocket http header validity indicator
size_t cMandatoryHeadersCount; ///< non-websocket mandatory http headers present count
bool pongReceived;
uint32_t pingInterval; // how often ping will be sent, 0 means "heartbeat is not active"
uint32_t lastPing; // millis when last pong has been received
uint32_t pongTimeout; // interval in millis after which pong is considered to timeout
uint8_t disconnectTimeoutCount; // after how many subsequent pong timeouts discconnect will happen, 0 means "do not disconnect"
uint8_t pongTimeoutCount; // current pong timeout count
bool pongReceived;
uint32_t pingInterval; // how often ping will be sent, 0 means "heartbeat is not active"
uint32_t lastPing; // millis when last pong has been received
uint32_t pongTimeout; // interval in millis after which pong is considered to timeout
uint8_t disconnectTimeoutCount; // after how many subsequent pong timeouts discconnect will happen, 0 means "do not disconnect"
uint8_t pongTimeoutCount; // current pong timeout count
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
String cHttpLine; ///< HTTP header lines
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
String cHttpLine; ///< HTTP header lines
#endif
} WSclient_t;
class WebSockets {
protected:
protected:
#ifdef __AVR__
typedef void (*WSreadWaitCb)(WSclient_t * client, bool ok);
typedef void (*WSreadWaitCb)(WSclient_t * client, bool ok);
#else
typedef std::function<void(WSclient_t * client, bool ok)> WSreadWaitCb;
typedef std::function<void(WSclient_t * client, bool ok)> WSreadWaitCb;
#endif
virtual void clientDisconnect(WSclient_t * client) = 0;
virtual bool clientIsConnected(WSclient_t * client) = 0;
virtual void clientDisconnect(WSclient_t * client) = 0;
virtual bool clientIsConnected(WSclient_t * client) = 0;
virtual void messageReceived(WSclient_t * client, WSopcode_t opcode, uint8_t * payload, size_t length, bool fin) = 0;
virtual void messageReceived(WSclient_t * client, WSopcode_t opcode, uint8_t * payload, size_t length, bool fin) = 0;
void clientDisconnect(WSclient_t * client, uint16_t code, char * reason = NULL, size_t reasonLen = 0);
bool sendFrame(WSclient_t * client, WSopcode_t opcode, uint8_t * payload = NULL, size_t length = 0, bool fin = true, bool headerToPayload = false);
void clientDisconnect(WSclient_t * client, uint16_t code, char * reason = NULL, size_t reasonLen = 0);
bool sendFrame(WSclient_t * client, WSopcode_t opcode, uint8_t * payload = NULL, size_t length = 0, bool fin = true, bool headerToPayload = false);
void headerDone(WSclient_t * client);
void headerDone(WSclient_t * client);
void handleWebsocket(WSclient_t * client);
void handleWebsocket(WSclient_t * client);
bool handleWebsocketWaitFor(WSclient_t * client, size_t size);
void handleWebsocketCb(WSclient_t * client);
void handleWebsocketPayloadCb(WSclient_t * client, bool ok, uint8_t * payload);
bool handleWebsocketWaitFor(WSclient_t * client, size_t size);
void handleWebsocketCb(WSclient_t * client);
void handleWebsocketPayloadCb(WSclient_t * client, bool ok, uint8_t * payload);
String acceptKey(String & clientKey);
String base64_encode(uint8_t * data, size_t length);
bool readCb(WSclient_t * client, uint8_t *out, size_t n, WSreadWaitCb cb);
virtual size_t write(WSclient_t * client, uint8_t *out, size_t n);
size_t write(WSclient_t * client, const char *out);
void enableHeartbeat(WSclient_t * client, uint32_t pingInterval, uint32_t pongTimeout, uint8_t disconnectTimeoutCount);
void handleHBTimeout(WSclient_t * client);
String acceptKey(String & clientKey);
String base64_encode(uint8_t * data, size_t length);
bool readCb(WSclient_t * client, uint8_t * out, size_t n, WSreadWaitCb cb);
virtual size_t write(WSclient_t * client, uint8_t * out, size_t n);
size_t write(WSclient_t * client, const char * out);
void enableHeartbeat(WSclient_t * client, uint32_t pingInterval, uint32_t pongTimeout, uint8_t disconnectTimeoutCount);
void handleHBTimeout(WSclient_t * client);
};
#ifndef UNUSED

258
src/WebSocketsClient.cpp
View File

@ -26,9 +26,9 @@
#include "WebSocketsClient.h"
WebSocketsClient::WebSocketsClient() {
_cbEvent = NULL;
_client.num = 0;
_client.cIsClient = true;
_cbEvent = NULL;
_client.num = 0;
_client.cIsClient = true;
_client.extraHeaders = WEBSOCKETS_STRING("Origin: file://");
}
@ -39,37 +39,37 @@ WebSocketsClient::~WebSocketsClient() {
/**
* calles to init the Websockets server
*/
void WebSocketsClient::begin(const char *host, uint16_t port, const char * url, const char * protocol) {
void WebSocketsClient::begin(const char * host, uint16_t port, const char * url, const char * protocol) {
_host = host;
_port = port;
#if defined(HAS_SSL)
_fingerprint = "";
_CA_cert = NULL;
_CA_cert = NULL;
#endif
_client.num = 0;
_client.num = 0;
_client.status = WSC_NOT_CONNECTED;
_client.tcp = NULL;
_client.tcp = NULL;
#if defined(HAS_SSL)
_client.isSSL = false;
_client.ssl = NULL;
_client.ssl = NULL;
#endif
_client.cUrl = url;
_client.cCode = 0;
_client.cIsUpgrade = false;
_client.cIsWebsocket = true;
_client.cKey = "";
_client.cAccept = "";
_client.cProtocol = protocol;
_client.cExtensions = "";
_client.cVersion = 0;
_client.cUrl = url;
_client.cCode = 0;
_client.cIsUpgrade = false;
_client.cIsWebsocket = true;
_client.cKey = "";
_client.cAccept = "";
_client.cProtocol = protocol;
_client.cExtensions = "";
_client.cVersion = 0;
_client.base64Authorization = "";
_client.plainAuthorization = "";
_client.isSocketIO = false;
_client.plainAuthorization = "";
_client.isSocketIO = false;
_client.lastPing = 0;
_client.pongReceived = false;
_client.pongTimeoutCount = 0;
_client.lastPing = 0;
_client.pongReceived = false;
_client.pongTimeoutCount = 0;
#ifdef ESP8266
randomSeed(RANDOM_REG32);
@ -77,12 +77,12 @@ void WebSocketsClient::begin(const char *host, uint16_t port, const char * url,
// todo find better seed
randomSeed(millis());
#endif
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
asyncConnect();
#endif
_lastConnectionFail = 0;
_reconnectInterval = 500;
_reconnectInterval = 500;
}
void WebSocketsClient::begin(String host, uint16_t port, String url, String protocol) {
@ -94,26 +94,26 @@ void WebSocketsClient::begin(IPAddress host, uint16_t port, const char * url, co
}
#if defined(HAS_SSL)
void WebSocketsClient::beginSSL(const char *host, uint16_t port, const char * url, const char * fingerprint, const char * protocol) {
void WebSocketsClient::beginSSL(const char * host, uint16_t port, const char * url, const char * fingerprint, const char * protocol) {
begin(host, port, url, protocol);
_client.isSSL = true;
_fingerprint = fingerprint;
_CA_cert = NULL;
_fingerprint = fingerprint;
_CA_cert = NULL;
}
void WebSocketsClient::beginSSL(String host, uint16_t port, String url, String fingerprint, String protocol) {
beginSSL(host.c_str(), port, url.c_str(), fingerprint.c_str(), protocol.c_str());
}
void WebSocketsClient::beginSslWithCA(const char *host, uint16_t port, const char * url, const char * CA_cert, const char * protocol) {
void WebSocketsClient::beginSslWithCA(const char * host, uint16_t port, const char * url, const char * CA_cert, const char * protocol) {
begin(host, port, url, protocol);
_client.isSSL = true;
_fingerprint = "";
_CA_cert = CA_cert;
_fingerprint = "";
_CA_cert = CA_cert;
}
#endif
void WebSocketsClient::beginSocketIO(const char *host, uint16_t port, const char * url, const char * protocol) {
void WebSocketsClient::beginSocketIO(const char * host, uint16_t port, const char * url, const char * protocol) {
begin(host, port, url, protocol);
_client.isSocketIO = true;
}
@ -123,27 +123,27 @@ void WebSocketsClient::beginSocketIO(String host, uint16_t port, String url, Str
}
#if defined(HAS_SSL)
void WebSocketsClient::beginSocketIOSSL(const char *host, uint16_t port, const char * url, const char * protocol) {
void WebSocketsClient::beginSocketIOSSL(const char * host, uint16_t port, const char * url, const char * protocol) {
begin(host, port, url, protocol);
_client.isSocketIO = true;
_client.isSSL = true;
_fingerprint = "";
_client.isSSL = true;
_fingerprint = "";
}
void WebSocketsClient::beginSocketIOSSL(String host, uint16_t port, String url, String protocol) {
beginSocketIOSSL(host.c_str(), port, url.c_str(), protocol.c_str());
}
void WebSocketsClient::beginSocketIOSSLWithCA(const char *host, uint16_t port, const char * url, const char * CA_cert, const char * protocol) {
