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7
lib/AsyncTCP/README.md
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@@ -1,10 +1,9 @@
# AsyncTCP
[![Build Status](https://travis-ci.org/me-no-dev/AsyncTCP.svg?branch=master)](https://travis-ci.org/me-no-dev/AsyncTCP) ![](https://github.com/me-no-dev/AsyncTCP/workflows/Async%20TCP%20CI/badge.svg) [![Codacy Badge](https://api.codacy.com/project/badge/Grade/2f7e4d1df8b446d192cbfec6dc174d2d)](https://www.codacy.com/manual/me-no-dev/AsyncTCP?utm_source=github.com&utm_medium=referral&utm_content=me-no-dev/AsyncTCP&utm_campaign=Badge_Grade)
# AsyncTCP
![Build Status](https://github.com/esphome/AsyncTCP/actions/workflows/push.yml/badge.svg)
A fork of the [AsyncTCP](https://github.com/me-no-dev/AsyncTCP) library by [@me-no-dev](https://github.com/me-no-dev) for [ESPHome](https://esphome.io).
### Async TCP Library for ESP32 Arduino
[![Join the chat at https://gitter.im/me-no-dev/ESPAsyncWebServer](https://badges.gitter.im/me-no-dev/ESPAsyncWebServer.svg)](https://gitter.im/me-no-dev/ESPAsyncWebServer?utm_source=badge&utm_medium=badge&utm_campaign=pr-badge&utm_content=badge)
This is a fully asynchronous TCP library, aimed at enabling trouble-free, multi-connection network environment for Espressif's ESP32 MCUs.
This library is the base for [ESPAsyncWebServer](https://github.com/me-no-dev/ESPAsyncWebServer)

23
lib/AsyncTCP/library.json Normal file
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@@ -0,0 +1,23 @@
{
"name": "AsyncTCP-esphome",
"description": "Asynchronous TCP Library for ESP32",
"keywords": "async,tcp",
"authors": {
"name": "Hristo Gochkov",
"maintainer": true
},
"repository": {
"type": "git",
"url": "https://github.com/esphome/AsyncTCP.git"
},
"version": "2.1.1",
"license": "LGPL-3.0",
"frameworks": "arduino",
"platforms": [
"espressif32",
"libretiny"
],
"build": {
"libCompatMode": 2
}
}

9
lib/AsyncTCP/library.properties
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@@ -1,9 +0,0 @@
name=AsyncTCP
version=1.1.1
author=Me-No-Dev
maintainer=Me-No-Dev
sentence=Async TCP Library for ESP32
paragraph=Async TCP Library for ESP32
category=Other
url=https://github.com/me-no-dev/AsyncTCP
architectures=*

1055
lib/AsyncTCP/src/AsyncTCP.cpp
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255
lib/AsyncTCP/src/AsyncTCP.h
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#include "IPAddress.h"
#include "IPv6Address.h"
#include "sdkconfig.h"
#include <functional>
#ifndef LIBRETINY
#include "sdkconfig.h"
extern "C" {
#include "freertos/FreeRTOS.h"
#include "freertos/semphr.h"
#include "lwip/pbuf.h"
#include "lwip/ip_addr.h"
#include "lwip/ip6_addr.h"
#include "freertos/semphr.h"
#include "lwip/pbuf.h"
#include "lwip/ip_addr.h"
#include "lwip/ip6_addr.h"
}
#else
extern "C" {
#include <semphr.h>
#include <lwip/pbuf.h>
}
#define CONFIG_ASYNC_TCP_RUNNING_CORE -1 //any available core
#define CONFIG_ASYNC_TCP_USE_WDT 0
#endif
//If core is not defined, then we are running in Arduino or PIO
#ifndef CONFIG_ASYNC_TCP_RUNNING_CORE
#define CONFIG_ASYNC_TCP_RUNNING_CORE -1 //any available core
#define CONFIG_ASYNC_TCP_USE_WDT 0 //if enabled, adds between 33us and 200us per event
#define CONFIG_ASYNC_TCP_USE_WDT 1 //if enabled, adds between 33us and 200us per event
#endif
#ifndef CONFIG_ASYNC_TCP_TASK_PRIORITY
#define CONFIG_ASYNC_TCP_TASK_PRIORITY 5
#endif
#ifndef CONFIG_ASYNC_TCP_STACK
#define CONFIG_ASYNC_TCP_STACK 8192
#endif
#ifndef CONFIG_ASYNC_TCP_QUEUE
#define CONFIG_ASYNC_TCP_QUEUE 128
#ifndef CONFIG_ASYNC_TCP_STACK_SIZE
#define CONFIG_ASYNC_TCP_STACK_SIZE 8192 * 2
#endif
class AsyncClient;
@@ -58,160 +59,154 @@ class AsyncClient;
#define ASYNC_WRITE_FLAG_COPY 0x01 //will allocate new buffer to hold the data while sending (else will hold reference to the data given)
#define ASYNC_WRITE_FLAG_MORE 0x02 //will not send PSH flag, meaning that there should be more data to be sent before the application should react.
typedef std::function<void(void *, AsyncClient *)> AcConnectHandler;
typedef std::function<void(void *, AsyncClient *, size_t len, uint32_t time)> AcAckHandler;
typedef std::function<void(void *, AsyncClient *, int8_t error)> AcErrorHandler;
typedef std::function<void(void *, AsyncClient *, void * data, size_t len)> AcDataHandler;
typedef std::function<void(void *, AsyncClient *, struct pbuf * pb)> AcPacketHandler;
typedef std::function<void(void *, AsyncClient *, uint32_t time)> AcTimeoutHandler;
typedef std::function<void(void*, AsyncClient*)> AcConnectHandler;
typedef std::function<void(void*, AsyncClient*, size_t len, uint32_t time)> AcAckHandler;
typedef std::function<void(void*, AsyncClient*, int8_t error)> AcErrorHandler;
typedef std::function<void(void*, AsyncClient*, void *data, size_t len)> AcDataHandler;
typedef std::function<void(void*, AsyncClient*, struct pbuf *pb)> AcPacketHandler;
typedef std::function<void(void*, AsyncClient*, uint32_t time)> AcTimeoutHandler;
struct tcp_pcb;
struct ip_addr;
class AsyncClient {
public:
AsyncClient(tcp_pcb * pcb = 0);
AsyncClient(tcp_pcb* pcb = 0);
~AsyncClient();
AsyncClient & operator=(const AsyncClient & other);
AsyncClient & operator+=(const AsyncClient & other);
AsyncClient & operator=(const AsyncClient &other);
AsyncClient & operator+=(const AsyncClient &other);
bool operator==(const AsyncClient & other);
bool operator==(const AsyncClient &other);
bool operator!=(const AsyncClient & other) {
return !(*this == other);
bool operator!=(const AsyncClient &other) {
return !(*this == other);
}
bool connect(IPAddress ip, uint16_t port);
bool connect(IPv6Address ip, uint16_t port);
bool connect(const char * host, uint16_t port);
void close(bool now = false);
void stop();
bool connect(IPAddress ip, uint16_t port);
bool connect(IPv6Address ip, uint16_t port);
bool connect(const char *host, uint16_t port);
void close(bool now = false);
void stop();
int8_t abort();
bool free();
bool free();
bool canSend(); //ack is not pending
size_t space(); //space available in the TCP window
size_t add(const char * data, size_t size, uint8_t apiflags = ASYNC_WRITE_FLAG_COPY); //add for sending
bool send(); //send all data added with the method above
bool canSend();//ack is not pending
size_t space();//space available in the TCP window
size_t add(const char* data, size_t size, uint8_t apiflags=ASYNC_WRITE_FLAG_COPY);//add for sending
bool send();//send all data added with the method above
//write equals add()+send()
size_t write(const char * data);
size_t write(const char * data, size_t size, uint8_t apiflags = ASYNC_WRITE_FLAG_COPY); //only when canSend() == true
size_t write(const char* data);
size_t write(const char* data, size_t size, uint8_t apiflags=ASYNC_WRITE_FLAG_COPY); //only when canSend() == true
uint8_t state();
bool connecting();
bool connected();
bool disconnecting();
bool disconnected();
bool freeable(); //disconnected or disconnecting
bool connecting();
bool connected();
bool disconnecting();
bool disconnected();
bool freeable();//disconnected or disconnecting
uint16_t getMss();
uint32_t getRxTimeout();
void setRxTimeout(uint32_t timeout); //no RX data timeout for the connection in seconds
void setRxTimeout(uint32_t timeout);//no RX data timeout for the connection in seconds
uint32_t getAckTimeout();
void setAckTimeout(uint32_t timeout); //no ACK timeout for the last sent packet in milliseconds
void setAckTimeout(uint32_t timeout);//no ACK timeout for the last sent packet in milliseconds
void setNoDelay(bool nodelay);
bool getNoDelay();
void setKeepAlive(uint32_t ms, uint8_t cnt);
uint32_t getRemoteAddress();
uint32_t getRemoteAddress();
ip6_addr_t getRemoteAddress6();
uint16_t getRemotePort();
uint32_t getLocalAddress();
uint16_t getRemotePort();
uint32_t getLocalAddress();
ip6_addr_t getLocalAddress6();
uint16_t getLocalPort();
uint16_t getLocalPort();
//compatibility
IPAddress remoteIP();
IPAddress remoteIP();
IPv6Address remoteIP6();
uint16_t remotePort();
IPAddress localIP();
uint16_t remotePort();
IPAddress localIP();
IPv6Address localIP6();
uint16_t localPort();
uint16_t localPort();
void onConnect(AcConnectHandler cb, void * arg = 0); //on successful connect
void onDisconnect(AcConnectHandler cb, void * arg = 0); //disconnected
void onAck(AcAckHandler cb, void * arg = 0); //ack received
void onError(AcErrorHandler cb, void * arg = 0); //unsuccessful connect or error
void onData(AcDataHandler cb, void * arg = 0); //data received (called if onPacket is not used)
void onPacket(AcPacketHandler cb, void * arg = 0); //data received
void onTimeout(AcTimeoutHandler cb, void * arg = 0); //ack timeout
void onPoll(AcConnectHandler cb, void * arg = 0); //every 125ms when connected
void onConnect(AcConnectHandler cb, void* arg = 0); //on successful connect
void onDisconnect(AcConnectHandler cb, void* arg = 0); //disconnected
void onAck(AcAckHandler cb, void* arg = 0); //ack received
void onError(AcErrorHandler cb, void* arg = 0); //unsuccessful connect or error
void onData(AcDataHandler cb, void* arg = 0); //data received (called if onPacket is not used)
void onPacket(AcPacketHandler cb, void* arg = 0); //data received
void onTimeout(AcTimeoutHandler cb, void* arg = 0); //ack timeout
void onPoll(AcConnectHandler cb, void* arg = 0); //every 125ms when connected
void ackPacket(struct pbuf * pb); //ack pbuf from onPacket
size_t ack(size_t len); //ack data that you have not acked using the method below
void ackLater() {
_ack_pcb = false;
} //will not ack the current packet. Call from onData
void ackPacket(struct pbuf * pb);//ack pbuf from onPacket
size_t ack(size_t len); //ack data that you have not acked using the method below
void ackLater(){ _ack_pcb = false; } //will not ack the current packet. Call from onData
const char * errorToString(int8_t error);
const char * stateToString();
//Do not use any of the functions below!
static int8_t _s_poll(void * arg, struct tcp_pcb * tpcb);
static int8_t _s_recv(void * arg, struct tcp_pcb * tpcb, struct pbuf * pb, int8_t err);
static int8_t _s_fin(void * arg, struct tcp_pcb * tpcb, int8_t err);
static int8_t _s_lwip_fin(void * arg, struct tcp_pcb * tpcb, int8_t err);
static void _s_error(void * arg, int8_t err);
static int8_t _s_sent(void * arg, struct tcp_pcb * tpcb, uint16_t len);
static int8_t _s_connected(void * arg, void * tpcb, int8_t err);
static void _s_dns_found(const char * name, struct ip_addr * ipaddr, void * arg);
static int8_t _s_poll(void *arg, struct tcp_pcb *tpcb);
static int8_t _s_recv(void *arg, struct tcp_pcb *tpcb, struct pbuf *pb, int8_t err);
static int8_t _s_fin(void *arg, struct tcp_pcb *tpcb, int8_t err);
static int8_t _s_lwip_fin(void *arg, struct tcp_pcb *tpcb, int8_t err);
static void _s_error(void *arg, int8_t err);
static int8_t _s_sent(void *arg, struct tcp_pcb *tpcb, uint16_t len);
static int8_t _s_connected(void* arg, void* tpcb, int8_t err);
static void _s_dns_found(const char *name, struct ip_addr *ipaddr, void *arg);
int8_t _recv(tcp_pcb * pcb, pbuf * pb, int8_t err);
tcp_pcb * pcb() {
return _pcb;
}
int8_t _recv(tcp_pcb* pcb, pbuf* pb, int8_t err);
tcp_pcb * pcb(){ return _pcb; }
protected:
bool _connect(ip_addr_t addr, uint16_t port);
tcp_pcb * _pcb;
int8_t _closed_slot;
tcp_pcb* _pcb;
int8_t _closed_slot;
AcConnectHandler _connect_cb;
void * _connect_cb_arg;
void* _connect_cb_arg;
AcConnectHandler _discard_cb;
void * _discard_cb_arg;
AcAckHandler _sent_cb;
void * _sent_cb_arg;
AcErrorHandler _error_cb;
void * _error_cb_arg;
AcDataHandler _recv_cb;
void * _recv_cb_arg;
AcPacketHandler _pb_cb;
void * _pb_cb_arg;
void* _discard_cb_arg;
AcAckHandler _sent_cb;
void* _sent_cb_arg;
AcErrorHandler _error_cb;
void* _error_cb_arg;
AcDataHandler _recv_cb;
void* _recv_cb_arg;
AcPacketHandler _pb_cb;
void* _pb_cb_arg;
AcTimeoutHandler _timeout_cb;
void * _timeout_cb_arg;
void* _timeout_cb_arg;
AcConnectHandler _poll_cb;
void * _poll_cb_arg;
void* _poll_cb_arg;
bool _pcb_busy;
uint32_t _pcb_sent_at;
bool _ack_pcb;
bool _ack_pcb;
uint32_t _tx_last_packet;
uint32_t _rx_ack_len;
uint32_t _rx_last_packet;
uint32_t _rx_since_timeout;
uint32_t _rx_timeout;
uint32_t _rx_last_ack;
uint32_t _ack_timeout;
uint16_t _connect_port;
int8_t _close();
void _free_closed_slot();
void _allocate_closed_slot();
int8_t _connected(void * pcb, int8_t err);
void _error(int8_t err);
int8_t _poll(tcp_pcb * pcb);
int8_t _sent(tcp_pcb * pcb, uint16_t len);
int8_t _fin(tcp_pcb * pcb, int8_t err);
int8_t _lwip_fin(tcp_pcb * pcb, int8_t err);
void _dns_found(struct ip_addr * ipaddr);
void _free_closed_slot();
void _allocate_closed_slot();
int8_t _connected(void* pcb, int8_t err);
void _error(int8_t err);
int8_t _poll(tcp_pcb* pcb);
int8_t _sent(tcp_pcb* pcb, uint16_t len);
int8_t _fin(tcp_pcb* pcb, int8_t err);
int8_t _lwip_fin(tcp_pcb* pcb, int8_t err);
void _dns_found(struct ip_addr *ipaddr);
public:
AsyncClient * prev;
AsyncClient * next;
AsyncClient* prev;
AsyncClient* next;
};
class AsyncServer {
@@ -220,31 +215,31 @@ class AsyncServer {
AsyncServer(IPv6Address addr, uint16_t port);
AsyncServer(uint16_t port);
~AsyncServer();
void onClient(AcConnectHandler cb, void * arg);
void begin();
void end();
void setNoDelay(bool nodelay);
bool getNoDelay();
void onClient(AcConnectHandler cb, void* arg);
void begin();
void end();
void setNoDelay(bool nodelay);
bool getNoDelay();
uint8_t status();
//Do not use any of the functions below!
static int8_t _s_accept(void * arg, tcp_pcb * newpcb, int8_t err);
static int8_t _s_accepted(void * arg, AsyncClient * client);
static int8_t _s_accept(void *arg, tcp_pcb* newpcb, int8_t err);
static int8_t _s_accepted(void *arg, AsyncClient* client);
protected:
uint16_t _port;
bool _bind4 = false;
bool _bind6 = false;
IPAddress _addr;
IPv6Address _addr6;
bool _noDelay;
tcp_pcb * _pcb;
uint16_t _port;
bool _bind4 = false;
bool _bind6 = false;
IPAddress _addr;
IPv6Address _addr6;
bool _noDelay;
tcp_pcb* _pcb;
AcConnectHandler _connect_cb;
void * _connect_cb_arg;
void* _connect_cb_arg;
int8_t _accept(tcp_pcb * newpcb, int8_t err);
int8_t _accepted(AsyncClient * client);
int8_t _accept(tcp_pcb* newpcb, int8_t err);
int8_t _accepted(AsyncClient* client);
};
#endif /* ASYNCTCP_H_ */
#endif /* ASYNCTCP_H_ */

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lib/ESPAsyncWebServer/AsyncWebSocket.cpp
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lib/ESPAsyncWebServer/AsyncWebSynchronization.h
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#ifndef ASYNCWEBSYNCHRONIZATION_H_
#define ASYNCWEBSYNCHRONIZATION_H_
// Synchronisation is only available on ESP32, as the ESP8266 isn't using FreeRTOS by default
#include <ESPAsyncWebServer.h>
#ifdef ESP32
// This is the ESP32 version of the Sync Lock, using the FreeRTOS Semaphore
class AsyncWebLock
{
private:
SemaphoreHandle_t _lock;
mutable void *_lockedBy;
public:
AsyncWebLock() {
_lock = xSemaphoreCreateBinary();
_lockedBy = NULL;
xSemaphoreGive(_lock);
}
~AsyncWebLock() {
vSemaphoreDelete(_lock);
}
bool lock() const {
extern void *pxCurrentTCB;
if (_lockedBy != pxCurrentTCB) {
xSemaphoreTake(_lock, portMAX_DELAY);
_lockedBy = pxCurrentTCB;
return true;
}
return false;
}
void unlock() const {
_lockedBy = NULL;
xSemaphoreGive(_lock);
}
};
#else
// This is the 8266 version of the Sync Lock which is currently unimplemented
class AsyncWebLock
{
public:
AsyncWebLock() {
}
~AsyncWebLock() {
}
bool lock() const {
return false;
}
void unlock() const {
}
};
#endif
class AsyncWebLockGuard
{
private:
const AsyncWebLock *_lock;
public:
AsyncWebLockGuard(const AsyncWebLock &l) {
if (l.lock()) {
_lock = &l;
} else {
_lock = NULL;
}
}
~AsyncWebLockGuard() {
if (_lock) {
_lock->unlock();
}
}
};
#endif // ASYNCWEBSYNCHRONIZATION_H_

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lib/ESPAsyncWebServer/LICENSE Normal file
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@@ -0,0 +1,165 @@
GNU LESSER GENERAL PUBLIC LICENSE
Version 3, 29 June 2007
Copyright (C) 2007 Free Software Foundation, Inc. <https://fsf.org/>
Everyone is permitted to copy and distribute verbatim copies
of this license document, but changing it is not allowed.
This version of the GNU Lesser General Public License incorporates
the terms and conditions of version 3 of the GNU General Public
License, supplemented by the additional permissions listed below.
0. Additional Definitions.
As used herein, "this License" refers to version 3 of the GNU Lesser
General Public License, and the "GNU GPL" refers to version 3 of the GNU
General Public License.
"The Library" refers to a covered work governed by this License,
other than an Application or a Combined Work as defined below.
An "Application" is any work that makes use of an interface provided
by the Library, but which is not otherwise based on the Library.
Defining a subclass of a class defined by the Library is deemed a mode
of using an interface provided by the Library.
A "Combined Work" is a work produced by combining or linking an
Application with the Library. The particular version of the Library
with which the Combined Work was made is also called the "Linked
Version".
The "Minimal Corresponding Source" for a Combined Work means the
Corresponding Source for the Combined Work, excluding any source code
for portions of the Combined Work that, considered in isolation, are
based on the Application, and not on the Linked Version.
The "Corresponding Application Code" for a Combined Work means the
object code and/or source code for the Application, including any data
and utility programs needed for reproducing the Combined Work from the
Application, but excluding the System Libraries of the Combined Work.
1. Exception to Section 3 of the GNU GPL.
You may convey a covered work under sections 3 and 4 of this License
without being bound by section 3 of the GNU GPL.
2. Conveying Modified Versions.
If you modify a copy of the Library, and, in your modifications, a
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lib/ESPAsyncWebServer/README.md
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lib/ESPAsyncWebServer/SPIFFSEditor.cpp
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@@ -1,544 +0,0 @@
#include "SPIFFSEditor.h"
#include <FS.h>
//File: edit.htm.gz, Size: 4151
#define edit_htm_gz_len 4151
const uint8_t edit_htm_gz[] PROGMEM = {
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0xD3, 0xE9, 0xB4, 0x8E, 0xDF, 0x6A, 0xEB, 0x70, 0x82, 0xB2, 0x02, 0x5F, 0x5F, 0xC7, 0x21, 0x47,
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0x79, 0xFB, 0xF3, 0x4F, 0x39, 0x5B, 0xDE, 0xF6, 0x92, 0x62, 0x71, 0xE1, 0xF3, 0xFC, 0xA9, 0x35,
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0xE8, 0x9D, 0x36, 0x92, 0x29, 0x00, 0x00
};
#define SPIFFS_MAXLENGTH_FILEPATH 32
const char *excludeListFile = "/.exclude.files";
typedef struct ExcludeListS {
char *item;
ExcludeListS *next;
} ExcludeList;
static ExcludeList *excludes = NULL;
static bool matchWild(const char *pattern, const char *testee) {
const char *nxPat = NULL, *nxTst = NULL;
while (*testee) {
if (( *pattern == '?' ) || (*pattern == *testee)){
pattern++;testee++;
continue;
}
if (*pattern=='*'){
nxPat=pattern++; nxTst=testee;
continue;
}
if (nxPat){
pattern = nxPat+1; testee=++nxTst;
continue;
}
return false;
}
while (*pattern=='*'){pattern++;}
return (*pattern == 0);
}
static bool addExclude(const char *item){
size_t len = strlen(item);
if(!len){
return false;
}
ExcludeList *e = (ExcludeList *)malloc(sizeof(ExcludeList));
if(!e){
return false;
}
e->item = (char *)malloc(len+1);
if(!e->item){
free(e);
return false;
}
memcpy(e->item, item, len+1);
e->next = excludes;
excludes = e;
return true;
}
static void loadExcludeList(fs::FS &_fs, const char *filename){
static char linebuf[SPIFFS_MAXLENGTH_FILEPATH];
fs::File excludeFile=_fs.open(filename, "r");
if(!excludeFile){
//addExclude("/*.js.gz");
return;
}
#ifdef ESP32
if(excludeFile.isDirectory()){
excludeFile.close();
return;
}
#endif
if (excludeFile.size() > 0){
uint8_t idx;
bool isOverflowed = false;
while (excludeFile.available()){
linebuf[0] = '\0';
idx = 0;
int lastChar;
do {
lastChar = excludeFile.read();
if(lastChar != '\r'){
linebuf[idx++] = (char) lastChar;
}
} while ((lastChar >= 0) && (lastChar != '\n') && (idx < SPIFFS_MAXLENGTH_FILEPATH));
if(isOverflowed){
isOverflowed = (lastChar != '\n');
continue;
}
isOverflowed = (idx >= SPIFFS_MAXLENGTH_FILEPATH);
linebuf[idx-1] = '\0';
if(!addExclude(linebuf)){
excludeFile.close();
return;
}
}
}
excludeFile.close();
}
static bool isExcluded(fs::FS &_fs, const char *filename) {
if(excludes == NULL){
loadExcludeList(_fs, excludeListFile);
}
ExcludeList *e = excludes;
while(e){
if (matchWild(e->item, filename)){
return true;
}
e = e->next;
}
return false;
}
// WEB HANDLER IMPLEMENTATION
#ifdef ESP32
SPIFFSEditor::SPIFFSEditor(const fs::FS& fs, const String& username, const String& password)
#else
SPIFFSEditor::SPIFFSEditor(const String& username, const String& password, const fs::FS& fs)
#endif
:_fs(fs)
,_username(username)
,_password(password)
,_authenticated(false)
,_startTime(0)
{}
bool SPIFFSEditor::canHandle(AsyncWebServerRequest *request){
if(request->url().equalsIgnoreCase("/edit")){
if(request->method() == HTTP_GET){
if(request->hasParam("list"))
return true;
if(request->hasParam("edit")){
request->_tempFile = _fs.open(request->arg("edit"), "r");
if(!request->_tempFile){
return false;
}
#ifdef ESP32
if(request->_tempFile.isDirectory()){
request->_tempFile.close();
return false;
}
#endif
}
if(request->hasParam("download")){
request->_tempFile = _fs.open(request->arg("download"), "r");
if(!request->_tempFile){
return false;
}
#ifdef ESP32
if(request->_tempFile.isDirectory()){
request->_tempFile.close();
return false;
}
#endif
}
request->addInterestingHeader("If-Modified-Since");
return true;
}
else if(request->method() == HTTP_POST)
return true;
else if(request->method() == HTTP_DELETE)
return true;
else if(request->method() == HTTP_PUT)
return true;
}
return false;
}
void SPIFFSEditor::handleRequest(AsyncWebServerRequest *request){
if(_username.length() && _password.length() && !request->authenticate(_username.c_str(), _password.c_str()))
return request->requestAuthentication();
if(request->method() == HTTP_GET){
if(request->hasParam("list")){
String path = request->getParam("list")->value();
#ifdef ESP32
File dir = _fs.open(path);
#else
Dir dir = _fs.openDir(path);
#endif
path = String();
String output = "[";
#ifdef ESP32
File entry = dir.openNextFile();
while(entry){
#else
while(dir.next()){
fs::File entry = dir.openFile("r");
#endif
if (isExcluded(_fs, entry.name())) {
#ifdef ESP32
entry = dir.openNextFile();
#endif
continue;
}
if (output != "[") output += ',';
output += "{\"type\":\"";
output += "file";
output += "\",\"name\":\"";
output += String(entry.name());
output += "\",\"size\":";
output += String(entry.size());
output += "}";
#ifdef ESP32
entry = dir.openNextFile();
#else
entry.close();
#endif
}
#ifdef ESP32
dir.close();
#endif
output += "]";
request->send(200, "application/json", output);
output = String();
}
else if(request->hasParam("edit") || request->hasParam("download")){
request->send(request->_tempFile, request->_tempFile.name(), String(), request->hasParam("download"));
}
else {
const char * buildTime = __DATE__ " " __TIME__ " GMT";
if (request->header("If-Modified-Since").equals(buildTime)) {
request->send(304);
} else {
AsyncWebServerResponse *response = request->beginResponse_P(200, "text/html", edit_htm_gz, edit_htm_gz_len);
response->addHeader("Content-Encoding", "gzip");
response->addHeader("Last-Modified", buildTime);
request->send(response);
}
}
} else if(request->method() == HTTP_DELETE){
if(request->hasParam("path", true)){
_fs.remove(request->getParam("path", true)->value());
request->send(200, "", "DELETE: "+request->getParam("path", true)->value());
} else
request->send(404);
} else if(request->method() == HTTP_POST){
if(request->hasParam("data", true, true) && _fs.exists(request->getParam("data", true, true)->value()))
request->send(200, "", "UPLOADED: "+request->getParam("data", true, true)->value());
else
request->send(500);
} else if(request->method() == HTTP_PUT){
if(request->hasParam("path", true)){
String filename = request->getParam("path", true)->value();
if(_fs.exists(filename)){
request->send(200);
} else {
fs::File f = _fs.open(filename, "w");
if(f){
f.write((uint8_t)0x00);
f.close();
request->send(200, "", "CREATE: "+filename);
} else {
request->send(500);
}
}
} else
request->send(400);
}
}
void SPIFFSEditor::handleUpload(AsyncWebServerRequest *request, const String& filename, size_t index, uint8_t *data, size_t len, bool final){
if(!index){
if(!_username.length() || request->authenticate(_username.c_str(),_password.c_str())){
_authenticated = true;
request->_tempFile = _fs.open(filename, "w");
_startTime = millis();
}
}
if(_authenticated && request->_tempFile){
if(len){
request->_tempFile.write(data,len);
}
if(final){
request->_tempFile.close();
}
}
}

30
lib/ESPAsyncWebServer/SPIFFSEditor.h
View File

@@ -1,30 +0,0 @@
#ifndef SPIFFSEditor_H_
#define SPIFFSEditor_H_
#include <ESPAsyncWebServer.h>
class SPIFFSEditor : public AsyncWebHandler {
private:
fs::FS _fs;
String _username;
String _password;
bool _authenticated;
uint32_t _startTime;
public:
#ifdef ESP32
SPIFFSEditor(const fs::FS & fs, const String & username = String(), const String & password = String());
#else
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wdeprecated-declarations"
SPIFFSEditor(const String & username = String(), const String & password = String(), const fs::FS & fs = SPIFFS);
#pragma GCC diagnostic pop
#endif
virtual bool canHandle(AsyncWebServerRequest * request) override final;
virtual void handleRequest(AsyncWebServerRequest * request) override final;
virtual void handleUpload(AsyncWebServerRequest * request, const String & filename, size_t index, uint8_t * data, size_t len, bool final) override final;
virtual bool isRequestHandlerTrivial() override final {
return false;
}
};
#endif

789
lib/ESPAsyncWebServer/WebResponses.cpp
View File

@@ -1,789 +0,0 @@
/*
Asynchronous WebServer library for Espressif MCUs
Copyright (c) 2016 Hristo Gochkov. All rights reserved.
This file is part of the esp8266 core for Arduino environment.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "ESPAsyncWebServer.h"
#include "WebResponseImpl.h"
#include "cbuf.h"
// Since ESP8266 does not link memchr by default, here's its implementation.
void * memchr(void * ptr, int ch, size_t count) {
unsigned char * p = static_cast<unsigned char *>(ptr);
while (count--)
if (*p++ == static_cast<unsigned char>(ch))
return --p;
return nullptr;
}
/*
* Abstract Response
* */
const char * AsyncWebServerResponse::_responseCodeToString(int code) {
switch (code) {
case 100:
return ("Continue");
case 101:
return ("Switching Protocols");
case 200:
return ("OK");
case 201:
return ("Created");
case 202:
return ("Accepted"); // proddy: used in wifi
case 203:
return ("Non-Authoritative Information");
case 204:
return ("No Content");
case 205:
return ("Reset Content"); // proddy: reboot required
case 206:
return ("Partial Content");
case 300:
return ("Multiple Choices");
case 301:
return ("Moved Permanently");
case 302:
return ("Found");
case 303:
return ("See Other");
case 304:
return ("Not Modified");
case 305:
return ("Use Proxy");
case 307:
return ("Temporary Redirect");
case 400:
return ("Bad Request");
case 401:
return ("Unauthorized");
case 402:
return ("Payment Required");
case 403:
return ("Forbidden");
case 404:
return ("Not Found");
case 405:
return ("Method Not Allowed");
case 406:
return ("Not Acceptable");
case 407:
return ("Proxy Authentication Required");
case 408:
return ("Request Time-out");
case 409:
return ("Conflict");
case 410:
return ("Gone");
case 411:
return ("Length Required");
case 412:
return ("Precondition Failed");
case 413:
return ("Request Entity Too Large");
case 414:
return ("Request-URI Too Large");
case 415:
return ("Unsupported Media Type");
case 416:
return ("Requested range not satisfiable");
case 417:
return ("Expectation Failed");
case 500:
return ("Internal Server Error");
case 501:
return ("Not Implemented");
case 502:
return ("Bad Gateway");
case 503:
return ("Service Unavailable");
case 504:
return ("Gateway Time-out");
case 505:
return ("HTTP Version not supported");
case 507:
return ("Insufficient Storage");
default:
return ("");
}
}
const __FlashStringHelper * AsyncWebServerResponse::responseCodeToString(int code) {
return reinterpret_cast<const __FlashStringHelper *>(responseCodeToString(code));
}
AsyncWebServerResponse::AsyncWebServerResponse()
: _code(0)
, _headers(LinkedList<AsyncWebHeader *>([](AsyncWebHeader * h) { delete h; }))
, _contentType()
, _contentLength(0)
, _sendContentLength(true)
, _chunked(false)
, _headLength(0)
, _sentLength(0)
, _ackedLength(0)
, _writtenLength(0)
, _state(RESPONSE_SETUP) {
for (auto header : DefaultHeaders::Instance()) {
_headers.add(new AsyncWebHeader(header->name(), header->value()));
}
}
AsyncWebServerResponse::~AsyncWebServerResponse() {
_headers.free();
}
void AsyncWebServerResponse::setCode(int code) {
if (_state == RESPONSE_SETUP)
_code = code;
}
void AsyncWebServerResponse::setContentLength(size_t len) {
if (_state == RESPONSE_SETUP)
_contentLength = len;
}
void AsyncWebServerResponse::setContentType(const String & type) {
if (_state == RESPONSE_SETUP)
_contentType = type;
}
void AsyncWebServerResponse::addHeader(const String & name, const String & value) {
_headers.add(new AsyncWebHeader(name, value));
}
String AsyncWebServerResponse::_assembleHead(uint8_t version) {
if (version) {
addHeader(F("Accept-Ranges"), F("none"));
if (_chunked)
addHeader(F("Transfer-Encoding"), F("chunked"));
}
String out = String();
int bufSize = 300;
char buf[bufSize];
snprintf_P(buf, bufSize, PSTR("HTTP/1.%d %d %s\r\n"), version, _code, _responseCodeToString(_code));
out.concat(buf);
if (_sendContentLength) {
snprintf_P(buf, bufSize, PSTR("Content-Length: %d\r\n"), _contentLength);
out.concat(buf);
}
if (_contentType.length()) {
snprintf_P(buf, bufSize, PSTR("Content-Type: %s\r\n"), _contentType.c_str());
out.concat(buf);
}
for (const auto & header : _headers) {
snprintf_P(buf, bufSize, PSTR("%s: %s\r\n"), header->name().c_str(), header->value().c_str());
out.concat(buf);
}
_headers.free();
out.concat(F("\r\n"));
_headLength = out.length();
return out;
}
bool AsyncWebServerResponse::_started() const {
return _state > RESPONSE_SETUP;
}
bool AsyncWebServerResponse::_finished() const {
return _state > RESPONSE_WAIT_ACK;
}
bool AsyncWebServerResponse::_failed() const {
return _state == RESPONSE_FAILED;
}
bool AsyncWebServerResponse::_sourceValid() const {
return false;
}
void AsyncWebServerResponse::_respond(AsyncWebServerRequest * request) {
_state = RESPONSE_END;
request->client()->close();
}
size_t AsyncWebServerResponse::_ack(AsyncWebServerRequest * request, size_t len, uint32_t time) {
(void)request;
(void)len;
(void)time;
return 0;
}
/*
* String/Code Response
* */
AsyncBasicResponse::AsyncBasicResponse(int code, const String & contentType, const String & content) {
_code = code;
_content = content;
_contentType = contentType;
if (_content.length()) {
_contentLength = _content.length();
if (!_contentType.length())
_contentType = F("text/plain");
}
addHeader(F("Connection"), F("close"));
}
void AsyncBasicResponse::_respond(AsyncWebServerRequest * request) {
_state = RESPONSE_HEADERS;
String out = _assembleHead(request->version());
size_t outLen = out.length();
size_t space = request->client()->space();
if (!_contentLength && space >= outLen) {
_writtenLength += request->client()->write(out.c_str(), outLen);
_state = RESPONSE_WAIT_ACK;
} else if (_contentLength && space >= outLen + _contentLength) {
out += _content;
outLen += _contentLength;
_writtenLength += request->client()->write(out.c_str(), outLen);
_state = RESPONSE_WAIT_ACK;
} else if (space && space < outLen) {
String partial = out.substring(0, space);
_content = out.substring(space) + _content;
_contentLength += outLen - space;
_writtenLength += request->client()->write(partial.c_str(), partial.length());
_state = RESPONSE_CONTENT;
} else if (space > outLen && space < (outLen + _contentLength)) {
size_t shift = space - outLen;
outLen += shift;
_sentLength += shift;
out += _content.substring(0, shift);
_content = _content.substring(shift);
_writtenLength += request->client()->write(out.c_str(), outLen);
_state = RESPONSE_CONTENT;
} else {
_content = out + _content;
_contentLength += outLen;
_state = RESPONSE_CONTENT;
}
}
size_t AsyncBasicResponse::_ack(AsyncWebServerRequest * request, size_t len, uint32_t time) {
(void)time;
_ackedLength += len;
if (_state == RESPONSE_CONTENT) {
size_t available = _contentLength - _sentLength;
size_t space = request->client()->space();
//we can fit in this packet
if (space > available) {
_writtenLength += request->client()->write(_content.c_str(), available);
_content = String();
_state = RESPONSE_WAIT_ACK;
return available;
}
//send some data, the rest on ack
String out = _content.substring(0, space);
_content = _content.substring(space);
_sentLength += space;
_writtenLength += request->client()->write(out.c_str(), space);
return space;
} else if (_state == RESPONSE_WAIT_ACK) {
if (_ackedLength >= _writtenLength) {
_state = RESPONSE_END;
}
}
return 0;
}
/*
* Abstract Response
* */
AsyncAbstractResponse::AsyncAbstractResponse(AwsTemplateProcessor callback)
: _callback(callback) {
// In case of template processing, we're unable to determine real response size
if (callback) {
_contentLength = 0;
_sendContentLength = false;
_chunked = true;
}
}
void AsyncAbstractResponse::_respond(AsyncWebServerRequest * request) {
addHeader(F("Connection"), F("close"));
_head = _assembleHead(request->version());
_state = RESPONSE_HEADERS;
_ack(request, 0, 0);
}
size_t AsyncAbstractResponse::_ack(AsyncWebServerRequest * request, size_t len, uint32_t time) {
(void)time;
if (!_sourceValid()) {
_state = RESPONSE_FAILED;
request->client()->close();
return 0;
}
_ackedLength += len;
size_t space = request->client()->space();
size_t headLen = _head.length();
if (_state == RESPONSE_HEADERS) {
if (space >= headLen) {
_state = RESPONSE_CONTENT;
space -= headLen;
} else {
String out = _head.substring(0, space);
_head = _head.substring(space);
_writtenLength += request->client()->write(out.c_str(), out.length());
return out.length();
}
}
if (_state == RESPONSE_CONTENT) {
size_t outLen;
if (_chunked) {
if (space <= 8) {
return 0;
}
outLen = space;
} else if (!_sendContentLength) {
outLen = space;
} else {
outLen = ((_contentLength - _sentLength) > space) ? space : (_contentLength - _sentLength);
}
uint8_t * buf = (uint8_t *)malloc(outLen + headLen);
if (!buf) {
// os_printf("_ack malloc %d failed\n", outLen+headLen);
return 0;
}
if (headLen) {
memcpy(buf, _head.c_str(), _head.length());
}
size_t readLen = 0;
if (_chunked) {
// HTTP 1.1 allows leading zeros in chunk length. Or spaces may be added.
// See RFC2616 sections 2, 3.6.1.
readLen = _fillBufferAndProcessTemplates(buf + headLen + 6, outLen - 8);
if (readLen == RESPONSE_TRY_AGAIN) {
free(buf);
return 0;
}
outLen = snprintf_P((char *)buf + headLen, sizeof(buf) - headLen - 2, PSTR("%x"), readLen) + headLen;
while (outLen < headLen + 4)
buf[outLen++] = ' ';
buf[outLen++] = '\r';
buf[outLen++] = '\n';
outLen += readLen;
buf[outLen++] = '\r';
buf[outLen++] = '\n';
} else {
readLen = _fillBufferAndProcessTemplates(buf + headLen, outLen);
if (readLen == RESPONSE_TRY_AGAIN) {
free(buf);
return 0;
}
outLen = readLen + headLen;
}
if (headLen) {
_head = String();
}
if (outLen) {
_writtenLength += request->client()->write((const char *)buf, outLen);
}
if (_chunked) {
_sentLength += readLen;
} else {
_sentLength += outLen - headLen;
}
free(buf);
if ((_chunked && readLen == 0) || (!_sendContentLength && outLen == 0) || (!_chunked && _sentLength == _contentLength)) {
_state = RESPONSE_WAIT_ACK;
}
return outLen;
} else if (_state == RESPONSE_WAIT_ACK) {
if (!_sendContentLength || _ackedLength >= _writtenLength) {
_state = RESPONSE_END;
if (!_chunked && !_sendContentLength)
request->client()->close(true);
}
}
return 0;
}
size_t AsyncAbstractResponse::_readDataFromCacheOrContent(uint8_t * data, const size_t len) {
// If we have something in cache, copy it to buffer
const size_t readFromCache = std::min(len, _cache.size());
if (readFromCache) {
memcpy(data, _cache.data(), readFromCache);
_cache.erase(_cache.begin(), _cache.begin() + readFromCache);
}
// If we need to read more...
const size_t needFromFile = len - readFromCache;
const size_t readFromContent = _fillBuffer(data + readFromCache, needFromFile);
return readFromCache + readFromContent;
}
size_t AsyncAbstractResponse::_fillBufferAndProcessTemplates(uint8_t * data, size_t len) {
if (!_callback)
return _fillBuffer(data, len);
const size_t originalLen = len;
len = _readDataFromCacheOrContent(data, len);
// Now we've read 'len' bytes, either from cache or from file
// Search for template placeholders
uint8_t * pTemplateStart = data;
while ((pTemplateStart < &data[len])
&& (pTemplateStart = (uint8_t *)memchr(pTemplateStart, TEMPLATE_PLACEHOLDER, &data[len - 1] - pTemplateStart + 1))) { // data[0] ... data[len - 1]
uint8_t * pTemplateEnd =
(pTemplateStart < &data[len - 1]) ? (uint8_t *)memchr(pTemplateStart + 1, TEMPLATE_PLACEHOLDER, &data[len - 1] - pTemplateStart) : nullptr;
// temporary buffer to hold parameter name
uint8_t buf[TEMPLATE_PARAM_NAME_LENGTH + 1];
String paramName;
// If closing placeholder is found:
if (pTemplateEnd) {
// prepare argument to callback
const size_t paramNameLength = std::min((size_t)sizeof(buf) - 1, (size_t)(pTemplateEnd - pTemplateStart - 1));
if (paramNameLength) {
memcpy(buf, pTemplateStart + 1, paramNameLength);
buf[paramNameLength] = 0;
paramName = String(reinterpret_cast<char *>(buf));
} else { // double percent sign encountered, this is single percent sign escaped.
// remove the 2nd percent sign
memmove(pTemplateEnd, pTemplateEnd + 1, &data[len] - pTemplateEnd - 1);
len += _readDataFromCacheOrContent(&data[len - 1], 1) - 1;
++pTemplateStart;
}
} else if (&data[len - 1] - pTemplateStart + 1 < TEMPLATE_PARAM_NAME_LENGTH + 2) { // closing placeholder not found, check if it's in the remaining file data
memcpy(buf, pTemplateStart + 1, &data[len - 1] - pTemplateStart);
const size_t readFromCacheOrContent =
_readDataFromCacheOrContent(buf + (&data[len - 1] - pTemplateStart), TEMPLATE_PARAM_NAME_LENGTH + 2 - (&data[len - 1] - pTemplateStart + 1));
if (readFromCacheOrContent) {
pTemplateEnd = (uint8_t *)memchr(buf + (&data[len - 1] - pTemplateStart), TEMPLATE_PLACEHOLDER, readFromCacheOrContent);
if (pTemplateEnd) {
// prepare argument to callback
*pTemplateEnd = 0;
paramName = String(reinterpret_cast<char *>(buf));
// Copy remaining read-ahead data into cache
_cache.insert(_cache.begin(), pTemplateEnd + 1, buf + (&data[len - 1] - pTemplateStart) + readFromCacheOrContent);
pTemplateEnd = &data[len - 1];
} else // closing placeholder not found in file data, store found percent symbol as is and advance to the next position
{
// but first, store read file data in cache
_cache.insert(_cache.begin(), buf + (&data[len - 1] - pTemplateStart), buf + (&data[len - 1] - pTemplateStart) + readFromCacheOrContent);
++pTemplateStart;
}
} else // closing placeholder not found in content data, store found percent symbol as is and advance to the next position
++pTemplateStart;
} else // closing placeholder not found in content data, store found percent symbol as is and advance to the next position
++pTemplateStart;
if (paramName.length()) {
// call callback and replace with result.
// Everything in range [pTemplateStart, pTemplateEnd] can be safely replaced with parameter value.
// Data after pTemplateEnd may need to be moved.
// The first byte of data after placeholder is located at pTemplateEnd + 1.
// It should be located at pTemplateStart + numBytesCopied (to begin right after inserted parameter value).
const String paramValue(_callback(paramName));
const char * pvstr = paramValue.c_str();
const unsigned int pvlen = paramValue.length();
const size_t numBytesCopied = std::min(pvlen, static_cast<unsigned int>(&data[originalLen - 1] - pTemplateStart + 1));
// make room for param value
// 1. move extra data to cache if parameter value is longer than placeholder AND if there is no room to store
if ((pTemplateEnd + 1 < pTemplateStart + numBytesCopied) && (originalLen - (pTemplateStart + numBytesCopied - pTemplateEnd - 1) < len)) {
_cache.insert(_cache.begin(), &data[originalLen - (pTemplateStart + numBytesCopied - pTemplateEnd - 1)], &data[len]);
//2. parameter value is longer than placeholder text, push the data after placeholder which not saved into cache further to the end
memmove(pTemplateStart + numBytesCopied, pTemplateEnd + 1, &data[originalLen] - pTemplateStart - numBytesCopied);
len = originalLen; // fix issue with truncated data, not sure if it has any side effects
} else if (pTemplateEnd + 1 != pTemplateStart + numBytesCopied)
//2. Either parameter value is shorter than placeholder text OR there is enough free space in buffer to fit.
// Move the entire data after the placeholder
memmove(pTemplateStart + numBytesCopied, pTemplateEnd + 1, &data[len] - pTemplateEnd - 1);
// 3. replace placeholder with actual value
memcpy(pTemplateStart, pvstr, numBytesCopied);
// If result is longer than buffer, copy the remainder into cache (this could happen only if placeholder text itself did not fit entirely in buffer)
if (numBytesCopied < pvlen) {
_cache.insert(_cache.begin(), pvstr + numBytesCopied, pvstr + pvlen);
} else if (pTemplateStart + numBytesCopied < pTemplateEnd + 1) { // result is copied fully; if result is shorter than placeholder text...
// there is some free room, fill it from cache
const size_t roomFreed = pTemplateEnd + 1 - pTemplateStart - numBytesCopied;
const size_t totalFreeRoom = originalLen - len + roomFreed;
len += _readDataFromCacheOrContent(&data[len - roomFreed], totalFreeRoom) - roomFreed;
} else { // result is copied fully; it is longer than placeholder text
const size_t roomTaken = pTemplateStart + numBytesCopied - pTemplateEnd - 1;
len = std::min(len + roomTaken, originalLen);
}
}
} // while(pTemplateStart)
return len;
}
/*
* File Response
* */
AsyncFileResponse::~AsyncFileResponse() {
if (_content)
_content.close();
}
void AsyncFileResponse::_setContentType(const String & path) {
#if HAVE_EXTERN_GET_CONTENT_TYPE_FUNCTION
extern const __FlashStringHelper * getContentType(const String & path);
_contentType = getContentType(path);
#else
if (path.endsWith(F(".html")))
_contentType = F("text/html");
else if (path.endsWith(F(".htm")))
_contentType = F("text/html");
else if (path.endsWith(F(".css")))
_contentType = F("text/css");
else if (path.endsWith(F(".json")))
_contentType = F("application/json");
else if (path.endsWith(F(".js")))
_contentType = F("application/javascript");
else if (path.endsWith(F(".png")))
_contentType = F("image/png");
else if (path.endsWith(F(".gif")))
_contentType = F("image/gif");
else if (path.endsWith(F(".jpg")))
_contentType = F("image/jpeg");
else if (path.endsWith(F(".ico")))
_contentType = F("image/x-icon");
else if (path.endsWith(F(".svg")))
_contentType = F("image/svg+xml");
else if (path.endsWith(F(".eot")))
_contentType = F("font/eot");
else if (path.endsWith(F(".woff")))
_contentType = F("font/woff");
else if (path.endsWith(F(".woff2")))
_contentType = F("font/woff2");
else if (path.endsWith(F(".ttf")))
_contentType = F("font/ttf");
else if (path.endsWith(F(".xml")))
_contentType = F("text/xml");
else if (path.endsWith(F(".pdf")))
_contentType = F("application/pdf");
else if (path.endsWith(F(".zip")))
_contentType = F("application/zip");
else if (path.endsWith(F(".gz")))
_contentType = F("application/x-gzip");
else
_contentType = F("text/plain");
#endif
}
AsyncFileResponse::AsyncFileResponse(FS & fs, const String & path, const String & contentType, bool download, AwsTemplateProcessor callback)
: AsyncAbstractResponse(callback) {
_code = 200;
_path = path;
if (!download && !fs.exists(_path) && fs.exists(_path + F(".gz"))) {
_path = _path + F(".gz");
addHeader(F("Content-Encoding"), F("gzip"));
_callback = nullptr; // Unable to process zipped templates
_sendContentLength = true;
_chunked = false;
}
_content = fs.open(_path, fs::FileOpenMode::read);
_contentLength = _content.size();
if (contentType.length() == 0)
_setContentType(path);
else
_contentType = contentType;
int filenameStart = path.lastIndexOf('/') + 1;
char buf[26 + path.length() - filenameStart];
char * filename = (char *)path.c_str() + filenameStart;
if (download) {
// set filename and force download
snprintf_P(buf, sizeof(buf), PSTR("attachment; filename=\"%s\""), filename);
} else {
// set filename and force rendering
snprintf_P(buf, sizeof(buf), PSTR("inline; filename=\"%s\""), filename);
}
addHeader(F("Content-Disposition"), buf);
}
AsyncFileResponse::AsyncFileResponse(File content, const String & path, const String & contentType, bool download, AwsTemplateProcessor callback)
: AsyncAbstractResponse(callback) {
_code = 200;
_path = path;
if (!download && String(content.name()).endsWith(F(".gz")) && !path.endsWith(F(".gz"))) {
addHeader(F("Content-Encoding"), F("gzip"));
_callback = nullptr; // Unable to process gzipped templates
_sendContentLength = true;
_chunked = false;
}
_content = content;
_contentLength = _content.size();
if (contentType.length() == 0)
_setContentType(path);
else
_contentType = contentType;
int filenameStart = path.lastIndexOf('/') + 1;
char buf[26 + path.length() - filenameStart];
char * filename = (char *)path.c_str() + filenameStart;
if (download) {
snprintf_P(buf, sizeof(buf), PSTR("attachment; filename=\"%s\""), filename);
} else {
snprintf_P(buf, sizeof(buf), PSTR("inline; filename=\"%s\""), filename);
}
addHeader(F("Content-Disposition"), buf);
}
size_t AsyncFileResponse::_fillBuffer(uint8_t * data, size_t len) {
return _content.read(data, len);
}
/*
* Stream Response
* */
AsyncStreamResponse::AsyncStreamResponse(Stream & stream, const String & contentType, size_t len, AwsTemplateProcessor callback)
: AsyncAbstractResponse(callback) {
_code = 200;
_content = &stream;
_contentLength = len;
_contentType = contentType;
}
size_t AsyncStreamResponse::_fillBuffer(uint8_t * data, size_t len) {
size_t available = _content->available();
size_t outLen = (available > len) ? len : available;
size_t i;
for (i = 0; i < outLen; i++)
data[i] = _content->read();
return outLen;
}
/*
* Callback Response
* */
AsyncCallbackResponse::AsyncCallbackResponse(const String & contentType, size_t len, AwsResponseFiller callback, AwsTemplateProcessor templateCallback)
: AsyncAbstractResponse(templateCallback) {
_code = 200;
_content = callback;
_contentLength = len;
if (!len)
_sendContentLength = false;
_contentType = contentType;
_filledLength = 0;
}
size_t AsyncCallbackResponse::_fillBuffer(uint8_t * data, size_t len) {
size_t ret = _content(data, len, _filledLength);
if (ret != RESPONSE_TRY_AGAIN) {
_filledLength += ret;
}
return ret;
}
/*
* Chunked Response
* */
AsyncChunkedResponse::AsyncChunkedResponse(const String & contentType, AwsResponseFiller callback, AwsTemplateProcessor processorCallback)
: AsyncAbstractResponse(processorCallback) {
_code = 200;
_content = callback;
_contentLength = 0;
_contentType = contentType;
_sendContentLength = false;
_chunked = true;
_filledLength = 0;
}
size_t AsyncChunkedResponse::_fillBuffer(uint8_t * data, size_t len) {
size_t ret = _content(data, len, _filledLength);
if (ret != RESPONSE_TRY_AGAIN) {
_filledLength += ret;
}
return ret;
}
/*
* Progmem Response
* */
AsyncProgmemResponse::AsyncProgmemResponse(int code, const String & contentType, const uint8_t * content, size_t len, AwsTemplateProcessor callback)
: AsyncAbstractResponse(callback) {
_code = code;
_content = content;
_contentType = contentType;
_contentLength = len;
_readLength = 0;
}
size_t AsyncProgmemResponse::_fillBuffer(uint8_t * data, size_t len) {
size_t left = _contentLength - _readLength;
if (left > len) {
memcpy_P(data, _content + _readLength, len);
_readLength += len;
return len;
}
memcpy_P(data, _content + _readLength, left);
_readLength += left;
return left;
}
/*
* Response Stream (You can print/write/printf to it, up to the contentLen bytes)
* */
AsyncResponseStream::AsyncResponseStream(const String & contentType, size_t bufferSize) {
_code = 200;
_contentLength = 0;
_contentType = contentType;
_content = new cbuf(bufferSize);
}
AsyncResponseStream::~AsyncResponseStream() {
delete _content;
}
size_t AsyncResponseStream::_fillBuffer(uint8_t * buf, size_t maxLen) {
return _content->read((char *)buf, maxLen);
}
size_t AsyncResponseStream::write(const uint8_t * data, size_t len) {
if (_started())
return 0;
if (len > _content->room()) {
size_t needed = len - _content->room();
_content->resizeAdd(needed);
}
size_t written = _content->write((const char *)data, len);
_contentLength += written;
return written;
}
size_t AsyncResponseStream::write(uint8_t data) {
return write(&data, 1);
}