void WebSocketsClient::beginSocketIOSSLWithCA(const char * host, uint16_t port, const char * url, const char * CA_cert, const char * protocol) {
begin(host, port, url, protocol);
_client.isSocketIO = true;
_client.isSSL = true;
_fingerprint = "";
_CA_cert = CA_cert;
_client.isSSL = true;
_fingerprint = "";
_CA_cert = CA_cert;
}
#endif
#if (WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
#if(WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
/**
* called in arduino loop
*/
@ -169,7 +169,7 @@ void WebSocketsClient::loop(void) {
#if defined(ESP32)
_client.ssl->setCACert(_CA_cert);
#elif defined(ESP8266)
_client.ssl->setCACert((const uint8_t *)_CA_cert, strlen(_CA_cert) + 1);
_client.ssl->setCACert((const uint8_t *)_CA_cert, strlen(_CA_cert) + 1);
#else
#error setCACert not implemented
#endif
@ -197,16 +197,14 @@ void WebSocketsClient::loop(void) {
} else {
connectFailedCb();
_lastConnectionFail = millis();
}
} else {
handleClientData();
if (_client.status == WSC_CONNECTED){
if(_client.status == WSC_CONNECTED) {
handleHBPing();
handleHBTimeout(&_client);
}
}
}
#endif
@ -229,7 +227,7 @@ void WebSocketsClient::onEvent(WebSocketClientEvent cbEvent) {
*/
bool WebSocketsClient::sendTXT(uint8_t * payload, size_t length, bool headerToPayload) {
if(length == 0) {
length = strlen((const char *) payload);
length = strlen((const char *)payload);
}
if(clientIsConnected(&_client)) {
return sendFrame(&_client, WSop_text, payload, length, true, headerToPayload);
@ -238,19 +236,19 @@ bool WebSocketsClient::sendTXT(uint8_t * payload, size_t length, bool headerToPa
}
bool WebSocketsClient::sendTXT(const uint8_t * payload, size_t length) {
return sendTXT((uint8_t *) payload, length);
return sendTXT((uint8_t *)payload, length);
}
bool WebSocketsClient::sendTXT(char * payload, size_t length, bool headerToPayload) {
return sendTXT((uint8_t *) payload, length, headerToPayload);
return sendTXT((uint8_t *)payload, length, headerToPayload);
}
bool WebSocketsClient::sendTXT(const char * payload, size_t length) {
return sendTXT((uint8_t *) payload, length);
return sendTXT((uint8_t *)payload, length);
}
bool WebSocketsClient::sendTXT(String & payload) {
return sendTXT((uint8_t *) payload.c_str(), payload.length());
return sendTXT((uint8_t *)payload.c_str(), payload.length());
}
/**
@ -269,7 +267,7 @@ bool WebSocketsClient::sendBIN(uint8_t * payload, size_t length, bool headerToPa
}
bool WebSocketsClient::sendBIN(const uint8_t * payload, size_t length) {
return sendBIN((uint8_t *) payload, length);
return sendBIN((uint8_t *)payload, length);
}
/**
@ -281,7 +279,7 @@ bool WebSocketsClient::sendBIN(const uint8_t * payload, size_t length) {
bool WebSocketsClient::sendPing(uint8_t * payload, size_t length) {
if(clientIsConnected(&_client)) {
bool sent = sendFrame(&_client, WSop_ping, payload, length);
if (sent)
if(sent)
_client.lastPing = millis();
return sent;
}
@ -289,7 +287,7 @@ bool WebSocketsClient::sendPing(uint8_t * payload, size_t length) {
}
bool WebSocketsClient::sendPing(String & payload) {
return sendPing((uint8_t *) payload.c_str(), payload.length());
return sendPing((uint8_t *)payload.c_str(), payload.length());
}
/**
@ -312,7 +310,7 @@ void WebSocketsClient::setAuthorization(const char * user, const char * password
String auth = user;
auth += ":";
auth += password;
_client.base64Authorization = base64_encode((uint8_t *) auth.c_str(), auth.length());
_client.base64Authorization = base64_encode((uint8_t *)auth.c_str(), auth.length());
}
}
@ -383,7 +381,6 @@ void WebSocketsClient::messageReceived(WSclient_t * client, WSopcode_t opcode, u
}
runCbEvent(type, payload, length);
}
/**
@ -391,10 +388,9 @@ void WebSocketsClient::messageReceived(WSclient_t * client, WSopcode_t opcode, u
* @param client WSclient_t * ptr to the client struct
*/
void WebSocketsClient::clientDisconnect(WSclient_t * client) {
bool event = false;
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
if(client->isSSL && client->ssl) {
if(client->ssl->connected()) {
client->ssl->flush();
@ -409,13 +405,13 @@ void WebSocketsClient::clientDisconnect(WSclient_t * client) {
if(client->tcp) {
if(client->tcp->connected()) {
#if (WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
#if(WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
client->tcp->flush();
#endif
client->tcp->stop();
}
event = true;
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
client->status = WSC_NOT_CONNECTED;
#else
delete client->tcp;
@ -423,13 +419,13 @@ void WebSocketsClient::clientDisconnect(WSclient_t * client) {
client->tcp = NULL;
}
client->cCode = 0;
client->cKey = "";
client->cAccept = "";
client->cVersion = 0;
client->cIsUpgrade = false;
client->cCode = 0;
client->cKey = "";
client->cAccept = "";
client->cVersion = 0;
client->cIsUpgrade = false;
client->cIsWebsocket = false;
client->cSessionId = "";
client->cSessionId = "";
client->status = WSC_NOT_CONNECTED;
@ -445,7 +441,6 @@ void WebSocketsClient::clientDisconnect(WSclient_t * client) {
* @return true = conneted
*/
bool WebSocketsClient::clientIsConnected(WSclient_t * client) {
if(!client->tcp) {
return false;
}
@ -470,7 +465,7 @@ bool WebSocketsClient::clientIsConnected(WSclient_t * client) {
return false;
}
#if (WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
#if(WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
/**
* Handel incomming data from Client
*/
@ -481,8 +476,7 @@ void WebSocketsClient::handleClientData(void) {
case WSC_HEADER: {
String headerLine = _client.tcp->readStringUntil('\n');
handleHeader(&_client, &headerLine);
}
break;
} break;
case WSC_CONNECTED:
WebSockets::handleWebsocket(&_client);
break;
@ -491,7 +485,7 @@ void WebSocketsClient::handleClientData(void) {
break;
}
}
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
delay(0);
#endif
}
@ -502,7 +496,6 @@ void WebSocketsClient::handleClientData(void) {
* @param client WSclient_t * ptr to the client struct
*/
void WebSocketsClient::sendHeader(WSclient_t * client) {
static const char * NEW_LINE = "\r\n";
DEBUG_WEBSOCKETS("[WS-Client][sendHeader] sending header...\n");
@ -521,7 +514,7 @@ void WebSocketsClient::sendHeader(WSclient_t * client) {
String handshake;
bool ws_header = true;
String url = client->cUrl;
String url = client->cUrl;
if(client->isSocketIO) {
if(client->cSessionId.length() == 0) {
@ -534,15 +527,17 @@ void WebSocketsClient::sendHeader(WSclient_t * client) {
}
handshake = WEBSOCKETS_STRING("GET ");
handshake += url + WEBSOCKETS_STRING(" HTTP/1.1\r\n"
"Host: ");
handshake += url + WEBSOCKETS_STRING(
" HTTP/1.1\r\n"
"Host: ");
handshake += _host + ":" + _port + NEW_LINE;
if(ws_header) {
handshake += WEBSOCKETS_STRING("Connection: Upgrade\r\n"
"Upgrade: websocket\r\n"
"Sec-WebSocket-Version: 13\r\n"
"Sec-WebSocket-Key: ");
handshake += WEBSOCKETS_STRING(
"Connection: Upgrade\r\n"
"Upgrade: websocket\r\n"
"Sec-WebSocket-Version: 13\r\n"
"Sec-WebSocket-Key: ");
handshake += client->cKey + NEW_LINE;
if(client->cProtocol.length() > 0) {
@ -577,15 +572,14 @@ void WebSocketsClient::sendHeader(WSclient_t * client) {
handshake += NEW_LINE;
DEBUG_WEBSOCKETS("[WS-Client][sendHeader] handshake %s", (uint8_t* )handshake.c_str());
write(client, (uint8_t*) handshake.c_str(), handshake.length());
DEBUG_WEBSOCKETS("[WS-Client][sendHeader] handshake %s", (uint8_t *)handshake.c_str());
write(client, (uint8_t *)handshake.c_str(), handshake.length());
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
client->tcp->readStringUntil('\n', &(client->cHttpLine), std::bind(&WebSocketsClient::handleHeader, this, client, &(client->cHttpLine)));
#endif
DEBUG_WEBSOCKETS("[WS-Client][sendHeader] sending header... Done (%luus).\n", (micros() - start));
}
/**
@ -593,8 +587,7 @@ void WebSocketsClient::sendHeader(WSclient_t * client) {
* @param client WSclient_t * ptr to the client struct
*/
void WebSocketsClient::handleHeader(WSclient_t * client, String * headerLine) {
headerLine->trim(); // remove \r
headerLine->trim(); // remove \r
if(headerLine->length() > 0) {
DEBUG_WEBSOCKETS("[WS-Client][handleHeader] RX: %s\n", headerLine->c_str());
@ -603,7 +596,7 @@ void WebSocketsClient::handleHeader(WSclient_t * client, String * headerLine) {
// "HTTP/1.1 101 Switching Protocols"
client->cCode = headerLine->substring(9, headerLine->indexOf(' ', 9)).toInt();
} else if(headerLine->indexOf(':') >= 0) {
String headerName = headerLine->substring(0, headerLine->indexOf(':'));