43
lib/ESPAsyncWebServer/library.json Normal file
View File

@@ -0,0 +1,43 @@
{
"name": "ESP Async WebServer",
"version": "2.6.1",
"description": "Asynchronous HTTP and WebSocket Server Library for ESP32. Supports: WebSocket, SSE, Authentication, Arduino Json 7, File Upload, Static File serving, URL Rewrite, URL Redirect, etc.",
"keywords": "http,async,websocket,webserver",
"homepage": "https://github.com/mathieucarbou/ESPAsyncWebServer",
"repository": {
"type": "git",
"url": "https://github.com/mathieucarbou/ESPAsyncWebServer.git"
},
"authors": [
{
"name": "Hristo Gochkov"
},
{
"name": "Mathieu Carbou",
"maintainer": true
}
],
"license": "LGPL-3.0",
"frameworks": "arduino",
"platforms": [
"espressif32"
],
"dependencies": [
{
"owner": "esphome",
"name": "AsyncTCP-esphome",
"version": "^2.1.1",
"platforms": "espressif32"
}
],
"export": {
"include": [
"examples",
"src",
"library.json",
"library.properties",
"LICENSE",
"README.md"
]
}
}

10
lib/ESPAsyncWebServer/library.properties Normal file
View File

@@ -0,0 +1,10 @@
name=ESP Async WebServer
version=2.6.1
author=Me-No-Dev
maintainer=Mathieu Carbou <mathieu.carbou@gmail.com>
sentence=Asynchronous HTTP and WebSocket Server Library for ESP32
paragraph=Supports: WebSocket, SSE, Authentication, Arduino Json 7, File Upload, Static File serving, URL Rewrite, URL Redirect, etc
category=Other
url=https://github.com/mathieucarbou/ESPAsyncWebServer
architectures=esp32
license=LGPL-3.0

112
lib/ESPAsyncWebServer/AsyncEventSource.cpp → lib/ESPAsyncWebServer/src/AsyncEventSource.cpp
View File

@@ -137,16 +137,17 @@ size_t AsyncEventSourceMessage::ack(size_t len, uint32_t time) {
return 0;
}
// This could also return void as the return value is not used.
// Leaving as-is for compatibility...
size_t AsyncEventSourceMessage::send(AsyncClient *client) {
const size_t len = _len - _sent;
if(client->space() < len){
return 0;
}
size_t sent = client->add((const char *)_data, len);
if(client->canSend())
client->send();
_sent += sent;
return sent;
if (_sent >= _len) {
return 0;
}
const size_t len_to_send = _len - _sent;
auto position = reinterpret_cast<const char*>(_data + _sent);
const size_t sent_now = client->write(position, len_to_send);
_sent += sent_now;
return sent_now;
}
// Client
@@ -173,7 +174,9 @@ AsyncEventSourceClient::AsyncEventSourceClient(AsyncWebServerRequest *request, A
}
AsyncEventSourceClient::~AsyncEventSourceClient(){
_messageQueue.free();
_lockmq.lock();
_messageQueue.free();
_lockmq.unlock();
close();
}
@@ -184,33 +187,41 @@ void AsyncEventSourceClient::_queueMessage(AsyncEventSourceMessage *dataMessage)
delete dataMessage;
return;
}
//length() is not thread-safe, thus acquiring the lock before this call..
_lockmq.lock();
if(_messageQueue.length() >= SSE_MAX_QUEUED_MESSAGES){
// ets_printf(String(F("ERROR: Too many messages queued\n")).c_str());
ets_printf(String(F("ERROR: Too many messages queued\n")).c_str());
delete dataMessage;
} else {
_messageQueue.add(dataMessage);
_messageQueue.add(dataMessage);
// runqueue trigger when new messages added
if(_client->canSend()) {
_runQueue();
}
}
if(_client->canSend())
_runQueue();
_lockmq.unlock();
}
void AsyncEventSourceClient::_onAck(size_t len, uint32_t time){
// Same here, acquiring the lock early
_lockmq.lock();
while(len && !_messageQueue.isEmpty()){
len = _messageQueue.front()->ack(len, time);
if(_messageQueue.front()->finished())
_messageQueue.remove(_messageQueue.front());
}
_runQueue();
_lockmq.unlock();
}
void AsyncEventSourceClient::_onPoll(){
_lockmq.lock();
if(!_messageQueue.isEmpty()){
_runQueue();
}
_lockmq.unlock();
}
void AsyncEventSourceClient::_onTimeout(uint32_t time __attribute__((unused))){
_client->close(true);
}
@@ -234,15 +245,23 @@ void AsyncEventSourceClient::send(const char *message, const char *event, uint32
_queueMessage(new AsyncEventSourceMessage(ev.c_str(), ev.length()));
}
void AsyncEventSourceClient::_runQueue(){
while(!_messageQueue.isEmpty() && _messageQueue.front()->finished()){
_messageQueue.remove(_messageQueue.front());
}
size_t AsyncEventSourceClient::packetsWaiting() const {
size_t len;
_lockmq.lock();
len = _messageQueue.length();
_lockmq.unlock();
return len;
}
for(auto i = _messageQueue.begin(); i != _messageQueue.end(); ++i)
{
if(!(*i)->sent())
void AsyncEventSourceClient::_runQueue() {
// Calls to this private method now already protected by _lockmq acquisition
// so no extra call of _lockmq.lock() here..
for (auto i = _messageQueue.begin(); i != _messageQueue.end(); ++i) {
// If it crashes here, iterator (i) has been invalidated as _messageQueue
// has been changed... (UL 2020-11-15: Not supposed to happen any more ;-) )
if (!(*i)->sent()) {
(*i)->send(_client);
}
}
}
@@ -263,6 +282,10 @@ void AsyncEventSource::onConnect(ArEventHandlerFunction cb){
_connectcb = cb;
}
void AsyncEventSource::authorizeConnect(ArAuthorizeConnectHandler cb){
_authorizeConnectHandler = cb;
}
void AsyncEventSource::_addClient(AsyncEventSourceClient * client){
/*char * temp = (char *)malloc(2054);
if(temp != NULL){
@@ -276,17 +299,22 @@ void AsyncEventSource::_addClient(AsyncEventSourceClient * client){
client->write((const char *)temp, 2053);
free(temp);
}*/
AsyncWebLockGuard l(_client_queue_lock);
_clients.add(client);
if(_connectcb)
_connectcb(client);
}
void AsyncEventSource::_handleDisconnect(AsyncEventSourceClient * client){
AsyncWebLockGuard l(_client_queue_lock);
_clients.remove(client);
}
void AsyncEventSource::close(){
// While the whole loop is not done, the linked list is locked and so the
// iterator should remain valid even when AsyncEventSource::_handleDisconnect()
// is called very early
AsyncWebLockGuard l(_client_queue_lock);
for(const auto &c: _clients){
if(c->connected())
c->close();
@@ -295,26 +323,25 @@ void AsyncEventSource::close(){
// pmb fix
size_t AsyncEventSource::avgPacketsWaiting() const {
if(_clients.isEmpty())
size_t aql = 0;
uint32_t nConnectedClients = 0;
AsyncWebLockGuard l(_client_queue_lock);
if (_clients.isEmpty()) {
return 0;
size_t aql=0;
uint32_t nConnectedClients=0;
}
for(const auto &c: _clients){
if(c->connected()) {
aql+=c->packetsWaiting();
aql += c->packetsWaiting();
++nConnectedClients;
}
}
// return aql / nConnectedClients;
return ((aql) + (nConnectedClients/2))/(nConnectedClients); // round up
return ((aql) + (nConnectedClients/2)) / (nConnectedClients); // round up
}
void AsyncEventSource::send(const char *message, const char *event, uint32_t id, uint32_t reconnect){
void AsyncEventSource::send(
const char *message, const char *event, uint32_t id, uint32_t reconnect){
String ev = generateEventMessage(message, event, id, reconnect);
AsyncWebLockGuard l(_client_queue_lock);
for(const auto &c: _clients){
if(c->connected()) {
c->write(ev.c_str(), ev.length());
@@ -323,9 +350,12 @@ void AsyncEventSource::send(const char *message, const char *event, uint32_t id,
}
size_t AsyncEventSource::count() const {
return _clients.count_if([](AsyncEventSourceClient *c){
return c->connected();
});
size_t n_clients;
AsyncWebLockGuard l(_client_queue_lock);
n_clients = _clients.count_if([](AsyncEventSourceClient *c){
return c->connected();
});
return n_clients;
}
bool AsyncEventSource::canHandle(AsyncWebServerRequest *request){
@@ -333,6 +363,7 @@ bool AsyncEventSource::canHandle(AsyncWebServerRequest *request){
return false;
}
request->addInterestingHeader(F("Last-Event-ID"));
request->addInterestingHeader("Cookie");
return true;
}
@@ -340,6 +371,11 @@ void AsyncEventSource::handleRequest(AsyncWebServerRequest *request){
if((_username.length() && _password.length()) && !request->authenticate(_username.c_str(), _password.c_str())) {
return request->requestAuthentication();
}
if(_authorizeConnectHandler != NULL){
if(!_authorizeConnectHandler(request)){
return request->send(401);
}
}
request->send(new AsyncEventSourceResponse(this));
}

24
lib/ESPAsyncWebServer/AsyncEventSource.h → lib/ESPAsyncWebServer/src/AsyncEventSource.h
View File

@@ -23,11 +23,16 @@
#include <Arduino.h>
#ifdef ESP32
#include <AsyncTCP.h>
#ifndef SSE_MAX_QUEUED_MESSAGES
#define SSE_MAX_QUEUED_MESSAGES 32
#endif
#else
#include <ESPAsyncTCP.h>
#ifndef SSE_MAX_QUEUED_MESSAGES
#define SSE_MAX_QUEUED_MESSAGES 8
#endif
#endif
#include <ESPAsyncWebServer.h>
#include "AsyncWebSynchronization.h"
@@ -49,14 +54,15 @@ class AsyncEventSource;
class AsyncEventSourceResponse;
class AsyncEventSourceClient;
typedef std::function<void(AsyncEventSourceClient *client)> ArEventHandlerFunction;
typedef std::function<bool(AsyncWebServerRequest *request)> ArAuthorizeConnectHandler;
class AsyncEventSourceMessage {
private:
uint8_t * _data;
uint8_t * _data;
size_t _len;
size_t _sent;
//size_t _ack;
size_t _acked;
size_t _acked;
public:
AsyncEventSourceMessage(const char * data, size_t len);
~AsyncEventSourceMessage();
@@ -72,6 +78,8 @@ class AsyncEventSourceClient {
AsyncEventSource *_server;
uint32_t _lastId;
LinkedList<AsyncEventSourceMessage *> _messageQueue;
// ArFi 2020-08-27 for protecting/serializing _messageQueue
AsyncPlainLock _lockmq;
void _queueMessage(AsyncEventSourceMessage *dataMessage);
void _runQueue();
@@ -86,11 +94,11 @@ class AsyncEventSourceClient {
void send(const char *message, const char *event=NULL, uint32_t id=0, uint32_t reconnect=0);
bool connected() const { return (_client != NULL) && _client->connected(); }
uint32_t lastId() const { return _lastId; }
size_t packetsWaiting() const { return _messageQueue.length(); }
size_t packetsWaiting() const;
//system callbacks (do not call)
void _onAck(size_t len, uint32_t time);
void _onPoll();
void _onPoll();
void _onTimeout(uint32_t time);
void _onDisconnect();
};
@@ -99,7 +107,11 @@ class AsyncEventSource: public AsyncWebHandler {
private:
String _url;
LinkedList<AsyncEventSourceClient *> _clients;
// Same as for individual messages, protect mutations of _clients list
// since simultaneous access from different tasks is possible
AsyncWebLock _client_queue_lock;
ArEventHandlerFunction _connectcb;
ArAuthorizeConnectHandler _authorizeConnectHandler;
public:
AsyncEventSource(const String& url);
~AsyncEventSource();
@@ -107,8 +119,10 @@ class AsyncEventSource: public AsyncWebHandler {
const char * url() const { return _url.c_str(); }
void close();
void onConnect(ArEventHandlerFunction cb);
void authorizeConnect(ArAuthorizeConnectHandler cb);
void send(const char *message, const char *event=NULL, uint32_t id=0, uint32_t reconnect=0);
size_t count() const; //number clinets connected
// number of clients connected
size_t count() const;
size_t avgPacketsWaiting() const;
//system callbacks (do not call)

130
lib/ESPAsyncWebServer/AsyncJson.h → lib/ESPAsyncWebServer/src/AsyncJson.h
View File

@@ -2,21 +2,53 @@
/*
Async Response to use with ArduinoJson and AsyncWebServer
Written by Andrew Melvin (SticilFace) with help from me-no-dev and BBlanchon.
*/
Example of callback in use
server.on("/json", HTTP_ANY, [](AsyncWebServerRequest * request) {
AsyncJsonResponse * response = new AsyncJsonResponse();
JsonObject& root = response->getRoot();
root["key1"] = "key number one";
JsonObject& nested = root.createNestedObject("nested");
nested["key1"] = "key number one";
response->setLength();
request->send(response);
});
--------------------
Async Request to use with ArduinoJson and AsyncWebServer
Written by Arsène von Wyss (avonwyss)
Example
AsyncCallbackJsonWebHandler* handler = new AsyncCallbackJsonWebHandler("/rest/endpoint");
handler->onRequest([](AsyncWebServerRequest *request, JsonVariant &json) {
JsonObject& jsonObj = json.as<JsonObject>();
// ...
});
server.addHandler(handler);
*/
#ifndef ASYNC_JSON_H_
#define ASYNC_JSON_H_
#include <ArduinoJson.h>
#include <ESPAsyncWebServer.h>
#include <Print.h>
#if ARDUINOJSON_VERSION_MAJOR == 6
#ifndef DYNAMIC_JSON_DOCUMENT_SIZE
#define DYNAMIC_JSON_DOCUMENT_SIZE 1024
#endif
#endif
constexpr const char * JSON_MIMETYPE = "application/json";
/*
* Json Response
*/
* */
class ChunkPrint : public Print {
private:
@@ -97,31 +129,66 @@ class MsgpackAsyncJsonResponse : public AsyncAbstractResponse {
class AsyncJsonResponse : public AsyncAbstractResponse {
protected:
#if ARDUINOJSON_VERSION_MAJOR == 5
DynamicJsonBuffer _jsonBuffer;
#elif ARDUINOJSON_VERSION_MAJOR == 6
DynamicJsonDocument _jsonBuffer;
#else
JsonDocument _jsonBuffer;
JsonVariant _root;
bool _isValid;
#endif
JsonVariant _root;
bool _isValid;
public:
#if ARDUINOJSON_VERSION_MAJOR == 5
AsyncJsonResponse(bool isArray = false)
: _isValid{false} {
_code = 200;
_contentType = JSON_MIMETYPE;
if (isArray)
_root = _jsonBuffer.to<JsonArray>();
_root = _jsonBuffer.createArray();
else
_root = _jsonBuffer.createObject();
}
#elif ARDUINOJSON_VERSION_MAJOR == 6
AsyncJsonResponse(bool isArray = false, size_t maxJsonBufferSize = DYNAMIC_JSON_DOCUMENT_SIZE)
: _jsonBuffer(maxJsonBufferSize)
, _isValid{false} {
_code = 200;
_contentType = JSON_MIMETYPE;
if (isArray)
_root = _jsonBuffer.createNestedArray();
else
_root = _jsonBuffer.createNestedObject();
}
#else
AsyncJsonResponse(bool isArray = false)
: _isValid{false} {
_code = 200;
_contentType = JSON_MIMETYPE;
if (isArray)
_root = _jsonBuffer.add<JsonArray>();
else
_root = _jsonBuffer.add<JsonObject>();
}
#endif
~AsyncJsonResponse() {
}
JsonVariant getRoot() {
JsonVariant & getRoot() {
return _root;
}
bool _sourceValid() const {
return _isValid;
}
size_t setLength() {
#if ARDUINOJSON_VERSION_MAJOR == 5
_contentLength = _root.measureLength();
#else
_contentLength = measureJson(_root);
#endif
if (_contentLength) {
_isValid = true;
}
@@ -134,18 +201,33 @@ class AsyncJsonResponse : public AsyncAbstractResponse {
size_t _fillBuffer(uint8_t * data, size_t len) {
ChunkPrint dest(data, _sentLength, len);
#if ARDUINOJSON_VERSION_MAJOR == 5
_root.printTo(dest);
#else
serializeJson(_root, dest);
#endif
return len;
}
};
class PrettyAsyncJsonResponse : public AsyncJsonResponse {
public:
#if ARDUINOJSON_VERSION_MAJOR == 6
PrettyAsyncJsonResponse(bool isArray = false, size_t maxJsonBufferSize = DYNAMIC_JSON_DOCUMENT_SIZE)
: AsyncJsonResponse{isArray, maxJsonBufferSize} {
}
#else
PrettyAsyncJsonResponse(bool isArray = false)
: AsyncJsonResponse{isArray} {
}
#endif
size_t setLength() {
#if ARDUINOJSON_VERSION_MAJOR == 5
_contentLength = _root.measurePrettyLength();
#else
_contentLength = measureJsonPretty(_root);
#endif
if (_contentLength) {
_isValid = true;
}
@@ -153,12 +235,16 @@ class PrettyAsyncJsonResponse : public AsyncJsonResponse {
}
size_t _fillBuffer(uint8_t * data, size_t len) {
ChunkPrint dest(data, _sentLength, len);
#if ARDUINOJSON_VERSION_MAJOR == 5
_root.prettyPrintTo(dest);
#else
serializeJsonPretty(_root, dest);
#endif
return len;
}
};
typedef std::function<void(AsyncWebServerRequest * request, JsonVariant json)> ArJsonRequestHandlerFunction;
typedef std::function<void(AsyncWebServerRequest * request, JsonVariant & json)> ArJsonRequestHandlerFunction;
class AsyncCallbackJsonWebHandler : public AsyncWebHandler {
private:
@@ -167,18 +253,28 @@ class AsyncCallbackJsonWebHandler : public AsyncWebHandler {
WebRequestMethodComposite _method;
ArJsonRequestHandlerFunction _onRequest;
size_t _contentLength;
#ifndef ARDUINOJSON_5_COMPATIBILITY
size_t _maxJsonBufferSize;
#if ARDUINOJSON_VERSION_MAJOR == 6
const size_t maxJsonBufferSize;
#endif
size_t _maxContentLength;
public:
#if ARDUINOJSON_VERSION_MAJOR == 6
AsyncCallbackJsonWebHandler(const String & uri, ArJsonRequestHandlerFunction onRequest, size_t maxJsonBufferSize = DYNAMIC_JSON_DOCUMENT_SIZE)
: _uri(uri)
, _method(HTTP_POST | HTTP_PUT | HTTP_PATCH)
, _onRequest(onRequest)
, maxJsonBufferSize(maxJsonBufferSize)
, _maxContentLength(16384) {
}
#else
AsyncCallbackJsonWebHandler(const String & uri, ArJsonRequestHandlerFunction onRequest)
: _uri(uri)
, _method(HTTP_POST | HTTP_PUT | HTTP_PATCH)
, _onRequest(onRequest)
, _maxContentLength(16384) {
}
#endif
void setMethod(WebRequestMethodComposite method) {
_method = method;
@@ -186,9 +282,6 @@ class AsyncCallbackJsonWebHandler : public AsyncWebHandler {
void setMaxContentLength(int maxContentLength) {
_maxContentLength = maxContentLength;
}
// void setMaxJsonBufferSize(size_t maxJsonBufferSize) {
// _maxJsonBufferSize = maxJsonBufferSize;
// }
void onRequest(ArJsonRequestHandlerFunction fn) {
_onRequest = fn;
}
@@ -213,10 +306,22 @@ class AsyncCallbackJsonWebHandler : public AsyncWebHandler {
virtual void handleRequest(AsyncWebServerRequest * request) override final {
if (_onRequest) {
if (request->_tempObject != NULL) {
#if ARDUINOJSON_VERSION_MAJOR == 5
DynamicJsonBuffer jsonBuffer;
JsonVariant json = jsonBuffer.parse((uint8_t *)(request->_tempObject));
if (json.success()) {
#elif ARDUINOJSON_VERSION_MAJOR == 6
DynamicJsonDocument jsonBuffer(this->maxJsonBufferSize);
DeserializationError error = deserializeJson(jsonBuffer, (uint8_t *)(request->_tempObject));
if (!error) {
JsonVariant json = jsonBuffer.as<JsonVariant>();
#else
JsonDocument jsonBuffer;
DeserializationError error = deserializeJson(jsonBuffer, (uint8_t *)(request->_tempObject));
if (!error) {
JsonVariant json = jsonBuffer.as<JsonVariant>();
#endif
_onRequest(request, json);
return;
}
@@ -243,5 +348,4 @@ class AsyncCallbackJsonWebHandler : public AsyncWebHandler {
return _onRequest ? false : true;
}
};
#endif

1311
lib/ESPAsyncWebServer/src/AsyncWebSocket.cpp Normal file
View File

File diff suppressed because it is too large Load Diff

294
lib/ESPAsyncWebServer/AsyncWebSocket.h → lib/ESPAsyncWebServer/src/AsyncWebSocket.h
View File

@@ -27,27 +27,20 @@
#ifndef WS_MAX_QUEUED_MESSAGES
#define WS_MAX_QUEUED_MESSAGES 32
#endif
#ifndef WS_MAX_QUEUED_MESSAGES_SIZE
#define WS_MAX_QUEUED_MESSAGES_SIZE 65535
#endif
#else
#include <ESPAsyncTCP.h>
#ifndef WS_MAX_QUEUED_MESSAGES
#define WS_MAX_QUEUED_MESSAGES 8
#endif
#ifndef WS_MAX_QUEUED_MESSAGES_SIZE
#define WS_MAX_QUEUED_MESSAGES_SIZE 8192
#endif
#endif
#include <ESPAsyncWebServer.h>
// 0 = disable
#ifndef WS_MAX_QUEUED_MESSAGES_MIN_HEAP
#define WS_MAX_QUEUED_MESSAGES_MIN_HEAP 0
#endif
#include "AsyncWebSynchronization.h"
#include <list>
#include <deque>
#include <memory>
#ifdef ESP8266
#include <Hash.h>
#ifdef CRYPTO_HASH_h // include Hash.h from espressif framework if the first include was from the crypto library
@@ -96,107 +89,41 @@ typedef enum { WS_MSG_SENDING, WS_MSG_SENT, WS_MSG_ERROR } AwsMessageStatus;
typedef enum { WS_EVT_CONNECT, WS_EVT_DISCONNECT, WS_EVT_PONG, WS_EVT_ERROR, WS_EVT_DATA } AwsEventType;
class AsyncWebSocketMessageBuffer {
friend AsyncWebSocket;
friend AsyncWebSocketClient;
private:
uint8_t * _data;
size_t _len;
bool _lock;
uint32_t _count;
std::shared_ptr<std::vector<uint8_t>> _buffer;
public:
AsyncWebSocketMessageBuffer();
AsyncWebSocketMessageBuffer(size_t size);
AsyncWebSocketMessageBuffer(uint8_t * data, size_t size);
AsyncWebSocketMessageBuffer(const AsyncWebSocketMessageBuffer &);
AsyncWebSocketMessageBuffer(AsyncWebSocketMessageBuffer &&);
AsyncWebSocketMessageBuffer(uint8_t* data, size_t size);
~AsyncWebSocketMessageBuffer();
void operator ++(int i) { (void)i; _count++; }
void operator --(int i) { (void)i; if (_count > 0) { _count--; } ; }
bool reserve(size_t size);
void lock() { _lock = true; }
void unlock() { _lock = false; }
uint8_t * get() { return _data; }
size_t length() { return _len; }
uint32_t count() { return _count; }
bool canDelete() { return (!_count && !_lock); }
friend AsyncWebSocket;
uint8_t* get() { return _buffer->data(); }
size_t length() const { return _buffer->size(); }
};
class AsyncWebSocketMessage {
protected:
uint8_t _opcode;
bool _mask;
AwsMessageStatus _status;
public:
AsyncWebSocketMessage():_opcode(WS_TEXT),_mask(false),_status(WS_MSG_ERROR){}
virtual ~AsyncWebSocketMessage(){}
virtual void ack(size_t len __attribute__((unused)), uint32_t time __attribute__((unused))){}
virtual size_t send(AsyncClient *client __attribute__((unused))){ return 0; }
virtual bool finished(){ return _status != WS_MSG_SENDING; }
virtual bool betweenFrames() const { return false; }
};
class AsyncWebSocketBasicMessage: public AsyncWebSocketMessage {
private:
size_t _len;
size_t _sent;
size_t _ack;
size_t _acked;
uint8_t * _data;
public:
AsyncWebSocketBasicMessage(const char * data, size_t len, uint8_t opcode=WS_TEXT, bool mask=false);
AsyncWebSocketBasicMessage(uint8_t opcode=WS_TEXT, bool mask=false);
virtual ~AsyncWebSocketBasicMessage() override;
virtual bool betweenFrames() const override { return _acked == _ack; }
virtual void ack(size_t len, uint32_t time) override ;
virtual size_t send(AsyncClient *client) override ;
};
class AsyncWebSocketMultiMessage: public AsyncWebSocketMessage {
private:
uint8_t * _data;
size_t _len;
size_t _sent;
size_t _ack;
size_t _acked;
AsyncWebSocketMessageBuffer * _WSbuffer;
public:
AsyncWebSocketMultiMessage(AsyncWebSocketMessageBuffer * buffer, uint8_t opcode=WS_TEXT, bool mask=false);
virtual ~AsyncWebSocketMultiMessage() override;
virtual bool betweenFrames() const override { return _acked == _ack; }
virtual void ack(size_t len, uint32_t time) override ;
virtual size_t send(AsyncClient *client) override ;
};
class AsyncWebSocketMessageBufferLinkedList : public LinkedList<AsyncWebSocketMessageBuffer *> {
public:
using T = AsyncWebSocketMessageBuffer *;
using LT = LinkedList<T>;
class AsyncWebSocketMessage
{
private:
void onRemove(AsyncWebSocketMessageBuffer *t) {
_totalSize -= t->length();
_totalCount--;
delete t;
}
std::shared_ptr<std::vector<uint8_t>> _WSbuffer;
uint8_t _opcode{WS_TEXT};
bool _mask{false};
AwsMessageStatus _status{WS_MSG_ERROR};
size_t _sent{};
size_t _ack{};
size_t _acked{};
public:
AsyncWebSocketMessageBufferLinkedList() : LT([this](AsyncWebSocketMessageBuffer *b){ this->onRemove(b); }) {
}
AsyncWebSocketMessage(std::shared_ptr<std::vector<uint8_t>> buffer, uint8_t opcode=WS_TEXT, bool mask=false);
void add(const T& t){
_totalSize += t->length();
_totalCount++;
LT::add(t);
}
bool finished() const { return _status != WS_MSG_SENDING; }
bool betweenFrames() const { return _acked == _ack; }
private:
friend class AsyncWebSocket;
// counters for all web sockets
static size_t _totalCount;
static size_t _totalSize;
void ack(size_t len, uint32_t time);
size_t send(AsyncClient *client);
};
class AsyncWebSocketClient {
@@ -206,8 +133,10 @@ class AsyncWebSocketClient {
uint32_t _clientId;
AwsClientStatus _status;
LinkedList<AsyncWebSocketControl *> _controlQueue;
LinkedList<AsyncWebSocketMessage *> _messageQueue;
AsyncWebLock _lock;
std::deque<AsyncWebSocketControl> _controlQueue;
std::deque<AsyncWebSocketMessage> _messageQueue;
uint8_t _pstate;
AwsFrameInfo _pinfo;
@@ -215,9 +144,10 @@ class AsyncWebSocketClient {
uint32_t _lastMessageTime;
uint32_t _keepAlivePeriod;
void _queueMessage(AsyncWebSocketMessage *dataMessage);
void _queueControl(AsyncWebSocketControl *controlMessage);
void _queueControl(uint8_t opcode, const uint8_t *data=NULL, size_t len=0, bool mask=false);
void _queueMessage(std::shared_ptr<std::vector<uint8_t>> buffer, uint8_t opcode=WS_TEXT, bool mask=false);
void _runQueue();
void _clearQueue();
public:
void *_tempObject;
@@ -226,18 +156,22 @@ class AsyncWebSocketClient {
~AsyncWebSocketClient();
//client id increments for the given server
uint32_t id(){ return _clientId; }
AwsClientStatus status(){ return _status; }
AsyncClient* client(){ return _client; }
uint32_t id() const { return _clientId; }
AwsClientStatus status() const { return _status; }
AsyncClient* client() { return _client; }
const AsyncClient* client() const { return _client; }
AsyncWebSocket *server(){ return _server; }
const AsyncWebSocket *server() const { return _server; }
AwsFrameInfo const &pinfo() const { return _pinfo; }
IPAddress remoteIP();
uint16_t remotePort();
IPAddress remoteIP() const;
uint16_t remotePort() const;
bool shouldBeDeleted() const { return !_client; }
//control frames
void close(uint16_t code=0, const char * message=NULL);
void ping(uint8_t *data=NULL, size_t len=0);
void ping(const uint8_t *data=NULL, size_t len=0);
//set auto-ping period in seconds. disabled if zero (default)
void keepAlivePeriod(uint16_t seconds){
@@ -248,32 +182,32 @@ class AsyncWebSocketClient {
}
//data packets
void message(AsyncWebSocketMessage *message){ _queueMessage(message); }
bool queueIsFull();
void message(std::shared_ptr<std::vector<uint8_t>> buffer, uint8_t opcode=WS_TEXT, bool mask=false) { _queueMessage(buffer, opcode, mask); }
bool queueIsFull() const;
size_t queueLen() const;
size_t printf(const char *format, ...) __attribute__ ((format (printf, 2, 3)));
#ifndef ESP32
size_t printf_P(PGM_P formatP, ...) __attribute__ ((format (printf, 2, 3)));
#endif
void text(const char * message, size_t len);
void text(const char * message);
void text(uint8_t * message, size_t len);
void text(char * message);
void text(const String &message);
void text(const __FlashStringHelper *data);
void text(AsyncWebSocketMessageBuffer *buffer);
void text(std::shared_ptr<std::vector<uint8_t>> buffer);
void text(const uint8_t *message, size_t len);
void text(const char *message, size_t len);
void text(const char *message);
void text(const String &message);
void text(const __FlashStringHelper *message);
void text(AsyncWebSocketMessageBuffer *buffer);
void binary(std::shared_ptr<std::vector<uint8_t>> buffer);
void binary(const uint8_t *message, size_t len);
void binary(const char * message, size_t len);
void binary(const char * message);
void binary(uint8_t * message, size_t len);
void binary(char * message);
void binary(const String &message);
void binary(const __FlashStringHelper *data, size_t len);
void binary(AsyncWebSocketMessageBuffer *buffer);
void binary(const __FlashStringHelper *message, size_t len);
void binary(AsyncWebSocketMessageBuffer *buffer);
bool canSend() { return !_queueIsFull(); }
bool _queueIsFull() const;
bool canSend() const;
//system callbacks (do not call)
void _onAck(size_t len, uint32_t time);
@@ -284,17 +218,17 @@ class AsyncWebSocketClient {
void _onData(void *pbuf, size_t plen);
};
typedef std::function<bool(AsyncWebServerRequest *request)> AwsHandshakeHandler;
typedef std::function<void(AsyncWebSocket * server, AsyncWebSocketClient * client, AwsEventType type, void * arg, uint8_t *data, size_t len)> AwsEventHandler;
//WebServer Handler implementation that plays the role of a socket server
class AsyncWebSocket: public AsyncWebHandler {
public:
typedef LinkedList<AsyncWebSocketClient *> AsyncWebSocketClientLinkedList;
private:
String _url;
AsyncWebSocketClientLinkedList _clients;
std::list<AsyncWebSocketClient> _clients;
uint32_t _cNextId;
AwsEventHandler _eventHandler;
AwsHandshakeHandler _handshakeHandler;
bool _enabled;
AsyncWebLock _lock;
@@ -315,41 +249,36 @@ class AsyncWebSocket: public AsyncWebHandler {
void closeAll(uint16_t code=0, const char * message=NULL);
void cleanupClients(uint16_t maxClients = DEFAULT_MAX_WS_CLIENTS);
void ping(uint32_t id, uint8_t *data=NULL, size_t len=0);
void pingAll(uint8_t *data=NULL, size_t len=0); // done
void ping(uint32_t id, const uint8_t *data=NULL, size_t len=0);
void pingAll(const uint8_t *data=NULL, size_t len=0); // done
void text(uint32_t id, const char * message, size_t len);
void text(uint32_t id, const char * message);
void text(uint32_t id, uint8_t * message, size_t len);
void text(uint32_t id, char * message);
void text(uint32_t id, const uint8_t * message, size_t len);
void text(uint32_t id, const char *message, size_t len);
void text(uint32_t id, const char *message);
void text(uint32_t id, const String &message);
void text(uint32_t id, const __FlashStringHelper *message);
void textAll(std::shared_ptr<std::vector<uint8_t>> buffer);
void textAll(const uint8_t *message, size_t len);
void textAll(const char * message, size_t len);
void textAll(const char * message);
void textAll(uint8_t * message, size_t len);
void textAll(char * message);
void textAll(const String &message);
void textAll(const __FlashStringHelper *message); // need to convert
void textAll(AsyncWebSocketMessageBuffer * buffer);
void textAll(AsyncWebSocketMessageBuffer *buffer);
void binary(uint32_t id, const char * message, size_t len);
void binary(uint32_t id, const char * message);
void binary(uint32_t id, uint8_t * message, size_t len);
void binary(uint32_t id, char * message);
void binary(uint32_t id, const uint8_t *message, size_t len);
void binary(uint32_t id, const char *message, size_t len);
void binary(uint32_t id, const char *message);
void binary(uint32_t id, const String &message);
void binary(uint32_t id, const __FlashStringHelper *message, size_t len);
void binaryAll(const char * message, size_t len);
void binaryAll(const char * message);
void binaryAll(uint8_t * message, size_t len);
void binaryAll(char * message);
void binaryAll(std::shared_ptr<std::vector<uint8_t>> buffer);
void binaryAll(const uint8_t *message, size_t len);
void binaryAll(const char *message, size_t len);
void binaryAll(const char *message);
void binaryAll(const String &message);
void binaryAll(const __FlashStringHelper *message, size_t len);
void binaryAll(AsyncWebSocketMessageBuffer * buffer);
void message(uint32_t id, AsyncWebSocketMessage *message);
void messageAll(AsyncWebSocketMultiMessage *message);
void binaryAll(AsyncWebSocketMessageBuffer *buffer);
size_t printf(uint32_t id, const char *format, ...) __attribute__ ((format (printf, 3, 4)));
size_t printfAll(const char *format, ...) __attribute__ ((format (printf, 2, 3)));
@@ -363,73 +292,24 @@ class AsyncWebSocket: public AsyncWebHandler {
_eventHandler = handler;
}
// Handshake Handler
void handleHandshake(AwsHandshakeHandler handler){
_handshakeHandler = handler;
}
//system callbacks (do not call)
uint32_t _getNextId(){ return _cNextId++; }
void _addClient(AsyncWebSocketClient * client);
void _handleDisconnect(AsyncWebSocketClient * client);
AsyncWebSocketClient *_newClient(AsyncWebServerRequest *request);
void _handleEvent(AsyncWebSocketClient * client, AwsEventType type, void * arg, uint8_t *data, size_t len);
virtual bool canHandle(AsyncWebServerRequest *request) override final;
virtual void handleRequest(AsyncWebServerRequest *request) override final;
// messagebuffer functions/objects.
AsyncWebSocketMessageBuffer * makeBuffer(size_t size = 0);
AsyncWebSocketMessageBuffer * makeBuffer(uint8_t * data, size_t size);
AsyncWebSocketMessageBufferLinkedList _buffers;
void _cleanBuffers();
AsyncWebSocketClientLinkedList getClients() const;
public:
#ifndef DEBUG_AWS_QUEUE_COUNTERS
#define DEBUG_AWS_QUEUE_COUNTERS 0
#endif
#if DEBUG_AWS_QUEUE_COUNTERS
// total for all sockets
size_t getQueuedMessageCount() const {
_verifyCounters();
return AsyncWebSocketMessageBufferLinkedList::_totalCount;
}
size_t getQueuedMessageSize() const {
_verifyCounters();
return AsyncWebSocketMessageBufferLinkedList::_totalSize;
}
static size_t _getQueuedMessageCount() {
return AsyncWebSocketMessageBufferLinkedList::_totalCount;
}
static size_t _getQueuedMessageSize() {
return AsyncWebSocketMessageBufferLinkedList::_totalSize;
}
private:
void _verifyCounters() const {
size_t t=0,c=0;
for(const auto b: _buffers) {
t+=b->length();
c++;
}
if (AsyncWebSocketMessageBufferLinkedList::_totalSize!=t || AsyncWebSocketMessageBufferLinkedList::_totalCount!=c) {
::printf(PSTR("AsyncWebSocketMessageBufferLinkedList size %u=%u cnt %u=%u\n"), AsyncWebSocketMessageBufferLinkedList::_totalSize, t,AsyncWebSocketMessageBufferLinkedList::_totalCount, c);
panic();
}
}
#else
size_t getQueuedMessageCount() const {
return _getQueuedMessageCount();
}
size_t getQueuedMessageSize() const {
return _getQueuedMessageSize();
}
static size_t _getQueuedMessageCount() {
return AsyncWebSocketMessageBufferLinkedList::_totalCount;
}
static size_t _getQueuedMessageSize() {
return AsyncWebSocketMessageBufferLinkedList::_totalSize;
}
#endif
// messagebuffer functions/objects.
AsyncWebSocketMessageBuffer * makeBuffer(size_t size = 0);
AsyncWebSocketMessageBuffer * makeBuffer(uint8_t * data, size_t size);
const std::list<AsyncWebSocketClient> &getClients() const { return _clients; }
};
//WebServer response to authenticate the socket and detach the tcp client from the web server request