String headerName = headerLine->substring(0, headerLine->indexOf(':'));
String headerValue = headerLine->substring(headerLine->indexOf(':') + 1);
// remove space in the beginning (RFC2616)
@ -621,7 +614,7 @@ void WebSocketsClient::handleHeader(WSclient_t * client, String * headerLine) {
}
} else if(headerName.equalsIgnoreCase(WEBSOCKETS_STRING("Sec-WebSocket-Accept"))) {
client->cAccept = headerValue;
client->cAccept.trim(); // see rfc6455
client->cAccept.trim(); // see rfc6455
} else if(headerName.equalsIgnoreCase(WEBSOCKETS_STRING("Sec-WebSocket-Protocol"))) {
client->cProtocol = headerValue;
} else if(headerName.equalsIgnoreCase(WEBSOCKETS_STRING("Sec-WebSocket-Extensions"))) {
@ -640,10 +633,9 @@ void WebSocketsClient::handleHeader(WSclient_t * client, String * headerLine) {
}
(*headerLine) = "";
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
client->tcp->readStringUntil('\n', &(client->cHttpLine), std::bind(&WebSocketsClient::handleHeader, this, client, &(client->cHttpLine)));
#endif
} else {
DEBUG_WEBSOCKETS("[WS-Client][handleHeader] Header read fin.\n");
DEBUG_WEBSOCKETS("[WS-Client][handleHeader] Client settings:\n");
@ -665,16 +657,16 @@ void WebSocketsClient::handleHeader(WSclient_t * client, String * headerLine) {
if(ok) {
switch(client->cCode) {
case 101: ///< Switching Protocols
case 101: ///< Switching Protocols
break;
case 200:
if(client->isSocketIO) {
break;
}
case 403: ///< Forbidden
case 403: ///< Forbidden
// todo handle login
default: ///< Server dont unterstand requrst
default: ///< Server dont unterstand requrst
ok = false;
DEBUG_WEBSOCKETS("[WS-Client][handleHeader] serverCode is not 101 (%d)\n", client->cCode);
clientDisconnect(client);
@ -684,7 +676,6 @@ void WebSocketsClient::handleHeader(WSclient_t * client, String * headerLine) {
}
if(ok) {
if(client->cAccept.length() == 0) {
ok = false;
} else {
@ -698,12 +689,10 @@ void WebSocketsClient::handleHeader(WSclient_t * client, String * headerLine) {
}
if(ok) {
DEBUG_WEBSOCKETS("[WS-Client][handleHeader] Websocket connection init done.\n");
headerDone(client);
runCbEvent(WStype_CONNECTED, (uint8_t *) client->cUrl.c_str(), client->cUrl.length());
runCbEvent(WStype_CONNECTED, (uint8_t *)client->cUrl.c_str(), client->cUrl.length());
} else if(clientIsConnected(client) && client->isSocketIO && client->cSessionId.length() > 0) {
sendHeader(client);
} else {
@ -718,30 +707,30 @@ void WebSocketsClient::handleHeader(WSclient_t * client, String * headerLine) {
}
void WebSocketsClient::connectedCb() {
DEBUG_WEBSOCKETS("[WS-Client] connected to %s:%u.\n", _host.c_str(), _port);
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
_client.tcp->onDisconnect(std::bind([](WebSocketsClient * c, AsyncTCPbuffer * obj, WSclient_t * client) -> bool {
DEBUG_WEBSOCKETS("[WS-Server][%d] Disconnect client\n", client->num);
client->status = WSC_NOT_CONNECTED;
client->tcp = NULL;
DEBUG_WEBSOCKETS("[WS-Server][%d] Disconnect client\n", client->num);
client->status = WSC_NOT_CONNECTED;
client->tcp = NULL;
// reconnect
c->asyncConnect();
// reconnect
c->asyncConnect();
return true;
}, this, std::placeholders::_1, &_client));
return true;
},
this, std::placeholders::_1, &_client));
#endif
_client.status = WSC_HEADER;
#if (WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
#if(WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
// set Timeout for readBytesUntil and readStringUntil
_client.tcp->setTimeout(WEBSOCKETS_TCP_TIMEOUT);
#endif
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
_client.tcp->setNoDelay(true);
#endif
@ -761,17 +750,15 @@ void WebSocketsClient::connectedCb() {
// send Header to Server
sendHeader(&_client);
}
void WebSocketsClient::connectFailedCb() {
DEBUG_WEBSOCKETS("[WS-Client] connection to %s:%u Failed\n", _host.c_str(), _port);
}
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
void WebSocketsClient::asyncConnect() {
DEBUG_WEBSOCKETS("[WS-Client] asyncConnect...\n");
AsyncClient * tcpclient = new AsyncClient();
@ -781,51 +768,52 @@ void WebSocketsClient::asyncConnect() {
return;
}
tcpclient->onDisconnect([](void *obj, AsyncClient* c) {
c->free();
delete c;
});
tcpclient->onDisconnect([](void * obj, AsyncClient * c) {
c->free();
delete c;
});
tcpclient->onConnect(std::bind([](WebSocketsClient * ws , AsyncClient * tcp) {
ws->_client.tcp = new AsyncTCPbuffer(tcp);
if(!ws->_client.tcp) {
DEBUG_WEBSOCKETS("[WS-Client] creating Network class failed!\n");
ws->connectFailedCb();
return;
}
ws->connectedCb();
}, this, std::placeholders::_2));
tcpclient->onConnect(std::bind([](WebSocketsClient * ws, AsyncClient * tcp) {
ws->_client.tcp = new AsyncTCPbuffer(tcp);
if(!ws->_client.tcp) {
DEBUG_WEBSOCKETS("[WS-Client] creating Network class failed!\n");
ws->connectFailedCb();
return;
}
ws->connectedCb();
},
this, std::placeholders::_2));
tcpclient->onError(std::bind([](WebSocketsClient * ws , AsyncClient * tcp) {
ws->connectFailedCb();
tcpclient->onError(std::bind([](WebSocketsClient * ws, AsyncClient * tcp) {
ws->connectFailedCb();
// reconnect
ws->asyncConnect();
}, this, std::placeholders::_2));
// reconnect
ws->asyncConnect();
},
this, std::placeholders::_2));
if(!tcpclient->connect(_host.c_str(), _port)) {
connectFailedCb();
delete tcpclient;
}
}
#endif
/**
* send heartbeat ping to server in set intervals
*/
void WebSocketsClient::handleHBPing(){
if (_client.pingInterval == 0) return;
*/
void WebSocketsClient::handleHBPing() {
if(_client.pingInterval == 0)
return;
uint32_t pi = millis() - _client.lastPing;
if (pi > _client.pingInterval){
if(pi > _client.pingInterval) {
DEBUG_WEBSOCKETS("[WS-Client] sending HB ping\n");
if (sendPing()) {
_client.lastPing = millis();
if(sendPing()) {
_client.lastPing = millis();
_client.pongReceived = false;
}
}
}
/**
@ -834,13 +822,13 @@ void WebSocketsClient::handleHBPing(){
* @param pongTimeout uint32_t millis after which pong should timout if not received
* @param disconnectTimeoutCount uint8_t how many timeouts before disconnect, 0=> do not disconnect
*/
void WebSocketsClient::enableHeartbeat(uint32_t pingInterval, uint32_t pongTimeout, uint8_t disconnectTimeoutCount){
void WebSocketsClient::enableHeartbeat(uint32_t pingInterval, uint32_t pongTimeout, uint8_t disconnectTimeoutCount) {
WebSockets::enableHeartbeat(&_client, pingInterval, pongTimeout, disconnectTimeoutCount);
}
/**
* disable ping/pong heartbeat process
*/
void WebSocketsClient::disableHeartbeat(){
void WebSocketsClient::disableHeartbeat() {
_client.pingInterval = 0;
}

132
src/WebSocketsClient.h
View File

@ -27,118 +27,116 @@
#include "WebSockets.h"
class WebSocketsClient: private WebSockets {
public:
class WebSocketsClient : private WebSockets {
public:
#ifdef __AVR__
typedef void (*WebSocketClientEvent)(WStype_t type, uint8_t * payload, size_t length);
typedef void (*WebSocketClientEvent)(WStype_t type, uint8_t * payload, size_t length);
#else
typedef std::function<void (WStype_t type, uint8_t * payload, size_t length)> WebSocketClientEvent;
typedef std::function<void(WStype_t type, uint8_t * payload, size_t length)> WebSocketClientEvent;
#endif
WebSocketsClient(void);
virtual ~WebSocketsClient(void);
WebSocketsClient(void);
virtual ~WebSocketsClient(void);
void begin(const char *host, uint16_t port, const char * url = "/", const char * protocol = "arduino");
void begin(String host, uint16_t port, String url = "/", String protocol = "arduino");
void begin(IPAddress host, uint16_t port, const char * url = "/", const char * protocol = "arduino");
void begin(const char * host, uint16_t port, const char * url = "/", const char * protocol = "arduino");
void begin(String host, uint16_t port, String url = "/", String protocol = "arduino");
void begin(IPAddress host, uint16_t port, const char * url = "/", const char * protocol = "arduino");
#if defined(HAS_SSL)
void beginSSL(const char *host, uint16_t port, const char * url = "/", const char * = "", const char * protocol = "arduino");
void beginSSL(String host, uint16_t port, String url = "/", String fingerprint = "", String protocol = "arduino");
void beginSslWithCA(const char *host, uint16_t port, const char * url = "/", const char * CA_cert = NULL, const char * protocol = "arduino");
void beginSSL(const char * host, uint16_t port, const char * url = "/", const char * = "", const char * protocol = "arduino");
void beginSSL(String host, uint16_t port, String url = "/", String fingerprint = "", String protocol = "arduino");