134
lib/ESPAsyncWebServer/src/AsyncWebSynchronization.h Normal file
View File

@@ -0,0 +1,134 @@
#ifndef ASYNCWEBSYNCHRONIZATION_H_
#define ASYNCWEBSYNCHRONIZATION_H_
// Synchronisation is only available on ESP32, as the ESP8266 isn't using FreeRTOS by default
#include <ESPAsyncWebServer.h>
#ifdef ESP32
// This is the ESP32 version of the Sync Lock, using the FreeRTOS Semaphore
// Modified 'AsyncWebLock' to just only use mutex since pxCurrentTCB is not
// always available. According to example by Arjan Filius, changed name,
// added unimplemented version for ESP8266
class AsyncPlainLock
{
private:
SemaphoreHandle_t _lock;
public:
AsyncPlainLock() {
_lock = xSemaphoreCreateBinary();
// In this fails, the system is likely that much out of memory that
// we should abort anyways. If assertions are disabled, nothing is lost..
assert(_lock);
xSemaphoreGive(_lock);
}
~AsyncPlainLock() {
vSemaphoreDelete(_lock);
}
bool lock() const {
xSemaphoreTake(_lock, portMAX_DELAY);
return true;
}
void unlock() const {
xSemaphoreGive(_lock);
}
};
// This is the ESP32 version of the Sync Lock, using the FreeRTOS Semaphore
class AsyncWebLock
{
private:
SemaphoreHandle_t _lock;
mutable TaskHandle_t _lockedBy{};
public:
AsyncWebLock()
{
_lock = xSemaphoreCreateBinary();
// In this fails, the system is likely that much out of memory that
// we should abort anyways. If assertions are disabled, nothing is lost..
assert(_lock);
_lockedBy = NULL;
xSemaphoreGive(_lock);
}
~AsyncWebLock() {
vSemaphoreDelete(_lock);
}
bool lock() const {
const auto currentTask = xTaskGetCurrentTaskHandle();
if (_lockedBy != currentTask) {
xSemaphoreTake(_lock, portMAX_DELAY);
_lockedBy = currentTask;
return true;
}
return false;
}
void unlock() const {
_lockedBy = NULL;
xSemaphoreGive(_lock);
}
};
#else
// This is the 8266 version of the Sync Lock which is currently unimplemented
class AsyncWebLock
{
public:
AsyncWebLock() {
}
~AsyncWebLock() {
}
bool lock() const {
return false;
}
void unlock() const {
}
};
// Same for AsyncPlainLock, for ESP8266 this is just the unimplemented version above.
using AsyncPlainLock = AsyncWebLock;
#endif
class AsyncWebLockGuard
{
private:
const AsyncWebLock *_lock;
public:
AsyncWebLockGuard(const AsyncWebLock &l) {
if (l.lock()) {
_lock = &l;
} else {
_lock = NULL;
}
}
~AsyncWebLockGuard() {
if (_lock) {
_lock->unlock();
}
}
void unlock() {
if (_lock) {
_lock->unlock();
_lock = NULL;
}
}
};
#endif // ASYNCWEBSYNCHRONIZATION_H_

987
lib/ESPAsyncWebServer/ESPAsyncWebServer.h → lib/ESPAsyncWebServer/src/ESPAsyncWebServer.h
View File