void beginSslWithCA(const char * host, uint16_t port, const char * url = "/", const char * CA_cert = NULL, const char * protocol = "arduino");
#endif
void beginSocketIO(const char *host, uint16_t port, const char * url = "/socket.io/?EIO=3", const char * protocol = "arduino");
void beginSocketIO(String host, uint16_t port, String url = "/socket.io/?EIO=3", String protocol = "arduino");
void beginSocketIO(const char * host, uint16_t port, const char * url = "/socket.io/?EIO=3", const char * protocol = "arduino");
void beginSocketIO(String host, uint16_t port, String url = "/socket.io/?EIO=3", String protocol = "arduino");
#if defined(HAS_SSL)
void beginSocketIOSSL(const char *host, uint16_t port, const char * url = "/socket.io/?EIO=3", const char * protocol = "arduino");
void beginSocketIOSSL(String host, uint16_t port, String url = "/socket.io/?EIO=3", String protocol = "arduino");
void beginSocketIOSSLWithCA(const char *host, uint16_t port, const char * url = "/socket.io/?EIO=3", const char * CA_cert = NULL, const char * protocol = "arduino");
void beginSocketIOSSL(const char * host, uint16_t port, const char * url = "/socket.io/?EIO=3", const char * protocol = "arduino");
void beginSocketIOSSL(String host, uint16_t port, String url = "/socket.io/?EIO=3", String protocol = "arduino");
void beginSocketIOSSLWithCA(const char * host, uint16_t port, const char * url = "/socket.io/?EIO=3", const char * CA_cert = NULL, const char * protocol = "arduino");
#endif
#if (WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
void loop(void);
#if(WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
void loop(void);
#else
// Async interface not need a loop call
void loop(void) __attribute__ ((deprecated)) {}
// Async interface not need a loop call
void loop(void) __attribute__((deprecated)) {}
#endif
void onEvent(WebSocketClientEvent cbEvent);
void onEvent(WebSocketClientEvent cbEvent);
bool sendTXT(uint8_t * payload, size_t length = 0, bool headerToPayload = false);
bool sendTXT(const uint8_t * payload, size_t length = 0);
bool sendTXT(char * payload, size_t length = 0, bool headerToPayload = false);
bool sendTXT(const char * payload, size_t length = 0);
bool sendTXT(String & payload);
bool sendTXT(uint8_t * payload, size_t length = 0, bool headerToPayload = false);
bool sendTXT(const uint8_t * payload, size_t length = 0);
bool sendTXT(char * payload, size_t length = 0, bool headerToPayload = false);
bool sendTXT(const char * payload, size_t length = 0);
bool sendTXT(String & payload);
bool sendBIN(uint8_t * payload, size_t length, bool headerToPayload = false);
bool sendBIN(const uint8_t * payload, size_t length);
bool sendBIN(uint8_t * payload, size_t length, bool headerToPayload = false);
bool sendBIN(const uint8_t * payload, size_t length);
bool sendPing(uint8_t * payload = NULL, size_t length = 0);
bool sendPing(String & payload);
bool sendPing(uint8_t * payload = NULL, size_t length = 0);
bool sendPing(String & payload);
void disconnect(void);
void disconnect(void);
void setAuthorization(const char * user, const char * password);
void setAuthorization(const char * auth);
void setExtraHeaders(const char * extraHeaders = NULL);
void setAuthorization(const char * user, const char * password);
void setAuthorization(const char * auth);
void setReconnectInterval(unsigned long time);
void setExtraHeaders(const char * extraHeaders = NULL);
void enableHeartbeat(uint32_t pingInterval, uint32_t pongTimeout, uint8_t disconnectTimeoutCount);
void disableHeartbeat();
void setReconnectInterval(unsigned long time);
protected:
String _host;
uint16_t _port;
void enableHeartbeat(uint32_t pingInterval, uint32_t pongTimeout, uint8_t disconnectTimeoutCount);
void disableHeartbeat();
protected:
String _host;
uint16_t _port;
#if defined(HAS_SSL)
String _fingerprint;
const char *_CA_cert;
String _fingerprint;
const char * _CA_cert;
#endif
WSclient_t _client;
WSclient_t _client;
WebSocketClientEvent _cbEvent;
WebSocketClientEvent _cbEvent;
unsigned long _lastConnectionFail;
unsigned long _reconnectInterval;
unsigned long _lastConnectionFail;
unsigned long _reconnectInterval;
void messageReceived(WSclient_t * client, WSopcode_t opcode, uint8_t * payload, size_t length, bool fin);
void messageReceived(WSclient_t * client, WSopcode_t opcode, uint8_t * payload, size_t length, bool fin);
void clientDisconnect(WSclient_t * client);
bool clientIsConnected(WSclient_t * client);
void clientDisconnect(WSclient_t * client);
bool clientIsConnected(WSclient_t * client);
#if (WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
void handleClientData(void);
#if(WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
void handleClientData(void);
#endif
void sendHeader(WSclient_t * client);
void handleHeader(WSclient_t * client, String * headerLine);
void sendHeader(WSclient_t * client);
void handleHeader(WSclient_t * client, String * headerLine);
void connectedCb();
void connectFailedCb();
void connectedCb();
void connectFailedCb();
void handleHBPing(); // send ping in specified intervals
void handleHBPing(); // send ping in specified intervals
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
void asyncConnect();
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
void asyncConnect();
#endif
/**
/**
* called for sending a Event to the app
* @param type WStype_t
* @param payload uint8_t *
* @param length size_t
*/
virtual void runCbEvent(WStype_t type, uint8_t * payload, size_t length) {
if(_cbEvent) {
_cbEvent(type, payload, length);
}
virtual void runCbEvent(WStype_t type, uint8_t * payload, size_t length) {
if(_cbEvent) {
_cbEvent(type, payload, length);
}
}
};
#endif /* WEBSOCKETSCLIENT_H_ */

377
src/WebSocketsServer.cpp
View File

@ -26,34 +26,34 @@
#include "WebSocketsServer.h"
WebSocketsServer::WebSocketsServer(uint16_t port, String origin, String protocol) {
_port = port;
_origin = origin;
_port = port;
_origin = origin;
_protocol = protocol;
_runnning = false;
_server = new WEBSOCKETS_NETWORK_SERVER_CLASS(port);
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
_server->onClient([](void *s, AsyncClient* c){
((WebSocketsServer*)s)->newClient(new AsyncTCPbuffer(c));
}, this);
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
_server->onClient([](void * s, AsyncClient * c) {
((WebSocketsServer *)s)->newClient(new AsyncTCPbuffer(c));
},
this);
#endif
_cbEvent = NULL;
_httpHeaderValidationFunc = NULL;
_mandatoryHttpHeaders = NULL;
_mandatoryHttpHeaders = NULL;
_mandatoryHttpHeaderCount = 0;
memset(&_clients[0], 0x00, (sizeof(WSclient_t) * WEBSOCKETS_SERVER_CLIENT_MAX));
}
WebSocketsServer::~WebSocketsServer() {
// disconnect all clients
close();
close();
if (_mandatoryHttpHeaders)
if(_mandatoryHttpHeaders)
delete[] _mandatoryHttpHeaders;
_mandatoryHttpHeaderCount = 0;
@ -69,26 +69,26 @@ void WebSocketsServer::begin(void) {
for(uint8_t i = 0; i < WEBSOCKETS_SERVER_CLIENT_MAX; i++) {
client = &_clients[i];
client->num = i;
client->num = i;
client->status = WSC_NOT_CONNECTED;
client->tcp = NULL;
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
client->tcp = NULL;
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
client->isSSL = false;
client->ssl = NULL;
client->ssl = NULL;
#endif
client->cUrl = "";
client->cCode = 0;
client->cKey = "";
client->cProtocol = "";
client->cVersion = 0;
client->cIsUpgrade = false;
client->cUrl = "";
client->cCode = 0;
client->cKey = "";
client->cProtocol = "";
client->cVersion = 0;
client->cIsUpgrade = false;
client->cIsWebsocket = false;
client->base64Authorization = "";
client->cWsRXsize = 0;
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
client->cHttpLine = "";
#endif
}
@ -96,7 +96,7 @@ void WebSocketsServer::begin(void) {
#ifdef ESP8266
randomSeed(RANDOM_REG32);
#elif defined(ESP32)
#define DR_REG_RNG_BASE 0x3ff75144
#define DR_REG_RNG_BASE 0x3ff75144
randomSeed(READ_PERI_REG(DR_REG_RNG_BASE));
#else
// TODO find better seed
@ -110,28 +110,27 @@ void WebSocketsServer::begin(void) {
}
void WebSocketsServer::close(void) {
_runnning = false;
disconnect();
_runnning = false;
disconnect();
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266)
_server->close();
#elif (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
#elif(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
_server->end();
#else
// TODO how to close server?