@@ -1,487 +1,500 @@
/*
Asynchronous WebServer library for Espressif MCUs
Copyright (c) 2016 Hristo Gochkov. All rights reserved.
This file is part of the esp8266 core for Arduino environment.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#ifndef _ESPAsyncWebServer_H_
#define _ESPAsyncWebServer_H_
#include "Arduino.h"
#include <functional>
#include "FS.h"
#include "StringArray.h"
#ifdef ESP32
#include <WiFi.h>
#include <AsyncTCP.h>
#elif defined(ESP8266)
#include <ESP8266WiFi.h>
#include <ESPAsyncTCP.h>
#else
#error Platform not supported
#endif
#ifdef ASYNCWEBSERVER_REGEX
#define ASYNCWEBSERVER_REGEX_ATTRIBUTE
#else
#define ASYNCWEBSERVER_REGEX_ATTRIBUTE __attribute__((warning("ASYNCWEBSERVER_REGEX not defined")))
#endif
#define DEBUGF(...) //Serial.printf(__VA_ARGS__)
class AsyncWebServer;
class AsyncWebServerRequest;
class AsyncWebServerResponse;
class AsyncWebHeader;
class AsyncWebParameter;
class AsyncWebRewrite;
class AsyncWebHandler;
class AsyncStaticWebHandler;
class AsyncCallbackWebHandler;
class AsyncResponseStream;
#ifndef WEBSERVER_H
typedef enum {
HTTP_GET = 0b00000001,
HTTP_POST = 0b00000010,
HTTP_DELETE = 0b00000100,
HTTP_PUT = 0b00001000,
HTTP_PATCH = 0b00010000,
HTTP_HEAD = 0b00100000,
HTTP_OPTIONS = 0b01000000,
HTTP_ANY = 0b01111111,
} WebRequestMethod;
#endif
#ifndef HAVE_FS_FILE_OPEN_MODE
namespace fs {
class FileOpenMode {
public:
static const char *read;
static const char *write;
static const char *append;
};
};
#else
#include "FileOpenMode.h"
#endif
//if this value is returned when asked for data, packet will not be sent and you will be asked for data again
#define RESPONSE_TRY_AGAIN 0xFFFFFFFF
typedef uint8_t WebRequestMethodComposite;
typedef std::function<void(void)> ArDisconnectHandler;
/*
* PARAMETER :: Chainable object to hold GET/POST and FILE parameters
* */
class AsyncWebParameter {
private:
String _name;
String _value;
size_t _size;
bool _isForm;
bool _isFile;
public:
AsyncWebParameter(const String& name, const String& value, bool form=false, bool file=false, size_t size=0): _name(name), _value(value), _size(size), _isForm(form), _isFile(file){}
const String& name() const { return _name; }
const String& value() const { return _value; }
size_t size() const { return _size; }
bool isPost() const { return _isForm; }
bool isFile() const { return _isFile; }
};
/*
* HEADER :: Chainable object to hold the headers
* */
class AsyncWebHeader {
private:
String _name;
String _value;
public:
AsyncWebHeader(const String& name, const String& value): _name(name), _value(value){}
AsyncWebHeader(const String& data): _name(), _value(){
if(!data) return;
int index = data.indexOf(':');
if (index < 0) return;
_name = data.substring(0, index);
_value = data.substring(index + 2);
}
~AsyncWebHeader(){}
const String& name() const { return _name; }
const String& value() const { return _value; }
String toString() const { return String(_name + F(": ") + _value + F("\r\n")); }
};
/*
* REQUEST :: Each incoming Client is wrapped inside a Request and both live together until disconnect
* */
typedef enum { RCT_NOT_USED = -1, RCT_DEFAULT = 0, RCT_HTTP, RCT_WS, RCT_EVENT, RCT_MAX } RequestedConnectionType;
typedef std::function<size_t(uint8_t*, size_t, size_t)> AwsResponseFiller;
typedef std::function<String(const String&)> AwsTemplateProcessor;
class AsyncWebServerRequest {
using File = fs::File;
using FS = fs::FS;
friend class AsyncWebServer;
friend class AsyncCallbackWebHandler;
friend class HttpCookieHeader;
private:
AsyncClient* _client;
AsyncWebServer* _server;
AsyncWebHandler* _handler;
AsyncWebServerResponse* _response;
StringArray _interestingHeaders;
ArDisconnectHandler _onDisconnectfn;
String _temp;
uint8_t _parseState;
uint8_t _version;
WebRequestMethodComposite _method;
String _url;
String _host;
String _contentType;
String _boundary;
String _authorization;
RequestedConnectionType _reqconntype;
void _removeNotInterestingHeaders();
bool _isDigest;
bool _isMultipart;
bool _isPlainPost;
bool _expectingContinue;
size_t _contentLength;
size_t _parsedLength;
LinkedList<AsyncWebHeader *> _headers;
LinkedList<AsyncWebParameter *> _params;
LinkedList<String *> _pathParams;
uint8_t _multiParseState;
uint8_t _boundaryPosition;
size_t _itemStartIndex;
size_t _itemSize;
String _itemName;
String _itemFilename;
String _itemType;
String _itemValue;
uint8_t *_itemBuffer;
size_t _itemBufferIndex;
bool _itemIsFile;
void _onPoll();
void _onAck(size_t len, uint32_t time);
void _onError(int8_t error);
void _onTimeout(uint32_t time);
void _onDisconnect();
void _onData(void *buf, size_t len);
void _addParam(AsyncWebParameter*);
void _addPathParam(const char *param);
bool _parseReqHead();
bool _parseReqHeader();
void _parseLine();
void _parsePlainPostChar(uint8_t data);
void _parseMultipartPostByte(uint8_t data, bool last);
void _addGetParams(const String& params);
void _handleUploadStart();
void _handleUploadByte(uint8_t data, bool last);
void _handleUploadEnd();
public:
File _tempFile;
void *_tempObject;
AsyncWebServerRequest(AsyncWebServer*, AsyncClient*);
~AsyncWebServerRequest();
AsyncClient* client(){ return _client; }
uint8_t version() const { return _version; }
WebRequestMethodComposite method() const { return _method; }
const String& url() const { return _url; }
const String& host() const { return _host; }
const String& contentType() const { return _contentType; }
size_t contentLength() const { return _contentLength; }
bool multipart() const { return _isMultipart; }
const char *methodToString() const;
const char *requestedConnTypeToString() const;
RequestedConnectionType requestedConnType() const { return _reqconntype; }
bool isExpectedRequestedConnType(RequestedConnectionType erct1, RequestedConnectionType erct2 = RCT_NOT_USED, RequestedConnectionType erct3 = RCT_NOT_USED);
void onDisconnect (ArDisconnectHandler fn);
//hash is the string representation of:
// base64(user:pass) for basic or
// user:realm:md5(user:realm:pass) for digest
bool authenticate(const char * hash);
bool authenticate(const char * username, const char * password, const char * realm = NULL, bool passwordIsHash = false);
void requestAuthentication(const char * realm = NULL, bool isDigest = true);
void setHandler(AsyncWebHandler *handler){ _handler = handler; }
void addInterestingHeader(const String& name);
void redirect(const String& url);
void send(AsyncWebServerResponse *response);
void send(int code, const String& contentType=String(), const String& content=String());
void send(FS &fs, const String& path, const String& contentType=String(), bool download=false, AwsTemplateProcessor callback=nullptr);
void send(File content, const String& path, const String& contentType=String(), bool download=false, AwsTemplateProcessor callback=nullptr);
void send(Stream &stream, const String& contentType, size_t len, AwsTemplateProcessor callback=nullptr);
void send(const String& contentType, size_t len, AwsResponseFiller callback, AwsTemplateProcessor templateCallback=nullptr);
void sendChunked(const String& contentType, AwsResponseFiller callback, AwsTemplateProcessor templateCallback=nullptr);
void send_P(int code, const String& contentType, const uint8_t * content, size_t len, AwsTemplateProcessor callback=nullptr);
void send_P(int code, const String& contentType, PGM_P content, AwsTemplateProcessor callback=nullptr);
AsyncWebServerResponse *beginResponse(int code, const String& contentType=String(), const String& content=String());
AsyncWebServerResponse *beginResponse(FS &fs, const String& path, const String& contentType=String(), bool download=false, AwsTemplateProcessor callback=nullptr);
AsyncWebServerResponse *beginResponse(File content, const String& path, const String& contentType=String(), bool download=false, AwsTemplateProcessor callback=nullptr);
AsyncWebServerResponse *beginResponse(Stream &stream, const String& contentType, size_t len, AwsTemplateProcessor callback=nullptr);
AsyncWebServerResponse *beginResponse(const String& contentType, size_t len, AwsResponseFiller callback, AwsTemplateProcessor templateCallback=nullptr);
AsyncWebServerResponse *beginChunkedResponse(const String& contentType, AwsResponseFiller callback, AwsTemplateProcessor templateCallback=nullptr);
AsyncResponseStream *beginResponseStream(const String& contentType, size_t bufferSize=1460);
AsyncWebServerResponse *beginResponse_P(int code, const String& contentType, const uint8_t * content, size_t len, AwsTemplateProcessor callback=nullptr);
AsyncWebServerResponse *beginResponse_P(int code, const String& contentType, PGM_P content, AwsTemplateProcessor callback=nullptr);
size_t headers() const; // get header count
bool hasHeader(const String& name) const; // check if header exists
bool hasHeader(const __FlashStringHelper * data) const; // check if header exists
AsyncWebHeader* getHeader(const String& name) const;
AsyncWebHeader* getHeader(const __FlashStringHelper * data) const;
AsyncWebHeader* getHeader(size_t num) const;
size_t params() const; // get arguments count
bool hasParam(const String& name, bool post=false, bool file=false) const;
bool hasParam(const __FlashStringHelper * data, bool post=false, bool file=false) const;
AsyncWebParameter* getParam(const String& name, bool post=false, bool file=false) const;
AsyncWebParameter* getParam(const __FlashStringHelper * data, bool post, bool file) const;
AsyncWebParameter* getParam(size_t num) const;
size_t args() const { return params(); } // get arguments count
const String& arg(const String& name) const; // get request argument value by name
const String& arg(const __FlashStringHelper * data) const; // get request argument value by F(name)
const String& arg(size_t i) const; // get request argument value by number
const String& argName(size_t i) const; // get request argument name by number
bool hasArg(const char* name) const; // check if argument exists
bool hasArg(const __FlashStringHelper * data) const; // check if F(argument) exists
const String& ASYNCWEBSERVER_REGEX_ATTRIBUTE pathArg(size_t i) const;
const String& header(const char* name) const;// get request header value by name
const String& header(const __FlashStringHelper * data) const;// get request header value by F(name)
const String& header(size_t i) const; // get request header value by number
const String& headerName(size_t i) const; // get request header name by number
String urlDecode(const String& text) const;
};
/*
* FILTER :: Callback to filter AsyncWebRewrite and AsyncWebHandler (done by the Server)
* */
typedef std::function<bool(AsyncWebServerRequest *request)> ArRequestFilterFunction;
bool ON_STA_FILTER(AsyncWebServerRequest *request);
bool ON_AP_FILTER(AsyncWebServerRequest *request);
/*
* REWRITE :: One instance can be handle any Request (done by the Server)
* */
class AsyncWebRewrite {
protected:
String _from;
String _toUrl;
String _params;
ArRequestFilterFunction _filter;
public:
AsyncWebRewrite(const char* from, const char* to): _from(from), _toUrl(to), _params(String()), _filter(NULL){
int index = _toUrl.indexOf('?');
if (index > 0) {
_params = _toUrl.substring(index +1);
_toUrl = _toUrl.substring(0, index);
}
}
virtual ~AsyncWebRewrite(){}
AsyncWebRewrite& setFilter(ArRequestFilterFunction fn) { _filter = fn; return *this; }
bool filter(AsyncWebServerRequest *request) const { return _filter == NULL || _filter(request); }
const String& from(void) const { return _from; }
const String& toUrl(void) const { return _toUrl; }
const String& params(void) const { return _params; }
virtual bool match(AsyncWebServerRequest *request) { return from() == request->url() && filter(request); }
};
/*
* HANDLER :: One instance can be attached to any Request (done by the Server)
* */
class AsyncWebHandler {
protected:
ArRequestFilterFunction _filter;
String _username;
String _password;
public:
AsyncWebHandler():_username(""), _password(""){}
AsyncWebHandler& setFilter(ArRequestFilterFunction fn) { _filter = fn; return *this; }
AsyncWebHandler& setAuthentication(const char *username, const char *password){ _username = String(username);_password = String(password); return *this; };
bool filter(AsyncWebServerRequest *request){ return _filter == NULL || _filter(request); }
virtual ~AsyncWebHandler(){}
virtual bool canHandle(AsyncWebServerRequest *request __attribute__((unused))){
return false;
}
virtual void handleRequest(AsyncWebServerRequest *request __attribute__((unused))){}
virtual void handleUpload(AsyncWebServerRequest *request __attribute__((unused)), const String& filename __attribute__((unused)), size_t index __attribute__((unused)), uint8_t *data __attribute__((unused)), size_t len __attribute__((unused)), bool final __attribute__((unused))){}
virtual void handleBody(AsyncWebServerRequest *request __attribute__((unused)), uint8_t *data __attribute__((unused)), size_t len __attribute__((unused)), size_t index __attribute__((unused)), size_t total __attribute__((unused))){}
virtual bool isRequestHandlerTrivial(){return true;}
};
/*
* RESPONSE :: One instance is created for each Request (attached by the Handler)
* */
typedef enum {
RESPONSE_SETUP, RESPONSE_HEADERS, RESPONSE_CONTENT, RESPONSE_WAIT_ACK, RESPONSE_END, RESPONSE_FAILED
} WebResponseState;
class AsyncWebServerResponse {
protected:
int _code;
LinkedList<AsyncWebHeader *> _headers;
String _contentType;
size_t _contentLength;
bool _sendContentLength;
bool _chunked;
size_t _headLength;
size_t _sentLength;
size_t _ackedLength;
size_t _writtenLength;
WebResponseState _state;
const char* _responseCodeToString(int code);
public:
static const __FlashStringHelper *responseCodeToString(int code);
public:
AsyncWebServerResponse();
virtual ~AsyncWebServerResponse();
virtual void setCode(int code);
virtual void setContentLength(size_t len);
virtual void setContentType(const String& type);
virtual void addHeader(const String& name, const String& value);
virtual String _assembleHead(uint8_t version);
virtual bool _started() const;
virtual bool _finished() const;
virtual bool _failed() const;
virtual bool _sourceValid() const;
virtual void _respond(AsyncWebServerRequest *request);
virtual size_t _ack(AsyncWebServerRequest *request, size_t len, uint32_t time);
};
/*
* SERVER :: One instance
* */
typedef std::function<void(AsyncWebServerRequest *request)> ArRequestHandlerFunction;
typedef std::function<void(AsyncWebServerRequest *request, const String& filename, size_t index, uint8_t *data, size_t len, bool final)> ArUploadHandlerFunction;
typedef std::function<void(AsyncWebServerRequest *request, uint8_t *data, size_t len, size_t index, size_t total)> ArBodyHandlerFunction;
class AsyncWebServer {
protected:
AsyncServer _server;
LinkedList<AsyncWebRewrite*> _rewrites;
LinkedList<AsyncWebHandler*> _handlers;
AsyncCallbackWebHandler* _catchAllHandler;
public:
AsyncWebServer(uint16_t port);
~AsyncWebServer();
void begin();
void end();
#if ASYNC_TCP_SSL_ENABLED
void onSslFileRequest(AcSSlFileHandler cb, void* arg);
void beginSecure(const char *cert, const char *private_key_file, const char *password);
#endif
AsyncWebRewrite& addRewrite(AsyncWebRewrite* rewrite);
bool removeRewrite(AsyncWebRewrite* rewrite);
AsyncWebRewrite& rewrite(const char* from, const char* to);
AsyncWebHandler& addHandler(AsyncWebHandler* handler);
bool removeHandler(AsyncWebHandler* handler);
AsyncCallbackWebHandler& on(const char* uri, ArRequestHandlerFunction onRequest);
AsyncCallbackWebHandler& on(const char* uri, WebRequestMethodComposite method, ArRequestHandlerFunction onRequest);
AsyncCallbackWebHandler& on(const char* uri, WebRequestMethodComposite method, ArRequestHandlerFunction onRequest, ArUploadHandlerFunction onUpload);
AsyncCallbackWebHandler& on(const char* uri, WebRequestMethodComposite method, ArRequestHandlerFunction onRequest, ArUploadHandlerFunction onUpload, ArBodyHandlerFunction onBody);
AsyncStaticWebHandler& serveStatic(const char* uri, fs::FS& fs, const char* path, const char* cache_control = NULL);
void onNotFound(ArRequestHandlerFunction fn); //called when handler is not assigned
void onFileUpload(ArUploadHandlerFunction fn); //handle file uploads
void onRequestBody(ArBodyHandlerFunction fn); //handle posts with plain body content (JSON often transmitted this way as a request)
void reset(); //remove all writers and handlers, with onNotFound/onFileUpload/onRequestBody
void _handleDisconnect(AsyncWebServerRequest *request);
void _attachHandler(AsyncWebServerRequest *request);
void _rewriteRequest(AsyncWebServerRequest *request);
};
class DefaultHeaders {
using headers_t = LinkedList<AsyncWebHeader *>;
headers_t _headers;
DefaultHeaders()
:_headers(headers_t([](AsyncWebHeader *h){ delete h; }))
{}
public:
using ConstIterator = headers_t::ConstIterator;
void addHeader(const String& name, const String& value){
_headers.add(new AsyncWebHeader(name, value));
}
ConstIterator begin() const { return _headers.begin(); }
ConstIterator end() const { return _headers.end(); }
DefaultHeaders(DefaultHeaders const &) = delete;
DefaultHeaders &operator=(DefaultHeaders const &) = delete;
static DefaultHeaders &Instance() {
static DefaultHeaders instance;
return instance;
}
};
#include "WebResponseImpl.h"
#include "WebHandlerImpl.h"
#include "AsyncWebSocket.h"
#include "AsyncEventSource.h"
#endif /* _AsyncWebServer_H_ */
/*
Asynchronous WebServer library for Espressif MCUs
Copyright (c) 2016 Hristo Gochkov. All rights reserved.
This file is part of the esp8266 core for Arduino environment.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#ifndef _ESPAsyncWebServer_H_
#define _ESPAsyncWebServer_H_
#include "Arduino.h"
#include <functional>
#include <list>
#include <vector>
#include "FS.h"
#include "StringArray.h"
#ifdef ESP32
#include <WiFi.h>
#include <AsyncTCP.h>
#elif defined(ESP8266)
#include <ESP8266WiFi.h>
#include <ESPAsyncTCP.h>
#else
#error Platform not supported
#endif
#define ASYNCWEBSERVER_VERSION "2.6.1"
#define ASYNCWEBSERVER_VERSION_MAJOR 2
#define ASYNCWEBSERVER_VERSION_MINOR 6
#define ASYNCWEBSERVER_VERSION_REVISION 1
#define ASYNCWEBSERVER_FORK_mathieucarbou
#ifdef ASYNCWEBSERVER_REGEX
#define ASYNCWEBSERVER_REGEX_ATTRIBUTE
#else
#define ASYNCWEBSERVER_REGEX_ATTRIBUTE __attribute__((warning("ASYNCWEBSERVER_REGEX not defined")))
#endif
class AsyncWebServer;
class AsyncWebServerRequest;
class AsyncWebServerResponse;
class AsyncWebHeader;
class AsyncWebParameter;
class AsyncWebRewrite;
class AsyncWebHandler;
class AsyncStaticWebHandler;
class AsyncCallbackWebHandler;
class AsyncResponseStream;
#ifndef WEBSERVER_H
typedef enum {
HTTP_GET = 0b00000001,
HTTP_POST = 0b00000010,
HTTP_DELETE = 0b00000100,
HTTP_PUT = 0b00001000,
HTTP_PATCH = 0b00010000,
HTTP_HEAD = 0b00100000,
HTTP_OPTIONS = 0b01000000,
HTTP_ANY = 0b01111111,
} WebRequestMethod;
#endif
#ifndef HAVE_FS_FILE_OPEN_MODE
namespace fs {
class FileOpenMode {
public:
static const char *read;
static const char *write;
static const char *append;
};
};
#else
#include "FileOpenMode.h"
#endif
//if this value is returned when asked for data, packet will not be sent and you will be asked for data again
#define RESPONSE_TRY_AGAIN 0xFFFFFFFF
typedef uint8_t WebRequestMethodComposite;
typedef std::function<void(void)> ArDisconnectHandler;
/*
* PARAMETER :: Chainable object to hold GET/POST and FILE parameters
* */
class AsyncWebParameter {
private:
String _name;
String _value;
size_t _size;
bool _isForm;
bool _isFile;
public:
AsyncWebParameter(const String& name, const String& value, bool form=false, bool file=false, size_t size=0): _name(name), _value(value), _size(size), _isForm(form), _isFile(file){}
const String& name() const { return _name; }
const String& value() const { return _value; }
size_t size() const { return _size; }
bool isPost() const { return _isForm; }
bool isFile() const { return _isFile; }
};
/*
* HEADER :: Chainable object to hold the headers
* */
class AsyncWebHeader {
private:
String _name;
String _value;
public:
AsyncWebHeader() = default;
AsyncWebHeader(const AsyncWebHeader &) = default;
AsyncWebHeader(const String& name, const String& value): _name(name), _value(value){}
AsyncWebHeader(const String& data): _name(), _value(){
if(!data) return;
int index = data.indexOf(':');
if (index < 0) return;
_name = data.substring(0, index);
_value = data.substring(index + 2);
}
AsyncWebHeader &operator=(const AsyncWebHeader &) = default;
const String& name() const { return _name; }
const String& value() const { return _value; }
String toString() const { return _name + F(": ") + _value + F("\r\n"); }
};
/*
* REQUEST :: Each incoming Client is wrapped inside a Request and both live together until disconnect
* */
typedef enum { RCT_NOT_USED = -1, RCT_DEFAULT = 0, RCT_HTTP, RCT_WS, RCT_EVENT, RCT_MAX } RequestedConnectionType;
typedef std::function<size_t(uint8_t*, size_t, size_t)> AwsResponseFiller;
typedef std::function<String(const String&)> AwsTemplateProcessor;
class AsyncWebServerRequest {
using File = fs::File;
using FS = fs::FS;
friend class AsyncWebServer;
friend class AsyncCallbackWebHandler;
private:
AsyncClient* _client;
AsyncWebServer* _server;
AsyncWebHandler* _handler;
AsyncWebServerResponse* _response;
std::vector<String> _interestingHeaders;
ArDisconnectHandler _onDisconnectfn;
String _temp;
uint8_t _parseState;
uint8_t _version;
WebRequestMethodComposite _method;
String _url;
String _host;
String _contentType;
String _boundary;
String _authorization;
RequestedConnectionType _reqconntype;
void _removeNotInterestingHeaders();
bool _isDigest;
bool _isMultipart;
bool _isPlainPost;
bool _expectingContinue;
size_t _contentLength;
size_t _parsedLength;
std::list<AsyncWebHeader> _headers;
LinkedList<AsyncWebParameter *> _params;
std::vector<String> _pathParams;
uint8_t _multiParseState;
uint8_t _boundaryPosition;
size_t _itemStartIndex;
size_t _itemSize;
String _itemName;
String _itemFilename;
String _itemType;
String _itemValue;
uint8_t *_itemBuffer;
size_t _itemBufferIndex;
bool _itemIsFile;
void _onPoll();
void _onAck(size_t len, uint32_t time);
void _onError(int8_t error);
void _onTimeout(uint32_t time);
void _onDisconnect();
void _onData(void *buf, size_t len);
void _addParam(AsyncWebParameter*);
void _addPathParam(const char *param);
bool _parseReqHead();
bool _parseReqHeader();
void _parseLine();
void _parsePlainPostChar(uint8_t data);
void _parseMultipartPostByte(uint8_t data, bool last);
void _addGetParams(const String& params);
void _handleUploadStart();
void _handleUploadByte(uint8_t data, bool last);
void _handleUploadEnd();
public:
File _tempFile;
void *_tempObject;
AsyncWebServerRequest(AsyncWebServer*, AsyncClient*);
~AsyncWebServerRequest();
AsyncClient* client(){ return _client; }
uint8_t version() const { return _version; }
WebRequestMethodComposite method() const { return _method; }
const String& url() const { return _url; }
const String& host() const { return _host; }
const String& contentType() const { return _contentType; }
size_t contentLength() const { return _contentLength; }
bool multipart() const { return _isMultipart; }
const __FlashStringHelper *methodToString() const;
const __FlashStringHelper *requestedConnTypeToString() const;
RequestedConnectionType requestedConnType() const { return _reqconntype; }
bool isExpectedRequestedConnType(RequestedConnectionType erct1, RequestedConnectionType erct2 = RCT_NOT_USED, RequestedConnectionType erct3 = RCT_NOT_USED);
void onDisconnect (ArDisconnectHandler fn);
//hash is the string representation of:
// base64(user:pass) for basic or
// user:realm:md5(user:realm:pass) for digest
bool authenticate(const char * hash);
bool authenticate(const char * username, const char * password, const char * realm = NULL, bool passwordIsHash = false);
void requestAuthentication(const char * realm = NULL, bool isDigest = true);
void setHandler(AsyncWebHandler *handler){ _handler = handler; }
void addInterestingHeader(const String& name);
void redirect(const String& url);
void send(AsyncWebServerResponse *response);
void send(int code, const String& contentType=String(), const String& content=String());
void send(FS &fs, const String& path, const String& contentType=String(), bool download=false, AwsTemplateProcessor callback=nullptr);
void send(File content, const String& path, const String& contentType=String(), bool download=false, AwsTemplateProcessor callback=nullptr);
void send(Stream &stream, const String& contentType, size_t len, AwsTemplateProcessor callback=nullptr);
void send(const String& contentType, size_t len, AwsResponseFiller callback, AwsTemplateProcessor templateCallback=nullptr);
void sendChunked(const String& contentType, AwsResponseFiller callback, AwsTemplateProcessor templateCallback=nullptr);
void send_P(int code, const String& contentType, const uint8_t * content, size_t len, AwsTemplateProcessor callback=nullptr);
void send_P(int code, const String& contentType, PGM_P content, AwsTemplateProcessor callback=nullptr);
AsyncWebServerResponse *beginResponse(int code, const String& contentType=String(), const String& content=String());
AsyncWebServerResponse *beginResponse(FS &fs, const String& path, const String& contentType=String(), bool download=false, AwsTemplateProcessor callback=nullptr);
AsyncWebServerResponse *beginResponse(File content, const String& path, const String& contentType=String(), bool download=false, AwsTemplateProcessor callback=nullptr);
AsyncWebServerResponse *beginResponse(Stream &stream, const String& contentType, size_t len, AwsTemplateProcessor callback=nullptr);
AsyncWebServerResponse *beginResponse(const String& contentType, size_t len, AwsResponseFiller callback, AwsTemplateProcessor templateCallback=nullptr);
AsyncWebServerResponse *beginChunkedResponse(const String& contentType, AwsResponseFiller callback, AwsTemplateProcessor templateCallback=nullptr);
AsyncResponseStream *beginResponseStream(const String& contentType, size_t bufferSize=1460);
AsyncWebServerResponse *beginResponse_P(int code, const String& contentType, const uint8_t * content, size_t len, AwsTemplateProcessor callback=nullptr);
AsyncWebServerResponse *beginResponse_P(int code, const String& contentType, PGM_P content, AwsTemplateProcessor callback=nullptr);
size_t headers() const; // get header count
bool hasHeader(const String& name) const; // check if header exists
bool hasHeader(const __FlashStringHelper * data) const; // check if header exists
AsyncWebHeader* getHeader(const String& name);
const AsyncWebHeader* getHeader(const String& name) const;
AsyncWebHeader* getHeader(const __FlashStringHelper * data);
const AsyncWebHeader* getHeader(const __FlashStringHelper * data) const;
AsyncWebHeader* getHeader(size_t num);
const AsyncWebHeader* getHeader(size_t num) const;
size_t params() const; // get arguments count
bool hasParam(const String& name, bool post=false, bool file=false) const;
bool hasParam(const __FlashStringHelper * data, bool post=false, bool file=false) const;
AsyncWebParameter* getParam(const String& name, bool post=false, bool file=false) const;
AsyncWebParameter* getParam(const __FlashStringHelper * data, bool post, bool file) const;
AsyncWebParameter* getParam(size_t num) const;
size_t args() const { return params(); } // get arguments count
const String& arg(const String& name) const; // get request argument value by name
const String& arg(const __FlashStringHelper * data) const; // get request argument value by F(name)
const String& arg(size_t i) const; // get request argument value by number
const String& argName(size_t i) const; // get request argument name by number
bool hasArg(const char* name) const; // check if argument exists
bool hasArg(const __FlashStringHelper * data) const; // check if F(argument) exists
const String& ASYNCWEBSERVER_REGEX_ATTRIBUTE pathArg(size_t i) const;
const String& header(const char* name) const;// get request header value by name
const String& header(const __FlashStringHelper * data) const;// get request header value by F(name)
const String& header(size_t i) const; // get request header value by number
const String& headerName(size_t i) const; // get request header name by number
String urlDecode(const String& text) const;
};
/*
* FILTER :: Callback to filter AsyncWebRewrite and AsyncWebHandler (done by the Server)
* */
typedef std::function<bool(AsyncWebServerRequest *request)> ArRequestFilterFunction;
bool ON_STA_FILTER(AsyncWebServerRequest *request);
bool ON_AP_FILTER(AsyncWebServerRequest *request);
/*
* REWRITE :: One instance can be handle any Request (done by the Server)
* */
class AsyncWebRewrite {
protected:
String _from;
String _toUrl;
String _params;
ArRequestFilterFunction _filter;
public:
AsyncWebRewrite(const char* from, const char* to): _from(from), _toUrl(to), _params(String()), _filter(NULL){
int index = _toUrl.indexOf('?');
if (index > 0) {
_params = _toUrl.substring(index +1);
_toUrl = _toUrl.substring(0, index);
}
}
virtual ~AsyncWebRewrite(){}
AsyncWebRewrite& setFilter(ArRequestFilterFunction fn) { _filter = fn; return *this; }
bool filter(AsyncWebServerRequest *request) const { return _filter == NULL || _filter(request); }
const String& from(void) const { return _from; }
const String& toUrl(void) const { return _toUrl; }
const String& params(void) const { return _params; }
virtual bool match(AsyncWebServerRequest *request) { return from() == request->url() && filter(request); }
};
/*
* HANDLER :: One instance can be attached to any Request (done by the Server)
* */
class AsyncWebHandler {
protected:
ArRequestFilterFunction _filter;
String _username;
String _password;
public:
AsyncWebHandler():_username(""), _password(""){}
AsyncWebHandler& setFilter(ArRequestFilterFunction fn) { _filter = fn; return *this; }
AsyncWebHandler& setAuthentication(const char *username, const char *password){ _username = String(username);_password = String(password); return *this; };
bool filter(AsyncWebServerRequest *request){ return _filter == NULL || _filter(request); }
virtual ~AsyncWebHandler(){}
virtual bool canHandle(AsyncWebServerRequest *request __attribute__((unused))){
return false;
}
virtual void handleRequest(AsyncWebServerRequest *request __attribute__((unused))){}
virtual void handleUpload(AsyncWebServerRequest *request __attribute__((unused)), const String& filename __attribute__((unused)), size_t index __attribute__((unused)), uint8_t *data __attribute__((unused)), size_t len __attribute__((unused)), bool final __attribute__((unused))){}
virtual void handleBody(AsyncWebServerRequest *request __attribute__((unused)), uint8_t *data __attribute__((unused)), size_t len __attribute__((unused)), size_t index __attribute__((unused)), size_t total __attribute__((unused))){}
virtual bool isRequestHandlerTrivial(){return true;}
};
/*
* RESPONSE :: One instance is created for each Request (attached by the Handler)
* */
typedef enum {
RESPONSE_SETUP, RESPONSE_HEADERS, RESPONSE_CONTENT, RESPONSE_WAIT_ACK, RESPONSE_END, RESPONSE_FAILED
} WebResponseState;
class AsyncWebServerResponse {
protected:
int _code;
std::list<AsyncWebHeader> _headers;
String _contentType;
size_t _contentLength;
bool _sendContentLength;
bool _chunked;
size_t _headLength;
size_t _sentLength;
size_t _ackedLength;
size_t _writtenLength;
WebResponseState _state;
const char* _responseCodeToString(int code);
public:
static const __FlashStringHelper *responseCodeToString(int code);
public:
AsyncWebServerResponse();
virtual ~AsyncWebServerResponse();
virtual void setCode(int code);
virtual void setContentLength(size_t len);
virtual void setContentType(const String& type);
virtual void addHeader(const String& name, const String& value);
virtual String _assembleHead(uint8_t version);
virtual bool _started() const;
virtual bool _finished() const;
virtual bool _failed() const;
virtual bool _sourceValid() const;
virtual void _respond(AsyncWebServerRequest *request);
virtual size_t _ack(AsyncWebServerRequest *request, size_t len, uint32_t time);
};
/*
* SERVER :: One instance
* */
typedef std::function<void(AsyncWebServerRequest *request)> ArRequestHandlerFunction;
typedef std::function<void(AsyncWebServerRequest *request, const String& filename, size_t index, uint8_t *data, size_t len, bool final)> ArUploadHandlerFunction;
typedef std::function<void(AsyncWebServerRequest *request, uint8_t *data, size_t len, size_t index, size_t total)> ArBodyHandlerFunction;
class AsyncWebServer {
protected:
AsyncServer _server;
LinkedList<AsyncWebRewrite*> _rewrites;
LinkedList<AsyncWebHandler*> _handlers;
AsyncCallbackWebHandler* _catchAllHandler;
public:
AsyncWebServer(uint16_t port);
~AsyncWebServer();
void begin();
void end();
#if ASYNC_TCP_SSL_ENABLED
void onSslFileRequest(AcSSlFileHandler cb, void* arg);
void beginSecure(const char *cert, const char *private_key_file, const char *password);
#endif
AsyncWebRewrite& addRewrite(AsyncWebRewrite* rewrite);
bool removeRewrite(AsyncWebRewrite* rewrite);
AsyncWebRewrite& rewrite(const char* from, const char* to);
AsyncWebHandler& addHandler(AsyncWebHandler* handler);
bool removeHandler(AsyncWebHandler* handler);
AsyncCallbackWebHandler& on(const char* uri, ArRequestHandlerFunction onRequest);
AsyncCallbackWebHandler& on(const char* uri, WebRequestMethodComposite method, ArRequestHandlerFunction onRequest);
AsyncCallbackWebHandler& on(const char* uri, WebRequestMethodComposite method, ArRequestHandlerFunction onRequest, ArUploadHandlerFunction onUpload);
AsyncCallbackWebHandler& on(const char* uri, WebRequestMethodComposite method, ArRequestHandlerFunction onRequest, ArUploadHandlerFunction onUpload, ArBodyHandlerFunction onBody);
AsyncStaticWebHandler& serveStatic(const char* uri, fs::FS& fs, const char* path, const char* cache_control = NULL);
void onNotFound(ArRequestHandlerFunction fn); //called when handler is not assigned
void onFileUpload(ArUploadHandlerFunction fn); //handle file uploads
void onRequestBody(ArBodyHandlerFunction fn); //handle posts with plain body content (JSON often transmitted this way as a request)
void reset(); //remove all writers and handlers, with onNotFound/onFileUpload/onRequestBody
void _handleDisconnect(AsyncWebServerRequest *request);
void _attachHandler(AsyncWebServerRequest *request);
void _rewriteRequest(AsyncWebServerRequest *request);
};
class DefaultHeaders {
using headers_t = std::list<AsyncWebHeader>;
headers_t _headers;
public:
DefaultHeaders() = default;
using ConstIterator = headers_t::const_iterator;
void addHeader(const String& name, const String& value){
_headers.emplace_back(name, value);
}
ConstIterator begin() const { return _headers.begin(); }
ConstIterator end() const { return _headers.end(); }
DefaultHeaders(DefaultHeaders const &) = delete;
DefaultHeaders &operator=(DefaultHeaders const &) = delete;
static DefaultHeaders &Instance() {
static DefaultHeaders instance;
return instance;
}
};
#include "WebResponseImpl.h"
#include "WebHandlerImpl.h"
#include "AsyncWebSocket.h"
#include "AsyncEventSource.h"
#endif /* _AsyncWebServer_H_ */

2
lib/ESPAsyncWebServer/src/ESP_Async_WebServer.h Normal file
View File

@@ -0,0 +1,2 @@
// to please Arduino Lint
#include "ESPAsyncWebServer.h"

29
lib/ESPAsyncWebServer/StringArray.h → lib/ESPAsyncWebServer/src/StringArray.h
View File

@@ -55,7 +55,7 @@ class LinkedList {
const T& operator * () const { return _node->value(); }
const T* operator -> () const { return &_node->value(); }
};
public:
typedef const Iterator ConstIterator;
ConstIterator begin() const { return ConstIterator(_root); }
@@ -76,7 +76,7 @@ class LinkedList {
T& front() const {
return _root->value();
}
bool isEmpty() const {
return _root == nullptr;
}
@@ -123,11 +123,11 @@ class LinkedList {
} else {
pit->next = it->next;
}
if (_onRemove) {
_onRemove(it->value());
}
delete it;
return true;
}
@@ -157,7 +157,7 @@ class LinkedList {
}
return false;
}
void free(){
while(_root != nullptr){
auto it = _root;
@@ -171,23 +171,4 @@ class LinkedList {
}
};
class StringArray : public LinkedList<String> {
public:
StringArray() : LinkedList(nullptr) {}
bool containsIgnoreCase(const String& str){
for (const auto& s : *this) {
if (str.equalsIgnoreCase(s)) {
return true;
}
}
return false;
}
};
#endif /* STRINGARRAY_H_ */

476
lib/ESPAsyncWebServer/WebAuthentication.cpp → lib/ESPAsyncWebServer/src/WebAuthentication.cpp
View File

@@ -1,235 +1,241 @@
/*
Asynchronous WebServer library for Espressif MCUs
Copyright (c) 2016 Hristo Gochkov. All rights reserved.
This file is part of the esp8266 core for Arduino environment.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "WebAuthentication.h"
#include <libb64/cencode.h>
#ifdef ESP32
#include "mbedtls/md5.h"
#else
#include "md5.h"
#endif
// Basic Auth hash = base64("username:password")
bool checkBasicAuthentication(const char * hash, const char * username, const char * password){
if(username == NULL || password == NULL || hash == NULL)
return false;
size_t toencodeLen = strlen(username)+strlen(password)+1;
size_t encodedLen = base64_encode_expected_len(toencodeLen);
if(strlen(hash) != encodedLen)
return false;
char *toencode = new char[toencodeLen+1];
if(toencode == NULL){
return false;
}
char *encoded = new char[base64_encode_expected_len(toencodeLen)+1];
if(encoded == NULL){
delete[] toencode;
return false;
}
sprintf_P(toencode, PSTR("%s:%s"), username, password);
if(base64_encode_chars(toencode, toencodeLen, encoded) > 0 && memcmp(hash, encoded, encodedLen) == 0){
delete[] toencode;
delete[] encoded;
return true;
}
delete[] toencode;
delete[] encoded;
return false;
}
static bool getMD5(uint8_t * data, uint16_t len, char * output){//33 bytes or more
#ifdef ESP32
mbedtls_md5_context _ctx;
#else
md5_context_t _ctx;
#endif
uint8_t i;
uint8_t * _buf = (uint8_t*)malloc(16);
if(_buf == NULL)
return false;
memset(_buf, 0x00, 16);
#ifdef ESP32
mbedtls_md5_init(&_ctx);
mbedtls_md5_update (&_ctx,data,len);
mbedtls_md5_finish(&_ctx,data);
mbedtls_internal_md5_process( &_ctx ,data);
#else
MD5Init(&_ctx);
MD5Update(&_ctx, data, len);
MD5Final(_buf, &_ctx);
#endif
for(i = 0; i < 16; i++) {
sprintf_P(output + (i * 2), PSTR("%02x"), _buf[i]);
}
free(_buf);
return true;
}
static String genRandomMD5(){
#ifdef ESP8266
uint32_t r = RANDOM_REG32;
#else
uint32_t r = rand();
#endif
char * out = (char*)malloc(33);
if(out == NULL || !getMD5((uint8_t*)(&r), 4, out))
return emptyString;
String res = String(out);
free(out);
return res;
}
static String stringMD5(const String& in){
char * out = (char*)malloc(33);
if(out == NULL || !getMD5((uint8_t*)(in.c_str()), in.length(), out))
return emptyString;
String res = String(out);
free(out);
return res;
}
String generateDigestHash(const char * username, const char * password, const char * realm){
if(username == NULL || password == NULL || realm == NULL){
return emptyString;
}
char * out = (char*)malloc(33);
String res = String(username);
res += ':';
res.concat(realm);
res += ':';
String in = res;
in.concat(password);
if(out == NULL || !getMD5((uint8_t*)(in.c_str()), in.length(), out))
return emptyString;
res.concat(out);
free(out);
return res;
}
String requestDigestAuthentication(const char * realm){
String header = F("realm=\"");
if(realm == NULL)
header.concat(F("asyncesp"));
else
header.concat(realm);
header.concat(F("\", qop=\"auth\", nonce=\""));
header.concat(genRandomMD5());
header.concat(F("\", opaque=\""));
header.concat(genRandomMD5());
header += '"';
return header;
}
bool checkDigestAuthentication(const char * header, const char *method, const char * username, const char * password, const char * realm, bool passwordIsHash, const char * nonce, const char * opaque, const char * uri){
if(username == NULL || password == NULL || header == NULL || method == NULL){
//os_printf("AUTH FAIL: missing requred fields\n");
return false;
}
String myHeader = String(header);
int nextBreak = myHeader.indexOf(',');
if(nextBreak < 0){
//os_printf("AUTH FAIL: no variables\n");
return false;
}
String myUsername = String();
String myRealm = String();
String myNonce = String();
String myUri = String();
String myResponse = String();
String myQop = String();
String myNc = String();
String myCnonce = String();
myHeader += F(", ");
do {
String avLine = myHeader.substring(0, nextBreak);
avLine.trim();
myHeader = myHeader.substring(nextBreak+1);
nextBreak = myHeader.indexOf(',');
int eqSign = avLine.indexOf('=');
if(eqSign < 0){
//os_printf("AUTH FAIL: no = sign\n");
return false;
}
String varName = avLine.substring(0, eqSign);
avLine = avLine.substring(eqSign + 1);
if(avLine.startsWith(String('"'))){
avLine = avLine.substring(1, avLine.length() - 1);
}
if(varName.equals(F("username"))){
if(!avLine.equals(username)){
//os_printf("AUTH FAIL: username\n");
return false;
}
myUsername = avLine;
} else if(varName.equals(F("realm"))){
if(realm != NULL && !avLine.equals(realm)){
//os_printf("AUTH FAIL: realm\n");
return false;
}
myRealm = avLine;
} else if(varName.equals(F("nonce"))){
if(nonce != NULL && !avLine.equals(nonce)){
//os_printf("AUTH FAIL: nonce\n");
return false;
}
myNonce = avLine;
} else if(varName.equals(F("opaque"))){
if(opaque != NULL && !avLine.equals(opaque)){
//os_printf("AUTH FAIL: opaque\n");
return false;
}
} else if(varName.equals(F("uri"))){
if(uri != NULL && !avLine.equals(uri)){
//os_printf("AUTH FAIL: uri\n");
return false;
}
myUri = avLine;
} else if(varName.equals(F("response"))){
myResponse = avLine;
} else if(varName.equals(F("qop"))){
myQop = avLine;
} else if(varName.equals(F("nc"))){
myNc = avLine;
} else if(varName.equals(F("cnonce"))){
myCnonce = avLine;
}
} while(nextBreak > 0);
String ha1 = (passwordIsHash) ? String(password) : stringMD5(myUsername + ':' + myRealm + ':' + String(password));
String ha2 = String(method) + ':' + myUri;
String response = ha1 + ':' + myNonce + ':' + myNc + ':' + myCnonce + ':' + myQop + ':' + stringMD5(ha2);
if(myResponse.equals(stringMD5(response))){
//os_printf("AUTH SUCCESS\n");
return true;
}
//os_printf("AUTH FAIL: password\n");
return false;
}
/*
Asynchronous WebServer library for Espressif MCUs
Copyright (c) 2016 Hristo Gochkov. All rights reserved.
This file is part of the esp8266 core for Arduino environment.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "WebAuthentication.h"
#include <libb64/cencode.h>
#ifdef ESP32
#include "mbedtls/md5.h"
#else
#include "md5.h"
#endif
// Basic Auth hash = base64("username:password")
bool checkBasicAuthentication(const char * hash, const char * username, const char * password){
if(username == NULL || password == NULL || hash == NULL)
return false;
size_t toencodeLen = strlen(username)+strlen(password)+1;
size_t encodedLen = base64_encode_expected_len(toencodeLen);
if(strlen(hash) != encodedLen)
// Fix from https://github.com/me-no-dev/ESPAsyncWebServer/issues/667
#ifdef ARDUINO_ARCH_ESP32
if(strlen(hash) != encodedLen)
#else
if (strlen(hash) != encodedLen - 1)
#endif
return false;
char *toencode = new char[toencodeLen+1];
if(toencode == NULL){
return false;
}
char *encoded = new char[base64_encode_expected_len(toencodeLen)+1];
if(encoded == NULL){
delete[] toencode;
return false;
}
sprintf_P(toencode, PSTR("%s:%s"), username, password);
if(base64_encode_chars(toencode, toencodeLen, encoded) > 0 && memcmp(hash, encoded, encodedLen) == 0){
delete[] toencode;
delete[] encoded;
return true;
}
delete[] toencode;
delete[] encoded;
return false;
}
static bool getMD5(uint8_t * data, uint16_t len, char * output){//33 bytes or more
#ifdef ESP32
mbedtls_md5_context _ctx;
#else
md5_context_t _ctx;
#endif
uint8_t i;
uint8_t * _buf = (uint8_t*)malloc(16);
if(_buf == NULL)
return false;
memset(_buf, 0x00, 16);
#ifdef ESP32
mbedtls_md5_init(&_ctx);
mbedtls_md5_starts_ret(&_ctx);
mbedtls_md5_update_ret(&_ctx, data, len);
mbedtls_md5_finish_ret(&_ctx, _buf);
#else
MD5Init(&_ctx);
MD5Update(&_ctx, data, len);
MD5Final(_buf, &_ctx);
#endif
for(i = 0; i < 16; i++) {
sprintf_P(output + (i * 2), PSTR("%02x"), _buf[i]);
}
free(_buf);
return true;
}
static String genRandomMD5(){
#ifdef ESP8266
uint32_t r = RANDOM_REG32;
#else
uint32_t r = rand();
#endif
char * out = (char*)malloc(33);
if(out == NULL || !getMD5((uint8_t*)(&r), 4, out))
return emptyString;
String res = String(out);
free(out);
return res;
}
static String stringMD5(const String& in){
char * out = (char*)malloc(33);
if(out == NULL || !getMD5((uint8_t*)(in.c_str()), in.length(), out))
return emptyString;
String res = String(out);
free(out);
return res;
}
String generateDigestHash(const char * username, const char * password, const char * realm){
if(username == NULL || password == NULL || realm == NULL){
return emptyString;
}
char * out = (char*)malloc(33);
String res = String(username);
res += ':';
res.concat(realm);
res += ':';
String in = res;
in.concat(password);
if(out == NULL || !getMD5((uint8_t*)(in.c_str()), in.length(), out))
return emptyString;
res.concat(out);
free(out);
return res;
}
String requestDigestAuthentication(const char * realm){
String header = F("realm=\"");
if(realm == NULL)
header.concat(F("asyncesp"));
else
header.concat(realm);
header.concat(F("\", qop=\"auth\", nonce=\""));
header.concat(genRandomMD5());
header.concat(F("\", opaque=\""));
header.concat(genRandomMD5());
header += '"';
return header;
}
bool checkDigestAuthentication(const char * header, const __FlashStringHelper *method, const char * username, const char * password, const char * realm, bool passwordIsHash, const char * nonce, const char * opaque, const char * uri){
if(username == NULL || password == NULL || header == NULL || method == NULL){
//os_printf("AUTH FAIL: missing requred fields\n");
return false;
}
String myHeader = String(header);
int nextBreak = myHeader.indexOf(',');
if(nextBreak < 0){
//os_printf("AUTH FAIL: no variables\n");
return false;
}
String myUsername = String();
String myRealm = String();
String myNonce = String();
String myUri = String();
String myResponse = String();
String myQop = String();
String myNc = String();
String myCnonce = String();
myHeader += F(", ");
do {
String avLine = myHeader.substring(0, nextBreak);
avLine.trim();
myHeader = myHeader.substring(nextBreak+1);
nextBreak = myHeader.indexOf(',');
int eqSign = avLine.indexOf('=');
if(eqSign < 0){
//os_printf("AUTH FAIL: no = sign\n");
return false;
}
String varName = avLine.substring(0, eqSign);
avLine = avLine.substring(eqSign + 1);
if(avLine.startsWith(String('"'))){
avLine = avLine.substring(1, avLine.length() - 1);
}
if(varName.equals(F("username"))){
if(!avLine.equals(username)){
//os_printf("AUTH FAIL: username\n");
return false;
}
myUsername = avLine;
} else if(varName.equals(F("realm"))){
if(realm != NULL && !avLine.equals(realm)){
//os_printf("AUTH FAIL: realm\n");
return false;
}
myRealm = avLine;
} else if(varName.equals(F("nonce"))){
if(nonce != NULL && !avLine.equals(nonce)){
//os_printf("AUTH FAIL: nonce\n");
return false;
}
myNonce = avLine;
} else if(varName.equals(F("opaque"))){
if(opaque != NULL && !avLine.equals(opaque)){
//os_printf("AUTH FAIL: opaque\n");
return false;
}
} else if(varName.equals(F("uri"))){
if(uri != NULL && !avLine.equals(uri)){
//os_printf("AUTH FAIL: uri\n");
return false;
}
myUri = avLine;
} else if(varName.equals(F("response"))){
myResponse = avLine;
} else if(varName.equals(F("qop"))){
myQop = avLine;
} else if(varName.equals(F("nc"))){
myNc = avLine;
} else if(varName.equals(F("cnonce"))){
myCnonce = avLine;
}
} while(nextBreak > 0);
String ha1 = (passwordIsHash) ? String(password) : stringMD5(myUsername + ':' + myRealm + ':' + String(password));
String ha2 = String(method) + ':' + myUri;
String response = ha1 + ':' + myNonce + ':' + myNc + ':' + myCnonce + ':' + myQop + ':' + stringMD5(ha2);
if(myResponse.equals(stringMD5(response))){
//os_printf("AUTH SUCCESS\n");
return true;
}
//os_printf("AUTH FAIL: password\n");
return false;
}

2
lib/ESPAsyncWebServer/WebAuthentication.h → lib/ESPAsyncWebServer/src/WebAuthentication.h
View File

@@ -26,7 +26,7 @@
bool checkBasicAuthentication(const char * header, const char * username, const char * password);
String requestDigestAuthentication(const char * realm);
bool checkDigestAuthentication(const char * header, const char *method, const char * username, const char * password, const char * realm, bool passwordIsHash, const char * nonce, const char * opaque, const char * uri);
bool checkDigestAuthentication(const char * header, const __FlashStringHelper *method, const char * username, const char * password, const char * realm, bool passwordIsHash, const char * nonce, const char * opaque, const char * uri);
//for storing hashed versions on the device that can be authenticated against
String generateDigestHash(const char * username, const char * password, const char * realm);

13
lib/ESPAsyncWebServer/WebHandlerImpl.h → lib/ESPAsyncWebServer/src/WebHandlerImpl.h
View File

@@ -105,6 +105,13 @@ class AsyncCallbackWebHandler: public AsyncWebHandler {
}
} else
#endif
if (_uri.length() && _uri.startsWith("/*.")) {
String uriTemplate = String (_uri);
uriTemplate = uriTemplate.substring(uriTemplate.lastIndexOf("."));
if (!request->url().endsWith(uriTemplate))
return false;
}
else
if (_uri.length() && _uri.endsWith("*")) {
String uriTemplate = String(_uri);
uriTemplate = uriTemplate.substring(0, uriTemplate.length() - 1);
@@ -119,16 +126,22 @@ class AsyncCallbackWebHandler: public AsyncWebHandler {
}
virtual void handleRequest(AsyncWebServerRequest *request) override final {
if((_username != "" && _password != "") && !request->authenticate(_username.c_str(), _password.c_str()))
return request->requestAuthentication();
if(_onRequest)
_onRequest(request);
else
request->send(500);
}
virtual void handleUpload(AsyncWebServerRequest *request, const String& filename, size_t index, uint8_t *data, size_t len, bool final) override final {
if((_username != "" && _password != "") && !request->authenticate(_username.c_str(), _password.c_str()))
return request->requestAuthentication();
if(_onUpload)
_onUpload(request, filename, index, data, len, final);
}
virtual void handleBody(AsyncWebServerRequest *request, uint8_t *data, size_t len, size_t index, size_t total) override final {
if((_username != "" && _password != "") && !request->authenticate(_username.c_str(), _password.c_str()))
return request->requestAuthentication();
if(_onBody)
_onBody(request, data, len, index, total);
}

23
lib/ESPAsyncWebServer/WebHandlers.cpp → lib/ESPAsyncWebServer/src/WebHandlers.cpp
View File

@@ -58,7 +58,7 @@ AsyncStaticWebHandler& AsyncStaticWebHandler::setCacheControl(const char* cache_
}
AsyncStaticWebHandler& AsyncStaticWebHandler::setLastModified(const char* last_modified){
_last_modified = String(last_modified);
_last_modified = last_modified;
return *this;
}
@@ -99,7 +99,6 @@ bool AsyncStaticWebHandler::canHandle(AsyncWebServerRequest *request){
if(_cache_control.length())
request->addInterestingHeader(F("If-None-Match"));
DEBUGF("[AsyncStaticWebHandler::canHandle] TRUE\n");
return true;
}
@@ -146,18 +145,26 @@ bool AsyncStaticWebHandler::_fileExists(AsyncWebServerRequest *request, const St
String gzip = path + F(".gz");
if (_gzipFirst) {
request->_tempFile = _fs.open(gzip, fs::FileOpenMode::read);
gzipFound = FILE_IS_REAL(request->_tempFile);
if (_fs.exists(gzip)) {
request->_tempFile = _fs.open(gzip, fs::FileOpenMode::read);
gzipFound = FILE_IS_REAL(request->_tempFile);
}
if (!gzipFound){
if (_fs.exists(path)) {
request->_tempFile = _fs.open(path, fs::FileOpenMode::read);
fileFound = FILE_IS_REAL(request->_tempFile);
}
}
} else {
request->_tempFile = _fs.open(path, fs::FileOpenMode::read);
fileFound = FILE_IS_REAL(request->_tempFile);
if (_fs.exists(path)) {
request->_tempFile = _fs.open(path, fs::FileOpenMode::read);
fileFound = FILE_IS_REAL(request->_tempFile);
}
if (!fileFound){
if (_fs.exists(gzip)) {
request->_tempFile = _fs.open(gzip, fs::FileOpenMode::read);
gzipFound = FILE_IS_REAL(request->_tempFile);
}
}
}
@@ -198,7 +205,9 @@ void AsyncStaticWebHandler::handleRequest(AsyncWebServerRequest *request)
return request->requestAuthentication();
if (request->_tempFile == true) {
String etag = String(request->_tempFile.size());
time_t lw = request->_tempFile.getLastWrite(); // get last file mod time (if supported by FS)
if (lw) setLastModified(gmtime(&lw));
String etag(lw ? lw : request->_tempFile.size()); // set etag to lastmod timestamp if available, otherwise to size
if (_last_modified.length() && _last_modified == request->header(F("If-Modified-Since"))) {
request->_tempFile.close();
request->send(304); // Not modified

1923
lib/ESPAsyncWebServer/WebRequest.cpp → lib/ESPAsyncWebServer/src/WebRequest.cpp
View File

File diff suppressed because it is too large Load Diff

4
lib/ESPAsyncWebServer/WebResponseImpl.h → lib/ESPAsyncWebServer/src/WebResponseImpl.h
View File

@@ -27,6 +27,8 @@
#undef max
#endif
#include <vector>
#include <memory>
// It is possible to restore these defines, but one can use _min and _max instead. Or std::min, std::max.
class AsyncBasicResponse: public AsyncWebServerResponse {
@@ -122,7 +124,7 @@ class cbuf;
class AsyncResponseStream: public AsyncAbstractResponse, public Print {
private:
cbuf *_content;
std::unique_ptr<cbuf> _content;
public:
AsyncResponseStream(const String& contentType, size_t bufferSize);
~AsyncResponseStream();