#endif
}
#if (WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
#if(WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
/**
* called in arduino loop
*/
void WebSocketsServer::loop(void) {
if(_runnning) {
handleNewClients();
handleClientData();
}
if(_runnning) {
handleNewClients();
handleClientData();
}
}
#endif
@ -150,21 +149,20 @@ void WebSocketsServer::onEvent(WebSocketServerEvent cbEvent) {
* @param mandatoryHttpHeaderCount size_t ///< the number of items in the mandatoryHttpHeaders array
*/
void WebSocketsServer::onValidateHttpHeader(
WebSocketServerHttpHeaderValFunc validationFunc,
const char* mandatoryHttpHeaders[],
size_t mandatoryHttpHeaderCount)
{
_httpHeaderValidationFunc = validationFunc;
WebSocketServerHttpHeaderValFunc validationFunc,
const char * mandatoryHttpHeaders[],
size_t mandatoryHttpHeaderCount) {
_httpHeaderValidationFunc = validationFunc;
if (_mandatoryHttpHeaders)
delete[] _mandatoryHttpHeaders;
if(_mandatoryHttpHeaders)
delete[] _mandatoryHttpHeaders;
_mandatoryHttpHeaderCount = mandatoryHttpHeaderCount;
_mandatoryHttpHeaders = new String[_mandatoryHttpHeaderCount];
_mandatoryHttpHeaderCount = mandatoryHttpHeaderCount;
_mandatoryHttpHeaders = new String[_mandatoryHttpHeaderCount];
for (size_t i = 0; i < _mandatoryHttpHeaderCount; i++) {
_mandatoryHttpHeaders[i] = mandatoryHttpHeaders[i];
}
for(size_t i = 0; i < _mandatoryHttpHeaderCount; i++) {
_mandatoryHttpHeaders[i] = mandatoryHttpHeaders[i];
}
}
/*
@ -180,7 +178,7 @@ bool WebSocketsServer::sendTXT(uint8_t num, uint8_t * payload, size_t length, bo
return false;
}
if(length == 0) {
length = strlen((const char *) payload);
length = strlen((const char *)payload);
}
WSclient_t * client = &_clients[num];
if(clientIsConnected(client)) {
@ -190,19 +188,19 @@ bool WebSocketsServer::sendTXT(uint8_t num, uint8_t * payload, size_t length, bo
}
bool WebSocketsServer::sendTXT(uint8_t num, const uint8_t * payload, size_t length) {
return sendTXT(num, (uint8_t *) payload, length);
return sendTXT(num, (uint8_t *)payload, length);
}
bool WebSocketsServer::sendTXT(uint8_t num, char * payload, size_t length, bool headerToPayload) {
return sendTXT(num, (uint8_t *) payload, length, headerToPayload);
return sendTXT(num, (uint8_t *)payload, length, headerToPayload);
}
bool WebSocketsServer::sendTXT(uint8_t num, const char * payload, size_t length) {
return sendTXT(num, (uint8_t *) payload, length);
return sendTXT(num, (uint8_t *)payload, length);
}
bool WebSocketsServer::sendTXT(uint8_t num, String & payload) {
return sendTXT(num, (uint8_t *) payload.c_str(), payload.length());
return sendTXT(num, (uint8_t *)payload.c_str(), payload.length());
}
/**
@ -216,7 +214,7 @@ bool WebSocketsServer::broadcastTXT(uint8_t * payload, size_t length, bool heade
WSclient_t * client;
bool ret = true;
if(length == 0) {
length = strlen((const char *) payload);
length = strlen((const char *)payload);
}
for(uint8_t i = 0; i < WEBSOCKETS_SERVER_CLIENT_MAX; i++) {
@ -226,7 +224,7 @@ bool WebSocketsServer::broadcastTXT(uint8_t * payload, size_t length, bool heade
ret = false;
}
}
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266)
delay(0);
#endif
}
@ -234,19 +232,19 @@ bool WebSocketsServer::broadcastTXT(uint8_t * payload, size_t length, bool heade
}
bool WebSocketsServer::broadcastTXT(const uint8_t * payload, size_t length) {
return broadcastTXT((uint8_t *) payload, length);
return broadcastTXT((uint8_t *)payload, length);
}
bool WebSocketsServer::broadcastTXT(char * payload, size_t length, bool headerToPayload) {
return broadcastTXT((uint8_t *) payload, length, headerToPayload);
return broadcastTXT((uint8_t *)payload, length, headerToPayload);
}
bool WebSocketsServer::broadcastTXT(const char * payload, size_t length) {
return broadcastTXT((uint8_t *) payload, length);
return broadcastTXT((uint8_t *)payload, length);
}
bool WebSocketsServer::broadcastTXT(String & payload) {
return broadcastTXT((uint8_t *) payload.c_str(), payload.length());
return broadcastTXT((uint8_t *)payload.c_str(), payload.length());
}
/**
@ -269,7 +267,7 @@ bool WebSocketsServer::sendBIN(uint8_t num, uint8_t * payload, size_t length, bo
}
bool WebSocketsServer::sendBIN(uint8_t num, const uint8_t * payload, size_t length) {
return sendBIN(num, (uint8_t *) payload, length);
return sendBIN(num, (uint8_t *)payload, length);
}
/**
@ -289,7 +287,7 @@ bool WebSocketsServer::broadcastBIN(uint8_t * payload, size_t length, bool heade
ret = false;
}
}
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266)
delay(0);
#endif
}
@ -297,10 +295,9 @@ bool WebSocketsServer::broadcastBIN(uint8_t * payload, size_t length, bool heade
}
bool WebSocketsServer::broadcastBIN(const uint8_t * payload, size_t length) {
return broadcastBIN((uint8_t *) payload, length);
return broadcastBIN((uint8_t *)payload, length);
}
/**
* sends a WS ping to Client
* @param num uint8_t client id
@ -320,7 +317,7 @@ bool WebSocketsServer::sendPing(uint8_t num, uint8_t * payload, size_t length) {
}
bool WebSocketsServer::sendPing(uint8_t num, String & payload) {
return sendPing(num, (uint8_t *) payload.c_str(), payload.length());
return sendPing(num, (uint8_t *)payload.c_str(), payload.length());
}
/**
@ -339,7 +336,7 @@ bool WebSocketsServer::broadcastPing(uint8_t * payload, size_t length) {
ret = false;
}
}
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266)
delay(0);
#endif
}
@ -347,10 +344,9 @@ bool WebSocketsServer::broadcastPing(uint8_t * payload, size_t length) {
}
bool WebSocketsServer::broadcastPing(String & payload) {
return broadcastPing((uint8_t *) payload.c_str(), payload.length());
return broadcastPing((uint8_t *)payload.c_str(), payload.length());
}
/**
* disconnect all clients
*/
@ -378,7 +374,6 @@ void WebSocketsServer::disconnect(uint8_t num) {
}
}
/*
* set the Authorization for the http request
* @param user const char *
@ -410,18 +405,18 @@ void WebSocketsServer::setAuthorization(const char * auth) {
int WebSocketsServer::connectedClients(bool ping) {
WSclient_t * client;
int count = 0;
for(uint8_t i = 0; i < WEBSOCKETS_SERVER_CLIENT_MAX; i++) {
client = &_clients[i];
if(client->status == WSC_CONNECTED) {
if(ping != true || sendPing(i)) {
count++;
}
}
}
for(uint8_t i = 0; i < WEBSOCKETS_SERVER_CLIENT_MAX; i++) {
client = &_clients[i];
if(client->status == WSC_CONNECTED) {
if(ping != true || sendPing(i)) {
count++;
}
}
}
return count;
}
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
/**
* get an IP for a client
* @param num uint8_t client id
@ -455,38 +450,36 @@ bool WebSocketsServer::newClient(WEBSOCKETS_NETWORK_CLASS * TCPclient) {
// state is not connected or tcp connection is lost
if(!clientIsConnected(client)) {
client->tcp = TCPclient;
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
client->isSSL = false;
client->tcp->setNoDelay(true);
#endif
#if (WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
#if(WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
// set Timeout for readBytesUntil and readStringUntil
client->tcp->setTimeout(WEBSOCKETS_TCP_TIMEOUT);
#endif
client->status = WSC_HEADER;
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
IPAddress ip = client->tcp->remoteIP();
DEBUG_WEBSOCKETS("[WS-Server][%d] new client from %d.%d.%d.%d\n", client->num, ip[0], ip[1], ip[2], ip[3]);
#else
DEBUG_WEBSOCKETS("[WS-Server][%d] new client\n", client->num);
#endif
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
client->tcp->onDisconnect(std::bind([](WebSocketsServer * server, AsyncTCPbuffer * obj, WSclient_t * client) -> bool {
DEBUG_WEBSOCKETS("[WS-Server][%d] Disconnect client\n", client->num);
AsyncTCPbuffer ** sl = &server->_clients[client->num].tcp;
if(*sl == obj) {
client->status = WSC_NOT_CONNECTED;
*sl = NULL;
*sl = NULL;
}
return true;
}, this, std::placeholders::_1, client));
},
this, std::placeholders::_1, client));
client->tcp->readStringUntil('\n', &(client->cHttpLine), std::bind(&WebSocketsServer::handleHeader, this, client, &(client->cHttpLine)));
#endif
@ -530,7 +523,6 @@ void WebSocketsServer::messageReceived(WSclient_t * client, WSopcode_t opcode, u
}
runCbEvent(client->num, type, payload, length);
}
/**
@ -538,9 +530,7 @@ void WebSocketsServer::messageReceived(WSclient_t * client, WSopcode_t opcode, u
* @param client WSclient_t * ptr to the client struct
*/
void WebSocketsServer::clientDisconnect(WSclient_t * client) {
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
if(client->isSSL && client->ssl) {
if(client->ssl->connected()) {
client->ssl->flush();
@ -554,12 +544,12 @@ void WebSocketsServer::clientDisconnect(WSclient_t * client) {
if(client->tcp) {
if(client->tcp->connected()) {
#if (WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
#if(WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
client->tcp->flush();
#endif
client->tcp->stop();
}
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
client->status = WSC_NOT_CONNECTED;
#else
delete client->tcp;
@ -567,16 +557,16 @@ void WebSocketsServer::clientDisconnect(WSclient_t * client) {
client->tcp = NULL;
}
client->cUrl = "";
client->cKey = "";
client->cProtocol = "";
client->cVersion = 0;
client->cIsUpgrade = false;
client->cUrl = "";
client->cKey = "";
client->cProtocol = "";
client->cVersion = 0;
client->cIsUpgrade = false;
client->cIsWebsocket = false;
client->cWsRXsize = 0;
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
client->cHttpLine = "";
#endif
@ -585,7 +575,6 @@ void WebSocketsServer::clientDisconnect(WSclient_t * client) {
DEBUG_WEBSOCKETS("[WS-Server][%d] client disconnected.\n", client->num);
runCbEvent(client->num, WStype_DISCONNECTED, NULL, 0);
}
/**
@ -594,7 +583,6 @@ void WebSocketsServer::clientDisconnect(WSclient_t * client) {
* @return true = connected
*/
bool WebSocketsServer::clientIsConnected(WSclient_t * client) {
if(!client->tcp) {
return false;
}
@ -620,22 +608,21 @@ bool WebSocketsServer::clientIsConnected(WSclient_t * client) {
return false;
}
#if (WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
#if(WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
/**
* Handle incoming Connection Request
*/
void WebSocketsServer::handleNewClients(void) {
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
while(_server->hasClient()) {
#endif
bool ok = false;
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
// store new connection
WEBSOCKETS_NETWORK_CLASS * tcpClient = new WEBSOCKETS_NETWORK_CLASS(_server->available());
#else
WEBSOCKETS_NETWORK_CLASS * tcpClient = new WEBSOCKETS_NETWORK_CLASS(_server->available());
WEBSOCKETS_NETWORK_CLASS * tcpClient = new WEBSOCKETS_NETWORK_CLASS(_server->available());
#endif
if(!tcpClient) {
@ -647,28 +634,25 @@ void WebSocketsServer::handleNewClients(void) {
if(!ok) {
// no free space to handle client
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
IPAddress ip = tcpClient->remoteIP();
DEBUG_WEBSOCKETS("[WS-Server] no free space new client from %d.%d.%d.%d\n", ip[0], ip[1], ip[2], ip[3]);
#else
DEBUG_WEBSOCKETS("[WS-Server] no free space new client\n");
DEBUG_WEBSOCKETS("[WS-Server] no free space new client\n");
#endif
tcpClient->stop();
}
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
delay(0);
}
#endif
}
/**
* Handel incomming data from Client
*/
void WebSocketsServer::handleClientData(void) {
WSclient_t * client;
for(uint8_t i = 0; i < WEBSOCKETS_SERVER_CLIENT_MAX; i++) {
client = &_clients[i];
@ -677,12 +661,10 @@ void WebSocketsServer::handleClientData(void) {
if(len > 0) {
//DEBUG_WEBSOCKETS("[WS-Server][%d][handleClientData] len: %d\n", client->num, len);
switch(client->status) {
case WSC_HEADER:
{
case WSC_HEADER: {
String headerLine = client->tcp->readStringUntil('\n');
handleHeader(client, &headerLine);
}
break;
} break;
case WSC_CONNECTED:
WebSockets::handleWebsocket(client);
break;
@ -692,7 +674,7 @@ void WebSocketsServer::handleClientData(void) {
}
}
}
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266)
delay(0);
#endif
}
@ -704,84 +686,80 @@ void WebSocketsServer::handleClientData(void) {
* @param headerName String ///< the name of the header being checked
*/
bool WebSocketsServer::hasMandatoryHeader(String headerName) {
for (size_t i = 0; i < _mandatoryHttpHeaderCount; i++) {
if (_mandatoryHttpHeaders[i].equalsIgnoreCase(headerName))
return true;
}
return false;
for(size_t i = 0; i < _mandatoryHttpHeaderCount; i++) {
if(_mandatoryHttpHeaders[i].equalsIgnoreCase(headerName))
return true;
}
return false;
}
/**
* handles http header reading for WebSocket upgrade
* @param client WSclient_t * ///< pointer to the client struct
* @param headerLine String ///< the header being read / processed
*/
void WebSocketsServer::handleHeader(WSclient_t * client, String * headerLine) {
static const char * NEW_LINE = "\r\n";
static const char * NEW_LINE = "\r\n";
headerLine->trim(); // remove \r
headerLine->trim(); // remove \r
if(headerLine->length() > 0) {
DEBUG_WEBSOCKETS("[WS-Server][%d][handleHeader] RX: %s\n", client->num, headerLine->c_str());
if(headerLine->length() > 0) {
DEBUG_WEBSOCKETS("[WS-Server][%d][handleHeader] RX: %s\n", client->num, headerLine->c_str());
// websocket requests always start with GET see rfc6455
if(headerLine->startsWith("GET ")) {
// cut URL out
client->cUrl = headerLine->substring(4, headerLine->indexOf(' ', 4));
// websocket requests always start with GET see rfc6455
if(headerLine->startsWith("GET ")) {
//reset non-websocket http header validation state for this client
client->cHttpHeadersValid = true;
client->cMandatoryHeadersCount = 0;
// cut URL out
client->cUrl = headerLine->substring(4, headerLine->indexOf(' ', 4));
} else if(headerLine->indexOf(':') >= 0) {
String headerName = headerLine->substring(0, headerLine->indexOf(':'));
String headerValue = headerLine->substring(headerLine->indexOf(':') + 1);
//reset non-websocket http header validation state for this client
client->cHttpHeadersValid = true;
client->cMandatoryHeadersCount = 0;
// remove space in the beginning (RFC2616)
if(headerValue[0] == ' ') {
headerValue.remove(0, 1);
}
} else if(headerLine->indexOf(':') >= 0) {
String headerName = headerLine->substring(0, headerLine->indexOf(':'));
String headerValue = headerLine->substring(headerLine->indexOf(':') + 1);
if(headerName.equalsIgnoreCase(WEBSOCKETS_STRING("Connection"))) {
headerValue.toLowerCase();
if(headerValue.indexOf(WEBSOCKETS_STRING("upgrade")) >= 0) {
client->cIsUpgrade = true;
}
} else if(headerName.equalsIgnoreCase(WEBSOCKETS_STRING("Upgrade"))) {
if(headerValue.equalsIgnoreCase(WEBSOCKETS_STRING("websocket"))) {
client->cIsWebsocket = true;
}
} else if(headerName.equalsIgnoreCase(WEBSOCKETS_STRING("Sec-WebSocket-Version"))) {
client->cVersion = headerValue.toInt();
} else if(headerName.equalsIgnoreCase(WEBSOCKETS_STRING("Sec-WebSocket-Key"))) {
client->cKey = headerValue;
client->cKey.trim(); // see rfc6455
} else if(headerName.equalsIgnoreCase(WEBSOCKETS_STRING("Sec-WebSocket-Protocol"))) {
client->cProtocol = headerValue;
} else if(headerName.equalsIgnoreCase(WEBSOCKETS_STRING("Sec-WebSocket-Extensions"))) {
client->cExtensions = headerValue;
} else if(headerName.equalsIgnoreCase(WEBSOCKETS_STRING("Authorization"))) {
client->base64Authorization = headerValue;
} else {
client->cHttpHeadersValid &= execHttpHeaderValidation(headerName, headerValue);
if(_mandatoryHttpHeaderCount > 0 && hasMandatoryHeader(headerName)) {
client->cMandatoryHeadersCount++;
}
}
// remove space in the beginning (RFC2616)
if(headerValue[0] == ' ') {
headerValue.remove(0, 1);
}
if(headerName.equalsIgnoreCase(WEBSOCKETS_STRING("Connection"))) {
headerValue.toLowerCase();
if(headerValue.indexOf(WEBSOCKETS_STRING("upgrade")) >= 0) {