704
lib/ESPAsyncWebServer/src/WebResponses.cpp Normal file
View File

@@ -0,0 +1,704 @@
/*
Asynchronous WebServer library for Espressif MCUs
Copyright (c) 2016 Hristo Gochkov. All rights reserved.
This file is part of the esp8266 core for Arduino environment.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "ESPAsyncWebServer.h"
#include "WebResponseImpl.h"
#include "cbuf.h"
// Since ESP8266 does not link memchr by default, here's its implementation.
void* memchr(void* ptr, int ch, size_t count)
{
unsigned char* p = static_cast<unsigned char*>(ptr);
while(count--)
if(*p++ == static_cast<unsigned char>(ch))
return --p;
return nullptr;
}
/*
* Abstract Response
* */
const char* AsyncWebServerResponse::_responseCodeToString(int code) {
return reinterpret_cast<const char *>(responseCodeToString(code));
}
const __FlashStringHelper *AsyncWebServerResponse::responseCodeToString(int code) {
switch (code) {
case 100: return F("Continue");
case 101: return F("Switching Protocols");
case 200: return F("OK");
case 201: return F("Created");
case 202: return F("Accepted");
case 203: return F("Non-Authoritative Information");
case 204: return F("No Content");
case 205: return F("Reset Content");
case 206: return F("Partial Content");
case 300: return F("Multiple Choices");
case 301: return F("Moved Permanently");
case 302: return F("Found");
case 303: return F("See Other");
case 304: return F("Not Modified");
case 305: return F("Use Proxy");
case 307: return F("Temporary Redirect");
case 400: return F("Bad Request");
case 401: return F("Unauthorized");
case 402: return F("Payment Required");
case 403: return F("Forbidden");
case 404: return F("Not Found");
case 405: return F("Method Not Allowed");
case 406: return F("Not Acceptable");
case 407: return F("Proxy Authentication Required");
case 408: return F("Request Time-out");
case 409: return F("Conflict");
case 410: return F("Gone");
case 411: return F("Length Required");
case 412: return F("Precondition Failed");
case 413: return F("Request Entity Too Large");
case 414: return F("Request-URI Too Large");
case 415: return F("Unsupported Media Type");
case 416: return F("Requested range not satisfiable");
case 417: return F("Expectation Failed");
case 500: return F("Internal Server Error");
case 501: return F("Not Implemented");
case 502: return F("Bad Gateway");
case 503: return F("Service Unavailable");
case 504: return F("Gateway Time-out");
case 505: return F("HTTP Version not supported");
default: return F("");
}
}
AsyncWebServerResponse::AsyncWebServerResponse()
: _code(0)
, _contentType()
, _contentLength(0)
, _sendContentLength(true)
, _chunked(false)
, _headLength(0)
, _sentLength(0)
, _ackedLength(0)
, _writtenLength(0)
, _state(RESPONSE_SETUP)
{
for(const auto &header: DefaultHeaders::Instance()) {
_headers.emplace_back(header);
}
}
AsyncWebServerResponse::~AsyncWebServerResponse() = default;
void AsyncWebServerResponse::setCode(int code){
if(_state == RESPONSE_SETUP)
_code = code;
}
void AsyncWebServerResponse::setContentLength(size_t len){
if(_state == RESPONSE_SETUP)
_contentLength = len;
}
void AsyncWebServerResponse::setContentType(const String& type){
if(_state == RESPONSE_SETUP)
_contentType = type;
}
void AsyncWebServerResponse::addHeader(const String& name, const String& value){
_headers.emplace_back(name, value);
}
String AsyncWebServerResponse::_assembleHead(uint8_t version){
if(version){
addHeader(F("Accept-Ranges"), F("none"));
if(_chunked)
addHeader(F("Transfer-Encoding"), F("chunked"));
}
String out = String();
int bufSize = 300;
char buf[bufSize];
snprintf_P(buf, bufSize, PSTR("HTTP/1.%d %d %s\r\n"), version, _code, _responseCodeToString(_code));
out.concat(buf);
if(_sendContentLength) {
snprintf_P(buf, bufSize, PSTR("Content-Length: %d\r\n"), _contentLength);
out.concat(buf);
}
if(_contentType.length()) {
snprintf_P(buf, bufSize, PSTR("Content-Type: %s\r\n"), _contentType.c_str());
out.concat(buf);
}
for(const auto& header: _headers){
snprintf_P(buf, bufSize, PSTR("%s: %s\r\n"), header.name().c_str(), header.value().c_str());
out.concat(buf);
}
_headers.clear();
out.concat(F("\r\n"));
_headLength = out.length();
return out;
}
bool AsyncWebServerResponse::_started() const { return _state > RESPONSE_SETUP; }
bool AsyncWebServerResponse::_finished() const { return _state > RESPONSE_WAIT_ACK; }
bool AsyncWebServerResponse::_failed() const { return _state == RESPONSE_FAILED; }
bool AsyncWebServerResponse::_sourceValid() const { return false; }
void AsyncWebServerResponse::_respond(AsyncWebServerRequest *request){ _state = RESPONSE_END; request->client()->close(); }
size_t AsyncWebServerResponse::_ack(AsyncWebServerRequest *request, size_t len, uint32_t time){ (void)request; (void)len; (void)time; return 0; }
/*
* String/Code Response
* */
AsyncBasicResponse::AsyncBasicResponse(int code, const String& contentType, const String& content){
_code = code;
_content = content;
_contentType = contentType;
if(_content.length()){
_contentLength = _content.length();
if(!_contentType.length())
_contentType = F("text/plain");
}
addHeader(F("Connection"), F("close"));
}
void AsyncBasicResponse::_respond(AsyncWebServerRequest *request){
_state = RESPONSE_HEADERS;
String out = _assembleHead(request->version());
size_t outLen = out.length();
size_t space = request->client()->space();
if(!_contentLength && space >= outLen){
_writtenLength += request->client()->write(out.c_str(), outLen);
_state = RESPONSE_WAIT_ACK;
} else if(_contentLength && space >= outLen + _contentLength){
out += _content;
outLen += _contentLength;
_writtenLength += request->client()->write(out.c_str(), outLen);
_state = RESPONSE_WAIT_ACK;
} else if(space && space < outLen){
String partial = out.substring(0, space);
_content = out.substring(space) + _content;
_contentLength += outLen - space;
_writtenLength += request->client()->write(partial.c_str(), partial.length());
_state = RESPONSE_CONTENT;
} else if(space > outLen && space < (outLen + _contentLength)){
size_t shift = space - outLen;
outLen += shift;
_sentLength += shift;
out += _content.substring(0, shift);
_content = _content.substring(shift);
_writtenLength += request->client()->write(out.c_str(), outLen);
_state = RESPONSE_CONTENT;
} else {
_content = out + _content;
_contentLength += outLen;
_state = RESPONSE_CONTENT;
}
}
size_t AsyncBasicResponse::_ack(AsyncWebServerRequest *request, size_t len, uint32_t time){
(void)time;
_ackedLength += len;
if(_state == RESPONSE_CONTENT){
size_t available = _contentLength - _sentLength;
size_t space = request->client()->space();
//we can fit in this packet
if(space > available){
_writtenLength += request->client()->write(_content.c_str(), available);
_content = String();
_state = RESPONSE_WAIT_ACK;
return available;
}
//send some data, the rest on ack
String out = _content.substring(0, space);
_content = _content.substring(space);
_sentLength += space;
_writtenLength += request->client()->write(out.c_str(), space);
return space;
} else if(_state == RESPONSE_WAIT_ACK){
if(_ackedLength >= _writtenLength){
_state = RESPONSE_END;
}
}
return 0;
}
/*
* Abstract Response
* */
AsyncAbstractResponse::AsyncAbstractResponse(AwsTemplateProcessor callback): _callback(callback)
{
// In case of template processing, we're unable to determine real response size
if(callback) {
_contentLength = 0;
_sendContentLength = false;
_chunked = true;
}
}
void AsyncAbstractResponse::_respond(AsyncWebServerRequest *request){
addHeader(F("Connection"), F("close"));
_head = _assembleHead(request->version());
_state = RESPONSE_HEADERS;
_ack(request, 0, 0);
}
size_t AsyncAbstractResponse::_ack(AsyncWebServerRequest *request, size_t len, uint32_t time){
(void)time;
if(!_sourceValid()){
_state = RESPONSE_FAILED;
request->client()->close();
return 0;
}
_ackedLength += len;
size_t space = request->client()->space();
size_t headLen = _head.length();
if(_state == RESPONSE_HEADERS){
if(space >= headLen){
_state = RESPONSE_CONTENT;
space -= headLen;
} else {
String out = _head.substring(0, space);
_head = _head.substring(space);
_writtenLength += request->client()->write(out.c_str(), out.length());
return out.length();
}
}
if(_state == RESPONSE_CONTENT){
size_t outLen;
if(_chunked){
if(space <= 8){
return 0;
}
outLen = space;
} else if(!_sendContentLength){
outLen = space;
} else {
outLen = ((_contentLength - _sentLength) > space)?space:(_contentLength - _sentLength);
}
uint8_t *buf = (uint8_t *)malloc(outLen+headLen);
if (!buf) {
// os_printf("_ack malloc %d failed\n", outLen+headLen);
return 0;
}
if(headLen){
memcpy(buf, _head.c_str(), _head.length());
}
size_t readLen = 0;
if(_chunked){
// HTTP 1.1 allows leading zeros in chunk length. Or spaces may be added.
// See RFC2616 sections 2, 3.6.1.
readLen = _fillBufferAndProcessTemplates(buf+headLen+6, outLen - 8);
if(readLen == RESPONSE_TRY_AGAIN){
free(buf);
return 0;
}
outLen = sprintf_P((char*)buf+headLen, PSTR("%x"), readLen) + headLen;
while(outLen < headLen + 4) buf[outLen++] = ' ';
buf[outLen++] = '\r';
buf[outLen++] = '\n';
outLen += readLen;
buf[outLen++] = '\r';
buf[outLen++] = '\n';
} else {
readLen = _fillBufferAndProcessTemplates(buf+headLen, outLen);
if(readLen == RESPONSE_TRY_AGAIN){
free(buf);
return 0;
}
outLen = readLen + headLen;
}
if(headLen){
_head = String();
}
if(outLen){
_writtenLength += request->client()->write((const char*)buf, outLen);
}
if(_chunked){
_sentLength += readLen;
} else {
_sentLength += outLen - headLen;
}
free(buf);
if((_chunked && readLen == 0) || (!_sendContentLength && outLen == 0) || (!_chunked && _sentLength == _contentLength)){
_state = RESPONSE_WAIT_ACK;
}
return outLen;
} else if(_state == RESPONSE_WAIT_ACK){
if(!_sendContentLength || _ackedLength >= _writtenLength){
_state = RESPONSE_END;
if(!_chunked && !_sendContentLength)
request->client()->close(true);
}
}
return 0;
}
size_t AsyncAbstractResponse::_readDataFromCacheOrContent(uint8_t* data, const size_t len)
{
// If we have something in cache, copy it to buffer
const size_t readFromCache = std::min(len, _cache.size());
if(readFromCache) {
memcpy(data, _cache.data(), readFromCache);
_cache.erase(_cache.begin(), _cache.begin() + readFromCache);
}
// If we need to read more...
const size_t needFromFile = len - readFromCache;
const size_t readFromContent = _fillBuffer(data + readFromCache, needFromFile);
return readFromCache + readFromContent;
}
size_t AsyncAbstractResponse::_fillBufferAndProcessTemplates(uint8_t* data, size_t len)
{
if(!_callback)
return _fillBuffer(data, len);
const size_t originalLen = len;
len = _readDataFromCacheOrContent(data, len);
// Now we've read 'len' bytes, either from cache or from file
// Search for template placeholders
uint8_t* pTemplateStart = data;
while((pTemplateStart < &data[len]) && (pTemplateStart = (uint8_t*)memchr(pTemplateStart, TEMPLATE_PLACEHOLDER, &data[len - 1] - pTemplateStart + 1))) { // data[0] ... data[len - 1]
uint8_t* pTemplateEnd = (pTemplateStart < &data[len - 1]) ? (uint8_t*)memchr(pTemplateStart + 1, TEMPLATE_PLACEHOLDER, &data[len - 1] - pTemplateStart) : nullptr;
// temporary buffer to hold parameter name
uint8_t buf[TEMPLATE_PARAM_NAME_LENGTH + 1];
String paramName;
// If closing placeholder is found:
if(pTemplateEnd) {
// prepare argument to callback
const size_t paramNameLength = std::min((size_t)sizeof(buf) - 1, (size_t)(pTemplateEnd - pTemplateStart - 1));
if(paramNameLength) {
memcpy(buf, pTemplateStart + 1, paramNameLength);
buf[paramNameLength] = 0;
paramName = String(reinterpret_cast<char*>(buf));
} else { // double percent sign encountered, this is single percent sign escaped.
// remove the 2nd percent sign
memmove(pTemplateEnd, pTemplateEnd + 1, &data[len] - pTemplateEnd - 1);
len += _readDataFromCacheOrContent(&data[len - 1], 1) - 1;
++pTemplateStart;
}
} else if(&data[len - 1] - pTemplateStart + 1 < TEMPLATE_PARAM_NAME_LENGTH + 2) { // closing placeholder not found, check if it's in the remaining file data
memcpy(buf, pTemplateStart + 1, &data[len - 1] - pTemplateStart);
const size_t readFromCacheOrContent = _readDataFromCacheOrContent(buf + (&data[len - 1] - pTemplateStart), TEMPLATE_PARAM_NAME_LENGTH + 2 - (&data[len - 1] - pTemplateStart + 1));
if(readFromCacheOrContent) {
pTemplateEnd = (uint8_t*)memchr(buf + (&data[len - 1] - pTemplateStart), TEMPLATE_PLACEHOLDER, readFromCacheOrContent);
if(pTemplateEnd) {
// prepare argument to callback
*pTemplateEnd = 0;
paramName = String(reinterpret_cast<char*>(buf));
// Copy remaining read-ahead data into cache
_cache.insert(_cache.begin(), pTemplateEnd + 1, buf + (&data[len - 1] - pTemplateStart) + readFromCacheOrContent);
pTemplateEnd = &data[len - 1];
}
else // closing placeholder not found in file data, store found percent symbol as is and advance to the next position
{
// but first, store read file data in cache
_cache.insert(_cache.begin(), buf + (&data[len - 1] - pTemplateStart), buf + (&data[len - 1] - pTemplateStart) + readFromCacheOrContent);
++pTemplateStart;
}
}
else // closing placeholder not found in content data, store found percent symbol as is and advance to the next position
++pTemplateStart;
}
else // closing placeholder not found in content data, store found percent symbol as is and advance to the next position
++pTemplateStart;
if(paramName.length()) {
// call callback and replace with result.
// Everything in range [pTemplateStart, pTemplateEnd] can be safely replaced with parameter value.
// Data after pTemplateEnd may need to be moved.
// The first byte of data after placeholder is located at pTemplateEnd + 1.
// It should be located at pTemplateStart + numBytesCopied (to begin right after inserted parameter value).
const String paramValue(_callback(paramName));
const char* pvstr = paramValue.c_str();
const unsigned int pvlen = paramValue.length();
const size_t numBytesCopied = std::min(pvlen, static_cast<unsigned int>(&data[originalLen - 1] - pTemplateStart + 1));
// make room for param value
// 1. move extra data to cache if parameter value is longer than placeholder AND if there is no room to store
if((pTemplateEnd + 1 < pTemplateStart + numBytesCopied) && (originalLen - (pTemplateStart + numBytesCopied - pTemplateEnd - 1) < len)) {
_cache.insert(_cache.begin(), &data[originalLen - (pTemplateStart + numBytesCopied - pTemplateEnd - 1)], &data[len]);
//2. parameter value is longer than placeholder text, push the data after placeholder which not saved into cache further to the end
memmove(pTemplateStart + numBytesCopied, pTemplateEnd + 1, &data[originalLen] - pTemplateStart - numBytesCopied);
len = originalLen; // fix issue with truncated data, not sure if it has any side effects
} else if(pTemplateEnd + 1 != pTemplateStart + numBytesCopied)
//2. Either parameter value is shorter than placeholder text OR there is enough free space in buffer to fit.
// Move the entire data after the placeholder
memmove(pTemplateStart + numBytesCopied, pTemplateEnd + 1, &data[len] - pTemplateEnd - 1);
// 3. replace placeholder with actual value
memcpy(pTemplateStart, pvstr, numBytesCopied);
// If result is longer than buffer, copy the remainder into cache (this could happen only if placeholder text itself did not fit entirely in buffer)
if(numBytesCopied < pvlen) {
_cache.insert(_cache.begin(), pvstr + numBytesCopied, pvstr + pvlen);
} else if(pTemplateStart + numBytesCopied < pTemplateEnd + 1) { // result is copied fully; if result is shorter than placeholder text...
// there is some free room, fill it from cache
const size_t roomFreed = pTemplateEnd + 1 - pTemplateStart - numBytesCopied;
const size_t totalFreeRoom = originalLen - len + roomFreed;
len += _readDataFromCacheOrContent(&data[len - roomFreed], totalFreeRoom) - roomFreed;
} else { // result is copied fully; it is longer than placeholder text
const size_t roomTaken = pTemplateStart + numBytesCopied - pTemplateEnd - 1;
len = std::min(len + roomTaken, originalLen);
}
}
} // while(pTemplateStart)
return len;
}
/*
* File Response
* */
AsyncFileResponse::~AsyncFileResponse(){
if(_content)
_content.close();
}
void AsyncFileResponse::_setContentType(const String& path){
#if HAVE_EXTERN_GET_CONTENT_TYPE_FUNCTION
extern const __FlashStringHelper *getContentType(const String &path);
_contentType = getContentType(path);
#else
if (path.endsWith(F(".html"))) _contentType = F("text/html");
else if (path.endsWith(F(".htm"))) _contentType = F("text/html");
else if (path.endsWith(F(".css"))) _contentType = F("text/css");
else if (path.endsWith(F(".json"))) _contentType = F("application/json");
else if (path.endsWith(F(".js"))) _contentType = F("application/javascript");
else if (path.endsWith(F(".png"))) _contentType = F("image/png");
else if (path.endsWith(F(".gif"))) _contentType = F("image/gif");
else if (path.endsWith(F(".jpg"))) _contentType = F("image/jpeg");
else if (path.endsWith(F(".ico"))) _contentType = F("image/x-icon");
else if (path.endsWith(F(".svg"))) _contentType = F("image/svg+xml");
else if (path.endsWith(F(".eot"))) _contentType = F("font/eot");
else if (path.endsWith(F(".woff"))) _contentType = F("font/woff");
else if (path.endsWith(F(".woff2"))) _contentType = F("font/woff2");
else if (path.endsWith(F(".ttf"))) _contentType = F("font/ttf");
else if (path.endsWith(F(".xml"))) _contentType = F("text/xml");
else if (path.endsWith(F(".pdf"))) _contentType = F("application/pdf");
else if (path.endsWith(F(".zip"))) _contentType = F("application/zip");
else if(path.endsWith(F(".gz"))) _contentType = F("application/x-gzip");
else _contentType = F("text/plain");
#endif
}
AsyncFileResponse::AsyncFileResponse(FS &fs, const String& path, const String& contentType, bool download, AwsTemplateProcessor callback): AsyncAbstractResponse(callback){
_code = 200;
_path = path;
if(!download && !fs.exists(_path) && fs.exists(_path + F(".gz"))){
_path = _path + F(".gz");
addHeader(F("Content-Encoding"), F("gzip"));
_callback = nullptr; // Unable to process zipped templates
_sendContentLength = true;
_chunked = false;
}
_content = fs.open(_path, fs::FileOpenMode::read);
_contentLength = _content.size();
if(contentType.length() == 0)
_setContentType(path);
else
_contentType = contentType;
int filenameStart = path.lastIndexOf('/') + 1;
char buf[26+path.length()-filenameStart];
char* filename = (char*)path.c_str() + filenameStart;
if(download) {
// set filename and force download
snprintf_P(buf, sizeof (buf), PSTR("attachment; filename=\"%s\""), filename);
} else {
// set filename and force rendering
snprintf_P(buf, sizeof (buf), PSTR("inline; filename=\"%s\""), filename);
}
addHeader(F("Content-Disposition"), buf);
}
AsyncFileResponse::AsyncFileResponse(File content, const String& path, const String& contentType, bool download, AwsTemplateProcessor callback): AsyncAbstractResponse(callback){
_code = 200;
_path = path;
if(!download && String(content.name()).endsWith(F(".gz")) && !path.endsWith(F(".gz"))){
addHeader(F("Content-Encoding"), F("gzip"));
_callback = nullptr; // Unable to process gzipped templates
_sendContentLength = true;
_chunked = false;
}
_content = content;
_contentLength = _content.size();
if(contentType.length() == 0)
_setContentType(path);
else
_contentType = contentType;
int filenameStart = path.lastIndexOf('/') + 1;
char buf[26+path.length()-filenameStart];
char* filename = (char*)path.c_str() + filenameStart;
if(download) {
snprintf_P(buf, sizeof (buf), PSTR("attachment; filename=\"%s\""), filename);
} else {
snprintf_P(buf, sizeof (buf), PSTR("inline; filename=\"%s\""), filename);
}
addHeader(F("Content-Disposition"), buf);
}
size_t AsyncFileResponse::_fillBuffer(uint8_t *data, size_t len){
return _content.read(data, len);
}
/*
* Stream Response
* */
AsyncStreamResponse::AsyncStreamResponse(Stream &stream, const String& contentType, size_t len, AwsTemplateProcessor callback): AsyncAbstractResponse(callback) {
_code = 200;
_content = &stream;
_contentLength = len;
_contentType = contentType;
}
size_t AsyncStreamResponse::_fillBuffer(uint8_t *data, size_t len){
size_t available = _content->available();
size_t outLen = (available > len)?len:available;
size_t i;
for(i=0;i<outLen;i++)
data[i] = _content->read();
return outLen;
}
/*
* Callback Response
* */
AsyncCallbackResponse::AsyncCallbackResponse(const String& contentType, size_t len, AwsResponseFiller callback, AwsTemplateProcessor templateCallback): AsyncAbstractResponse(templateCallback) {
_code = 200;
_content = callback;
_contentLength = len;
if(!len)
_sendContentLength = false;
_contentType = contentType;
_filledLength = 0;
}
size_t AsyncCallbackResponse::_fillBuffer(uint8_t *data, size_t len){
size_t ret = _content(data, len, _filledLength);
if(ret != RESPONSE_TRY_AGAIN){
_filledLength += ret;
}
return ret;
}
/*
* Chunked Response
* */
AsyncChunkedResponse::AsyncChunkedResponse(const String& contentType, AwsResponseFiller callback, AwsTemplateProcessor processorCallback): AsyncAbstractResponse(processorCallback) {
_code = 200;
_content = callback;
_contentLength = 0;
_contentType = contentType;
_sendContentLength = false;
_chunked = true;
_filledLength = 0;
}
size_t AsyncChunkedResponse::_fillBuffer(uint8_t *data, size_t len){
size_t ret = _content(data, len, _filledLength);
if(ret != RESPONSE_TRY_AGAIN){
_filledLength += ret;
}
return ret;
}
/*
* Progmem Response
* */
AsyncProgmemResponse::AsyncProgmemResponse(int code, const String& contentType, const uint8_t * content, size_t len, AwsTemplateProcessor callback): AsyncAbstractResponse(callback) {
_code = code;
_content = content;
_contentType = contentType;
_contentLength = len;
_readLength = 0;
}
size_t AsyncProgmemResponse::_fillBuffer(uint8_t *data, size_t len){
size_t left = _contentLength - _readLength;
if (left > len) {
memcpy_P(data, _content + _readLength, len);
_readLength += len;
return len;
}
memcpy_P(data, _content + _readLength, left);
_readLength += left;
return left;
}
/*
* Response Stream (You can print/write/printf to it, up to the contentLen bytes)
* */
AsyncResponseStream::AsyncResponseStream(const String& contentType, size_t bufferSize)
{
_code = 200;
_contentLength = 0;
_contentType = contentType;
_content = std::unique_ptr<cbuf>(new cbuf(bufferSize)); //std::make_unique<cbuf>(bufferSize);
}
AsyncResponseStream::~AsyncResponseStream() = default;
size_t AsyncResponseStream::_fillBuffer(uint8_t *buf, size_t maxLen){
return _content->read((char*)buf, maxLen);
}
size_t AsyncResponseStream::write(const uint8_t *data, size_t len){
if(_started())
return 0;
if(len > _content->room()){
size_t needed = len - _content->room();
_content->resizeAdd(needed);
}
size_t written = _content->write((const char*)data, len);
_contentLength += written;
return written;
}
size_t AsyncResponseStream::write(uint8_t data){
return write(&data, 1);
}

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lib/ESPAsyncWebServer/WebServer.cpp → lib/ESPAsyncWebServer/src/WebServer.cpp
View File