client->cIsUpgrade = true;
}
} else if(headerName.equalsIgnoreCase(WEBSOCKETS_STRING("Upgrade"))) {
if(headerValue.equalsIgnoreCase(WEBSOCKETS_STRING("websocket"))) {
client->cIsWebsocket = true;
}
} else if(headerName.equalsIgnoreCase(WEBSOCKETS_STRING("Sec-WebSocket-Version"))) {
client->cVersion = headerValue.toInt();
} else if(headerName.equalsIgnoreCase(WEBSOCKETS_STRING("Sec-WebSocket-Key"))) {
client->cKey = headerValue;
client->cKey.trim(); // see rfc6455
} else if(headerName.equalsIgnoreCase(WEBSOCKETS_STRING("Sec-WebSocket-Protocol"))) {
client->cProtocol = headerValue;
} else if(headerName.equalsIgnoreCase(WEBSOCKETS_STRING("Sec-WebSocket-Extensions"))) {
client->cExtensions = headerValue;
} else if(headerName.equalsIgnoreCase(WEBSOCKETS_STRING("Authorization"))) {
client->base64Authorization = headerValue;
} else {
client->cHttpHeadersValid &= execHttpHeaderValidation(headerName, headerValue);
if(_mandatoryHttpHeaderCount > 0 && hasMandatoryHeader(headerName)) {
client->cMandatoryHeadersCount++;
}
}
} else {
DEBUG_WEBSOCKETS("[WS-Client][handleHeader] Header error (%s)\n", headerLine->c_str());
}
} else {
DEBUG_WEBSOCKETS("[WS-Client][handleHeader] Header error (%s)\n", headerLine->c_str());
}
(*headerLine) = "";
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC)
client->tcp->readStringUntil('\n', &(client->cHttpLine), std::bind(&WebSocketsServer::handleHeader, this, client, &(client->cHttpLine)));
#endif
} else {
DEBUG_WEBSOCKETS("[WS-Server][%d][handleHeader] Header read fin.\n", client->num);
DEBUG_WEBSOCKETS("[WS-Server][%d][handleHeader] - cURL: %s\n", client->num, client->cUrl.c_str());
DEBUG_WEBSOCKETS("[WS-Server][%d][handleHeader] - cIsUpgrade: %d\n", client->num, client->cIsUpgrade);
@ -796,36 +774,35 @@ void WebSocketsServer::handleHeader(WSclient_t * client, String * headerLine) {
bool ok = (client->cIsUpgrade && client->cIsWebsocket);
if(ok) {
if(client->cUrl.length() == 0) {
ok = false;
}
if(client->cKey.length() == 0) {
if(ok) {
if(client->cUrl.length() == 0) {
ok = false;
}
if(client->cKey.length() == 0) {
ok = false;
}
if(client->cVersion != 13) {
ok = false;
}
if(!client->cHttpHeadersValid) {
ok = false;
ok = false;
}
if (client->cMandatoryHeadersCount != _mandatoryHttpHeaderCount) {
ok = false;
if(client->cMandatoryHeadersCount != _mandatoryHttpHeaderCount) {
ok = false;
}
}
if(_base64Authorization.length() > 0) {
String auth = WEBSOCKETS_STRING("Basic ");
auth += _base64Authorization;
if(auth != client->base64Authorization) {
DEBUG_WEBSOCKETS("[WS-Server][%d][handleHeader] HTTP Authorization failed!\n", client->num);
handleAuthorizationFailed(client);
return;
}
String auth = WEBSOCKETS_STRING("Basic ");
auth += _base64Authorization;
if(auth != client->base64Authorization) {
DEBUG_WEBSOCKETS("[WS-Server][%d][handleHeader] HTTP Authorization failed!\n", client->num);
handleAuthorizationFailed(client);
return;
}
}
if(ok) {
DEBUG_WEBSOCKETS("[WS-Server][%d][handleHeader] Websocket connection incoming.\n", client->num);
// generate Sec-WebSocket-Accept key
@ -835,43 +812,41 @@ void WebSocketsServer::handleHeader(WSclient_t * client, String * headerLine) {
client->status = WSC_CONNECTED;
String handshake = WEBSOCKETS_STRING("HTTP/1.1 101 Switching Protocols\r\n"
"Server: arduino-WebSocketsServer\r\n"
"Upgrade: websocket\r\n"
"Connection: Upgrade\r\n"
"Sec-WebSocket-Version: 13\r\n"
"Sec-WebSocket-Accept: ");
handshake += sKey + NEW_LINE;
String handshake = WEBSOCKETS_STRING(
"HTTP/1.1 101 Switching Protocols\r\n"
"Server: arduino-WebSocketsServer\r\n"
"Upgrade: websocket\r\n"
"Connection: Upgrade\r\n"
"Sec-WebSocket-Version: 13\r\n"
"Sec-WebSocket-Accept: ");
handshake += sKey + NEW_LINE;
if(_origin.length() > 0) {
handshake += WEBSOCKETS_STRING("Access-Control-Allow-Origin: ");
handshake +=_origin + NEW_LINE;
handshake += _origin + NEW_LINE;
}
if(client->cProtocol.length() > 0) {
handshake += WEBSOCKETS_STRING("Sec-WebSocket-Protocol: ");
handshake +=_protocol + NEW_LINE;
handshake += WEBSOCKETS_STRING("Sec-WebSocket-Protocol: ");
handshake += _protocol + NEW_LINE;
}
// header end
handshake += NEW_LINE;
DEBUG_WEBSOCKETS("[WS-Server][%d][handleHeader] handshake %s", client->num, (uint8_t*)handshake.c_str());
DEBUG_WEBSOCKETS("[WS-Server][%d][handleHeader] handshake %s", client->num, (uint8_t *)handshake.c_str());
write(client, (uint8_t*)handshake.c_str(), handshake.length());
write(client, (uint8_t *)handshake.c_str(), handshake.length());
headerDone(client);
// send ping
WebSockets::sendFrame(client, WSop_ping);
runCbEvent(client->num, WStype_CONNECTED, (uint8_t *) client->cUrl.c_str(), client->cUrl.length());
runCbEvent(client->num, WStype_CONNECTED, (uint8_t *)client->cUrl.c_str(), client->cUrl.length());
} else {
handleNonWebsocketConnection(client);
}
}
}

224
src/WebSocketsServer.h
View File

@ -28,160 +28,157 @@
#include "WebSockets.h"
#ifndef WEBSOCKETS_SERVER_CLIENT_MAX
#define WEBSOCKETS_SERVER_CLIENT_MAX (5)
#define WEBSOCKETS_SERVER_CLIENT_MAX (5)
#endif
class WebSocketsServer: protected WebSockets {
public:
class WebSocketsServer : protected WebSockets {
public:
#ifdef __AVR__
typedef void (*WebSocketServerEvent)(uint8_t num, WStype_t type, uint8_t * payload, size_t length);
typedef bool (*WebSocketServerHttpHeaderValFunc)(String headerName, String headerValue);
typedef void (*WebSocketServerEvent)(uint8_t num, WStype_t type, uint8_t * payload, size_t length);
typedef bool (*WebSocketServerHttpHeaderValFunc)(String headerName, String headerValue);
#else
typedef std::function<void (uint8_t num, WStype_t type, uint8_t * payload, size_t length)> WebSocketServerEvent;
typedef std::function<bool (String headerName, String headerValue)> WebSocketServerHttpHeaderValFunc;
typedef std::function<void(uint8_t num, WStype_t type, uint8_t * payload, size_t length)> WebSocketServerEvent;
typedef std::function<bool(String headerName, String headerValue)> WebSocketServerHttpHeaderValFunc;
#endif
WebSocketsServer(uint16_t port, String origin = "", String protocol = "arduino");
virtual ~WebSocketsServer(void);
WebSocketsServer(uint16_t port, String origin = "", String protocol = "arduino");
virtual ~WebSocketsServer(void);
void begin(void);
void close(void);
void begin(void);
void close(void);
#if (WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
void loop(void);
#if(WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
void loop(void);
#else
// Async interface not need a loop call
void loop(void) __attribute__ ((deprecated)) {}
// Async interface not need a loop call
void loop(void) __attribute__((deprecated)) {}
#endif
void onEvent(WebSocketServerEvent cbEvent);
void onValidateHttpHeader(
WebSocketServerHttpHeaderValFunc validationFunc,
const char* mandatoryHttpHeaders[],
size_t mandatoryHttpHeaderCount);
void onEvent(WebSocketServerEvent cbEvent);
void onValidateHttpHeader(
WebSocketServerHttpHeaderValFunc validationFunc,
const char * mandatoryHttpHeaders[],
size_t mandatoryHttpHeaderCount);
bool sendTXT(uint8_t num, uint8_t * payload, size_t length = 0, bool headerToPayload = false);
bool sendTXT(uint8_t num, const uint8_t * payload, size_t length = 0);
bool sendTXT(uint8_t num, char * payload, size_t length = 0, bool headerToPayload = false);
bool sendTXT(uint8_t num, const char * payload, size_t length = 0);
bool sendTXT(uint8_t num, String & payload);
bool sendTXT(uint8_t num, uint8_t * payload, size_t length = 0, bool headerToPayload = false);
bool sendTXT(uint8_t num, const uint8_t * payload, size_t length = 0);
bool sendTXT(uint8_t num, char * payload, size_t length = 0, bool headerToPayload = false);
bool sendTXT(uint8_t num, const char * payload, size_t length = 0);
bool sendTXT(uint8_t num, String & payload);
bool broadcastTXT(uint8_t * payload, size_t length = 0, bool headerToPayload = false);
bool broadcastTXT(const uint8_t * payload, size_t length = 0);
bool broadcastTXT(char * payload, size_t length = 0, bool headerToPayload = false);
bool broadcastTXT(const char * payload, size_t length = 0);
bool broadcastTXT(String & payload);
bool broadcastTXT(uint8_t * payload, size_t length = 0, bool headerToPayload = false);
bool broadcastTXT(const uint8_t * payload, size_t length = 0);
bool broadcastTXT(char * payload, size_t length = 0, bool headerToPayload = false);
bool broadcastTXT(const char * payload, size_t length = 0);
bool broadcastTXT(String & payload);
bool sendBIN(uint8_t num, uint8_t * payload, size_t length, bool headerToPayload = false);
bool sendBIN(uint8_t num, const uint8_t * payload, size_t length);
bool sendBIN(uint8_t num, uint8_t * payload, size_t length, bool headerToPayload = false);
bool sendBIN(uint8_t num, const uint8_t * payload, size_t length);
bool broadcastBIN(uint8_t * payload, size_t length, bool headerToPayload = false);
bool broadcastBIN(const uint8_t * payload, size_t length);
bool broadcastBIN(uint8_t * payload, size_t length, bool headerToPayload = false);
bool broadcastBIN(const uint8_t * payload, size_t length);
bool sendPing(uint8_t num, uint8_t * payload = NULL, size_t length = 0);
bool sendPing(uint8_t num, String & payload);
bool sendPing(uint8_t num, uint8_t * payload = NULL, size_t length = 0);
bool sendPing(uint8_t num, String & payload);
bool broadcastPing(uint8_t * payload = NULL, size_t length = 0);
bool broadcastPing(String & payload);
bool broadcastPing(uint8_t * payload = NULL, size_t length = 0);
bool broadcastPing(String & payload);
void disconnect(void);
void disconnect(uint8_t num);
void disconnect(void);
void disconnect(uint8_t num);
void setAuthorization(const char * user, const char * password);
void setAuthorization(const char * auth);
void setAuthorization(const char * user, const char * password);
void setAuthorization(const char * auth);
int connectedClients(bool ping = false);
int connectedClients(bool ping = false);
#if (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
IPAddress remoteIP(uint8_t num);
#if(WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP8266_ASYNC) || (WEBSOCKETS_NETWORK_TYPE == NETWORK_ESP32)
IPAddress remoteIP(uint8_t num);
#endif
protected:
uint16_t _port;
String _origin;
String _protocol;
String _base64Authorization; ///< Base64 encoded Auth request
String * _mandatoryHttpHeaders;
size_t _mandatoryHttpHeaderCount;
protected:
uint16_t _port;
String _origin;
String _protocol;
String _base64Authorization; ///< Base64 encoded Auth request
String * _mandatoryHttpHeaders;
size_t _mandatoryHttpHeaderCount;
WEBSOCKETS_NETWORK_SERVER_CLASS * _server;
WEBSOCKETS_NETWORK_SERVER_CLASS * _server;
WSclient_t _clients[WEBSOCKETS_SERVER_CLIENT_MAX];
WSclient_t _clients[WEBSOCKETS_SERVER_CLIENT_MAX];
WebSocketServerEvent _cbEvent;
WebSocketServerHttpHeaderValFunc _httpHeaderValidationFunc;
WebSocketServerEvent _cbEvent;
WebSocketServerHttpHeaderValFunc _httpHeaderValidationFunc;
bool _runnning;
bool _runnning;
bool newClient(WEBSOCKETS_NETWORK_CLASS * TCPclient);
bool newClient(WEBSOCKETS_NETWORK_CLASS * TCPclient);
void messageReceived(WSclient_t * client, WSopcode_t opcode, uint8_t * payload, size_t length, bool fin);
void messageReceived(WSclient_t * client, WSopcode_t opcode, uint8_t * payload, size_t length, bool fin);
void clientDisconnect(WSclient_t * client);
bool clientIsConnected(WSclient_t * client);
void clientDisconnect(WSclient_t * client);
bool clientIsConnected(WSclient_t * client);
#if (WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
void handleNewClients(void);
void handleClientData(void);
#if(WEBSOCKETS_NETWORK_TYPE != NETWORK_ESP8266_ASYNC)
void handleNewClients(void);
void handleClientData(void);
#endif
void handleHeader(WSclient_t * client, String * headerLine);
void handleHeader(WSclient_t * client, String * headerLine);
/**
/**
* called if a non Websocket connection is coming in.
* Note: can be override
* @param client WSclient_t * ptr to the client struct
*/
virtual void handleNonWebsocketConnection(WSclient_t * client) {
DEBUG_WEBSOCKETS("[WS-Server][%d][handleHeader] no Websocket connection close.\n", client->num);
client->tcp->write("HTTP/1.1 400 Bad Request\r\n"
"Server: arduino-WebSocket-Server\r\n"
"Content-Type: text/plain\r\n"
"Content-Length: 32\r\n"
"Connection: close\r\n"
"Sec-WebSocket-Version: 13\r\n"
"\r\n"
"This is a Websocket server only!");
clientDisconnect(client);
}
virtual void handleNonWebsocketConnection(WSclient_t * client) {
DEBUG_WEBSOCKETS("[WS-Server][%d][handleHeader] no Websocket connection close.\n", client->num);
client->tcp->write(
"HTTP/1.1 400 Bad Request\r\n"
"Server: arduino-WebSocket-Server\r\n"
"Content-Type: text/plain\r\n"
"Content-Length: 32\r\n"
"Connection: close\r\n"
"Sec-WebSocket-Version: 13\r\n"
"\r\n"
"This is a Websocket server only!");
clientDisconnect(client);
}
/**
/**
* called if a non Authorization connection is coming in.
* Note: can be override
* @param client WSclient_t * ptr to the client struct
*/
virtual void handleAuthorizationFailed(WSclient_t *client) {
client->tcp->write("HTTP/1.1 401 Unauthorized\r\n"
"Server: arduino-WebSocket-Server\r\n"
"Content-Type: text/plain\r\n"
"Content-Length: 45\r\n"
"Connection: close\r\n"
"Sec-WebSocket-Version: 13\r\n"
"WWW-Authenticate: Basic realm=\"WebSocket Server\""
"\r\n"
"This Websocket server requires Authorization!");
clientDisconnect(client);
}
virtual void handleAuthorizationFailed(WSclient_t * client) {
client->tcp->write(
"HTTP/1.1 401 Unauthorized\r\n"
"Server: arduino-WebSocket-Server\r\n"
"Content-Type: text/plain\r\n"
"Content-Length: 45\r\n"
"Connection: close\r\n"
"Sec-WebSocket-Version: 13\r\n"
"WWW-Authenticate: Basic realm=\"WebSocket Server\""
"\r\n"
"This Websocket server requires Authorization!");
clientDisconnect(client);
}
/**
/**
* called for sending a Event to the app
* @param num uint8_t
* @param type WStype_t
* @param payload uint8_t *
* @param length size_t
*/
virtual void runCbEvent(uint8_t num, WStype_t type, uint8_t * payload, size_t length) {
if(_cbEvent) {
_cbEvent(num, type, payload, length);
}
virtual void runCbEvent(uint8_t num, WStype_t type, uint8_t * payload, size_t length) {
if(_cbEvent) {
_cbEvent(num, type, payload, length);
}
}
/*
/*
* Called at client socket connect handshake negotiation time for each http header that is not
* a websocket specific http header (not Connection, Upgrade, Sec-WebSocket-*)
* If the custom httpHeaderValidationFunc returns false for any headerName / headerValue passed, the
@ -189,24 +186,21 @@ protected:
* This mechanism can be used to enable custom authentication schemes e.g. test the value
* of a session cookie to determine if a user is logged on / authenticated
*/
virtual bool execHttpHeaderValidation(String headerName, String headerValue) {
if(_httpHeaderValidationFunc) {
//return the value of the custom http header validation function
return _httpHeaderValidationFunc(headerName, headerValue);
}
//no custom http header validation so just assume all is good
return true;
virtual bool execHttpHeaderValidation(String headerName, String headerValue) {
if(_httpHeaderValidationFunc) {
//return the value of the custom http header validation function
return _httpHeaderValidationFunc(headerName, headerValue);
}
//no custom http header validation so just assume all is good
return true;
}
private:
/*
private:
/*
* returns an indicator whether the given named header exists in the configured _mandatoryHttpHeaders collection
* @param headerName String ///< the name of the header being checked
*/
bool hasMandatoryHeader(String headerName);
bool hasMandatoryHeader(String headerName);
};
#endif /* WEBSOCKETSSERVER_H_ */