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32 Commits
main ... https_36

Author SHA1 Message Date
Proddy
6f8581f989 Merge pull request #1533 from proddy/https_36 
keeping branch update. still memory and performance issues
 2024-01-03 11:34:10 +01:00
Proddy
4c60a88221 remove bogus folder 2024-01-02 17:06:52 +01:00
Proddy
d093886571 json is always chunked 2024-01-02 17:06:15 +01:00
Proddy
9e251fd3de lolin default 2024-01-02 17:06:00 +01:00
Proddy
89fd16d48f header updates 2024-01-02 17:05:49 +01:00
Proddy
75fc8c201a formatting 2024-01-02 17:05:19 +01:00
Proddy
f1a3bf0e6a vite chunk optimizations 2024-01-02 17:05:11 +01:00
Proddy
86afa20470 add eventsource for log 2024-01-01 17:00:14 +01:00
Proddy
32e3f69961 add comments 2024-01-01 17:00:06 +01:00
Proddy
1b7d999fc4 add comments 2024-01-01 16:59:52 +01:00
Proddy
6e6023cfd1 comment out 2024-01-01 16:59:45 +01:00
Proddy
e64a374174 force WiFi.mode 2024-01-01 16:59:36 +01:00
Proddy
400100759a commented out, not using 2024-01-01 16:59:12 +01:00
Proddy
3e49dc113e Merge pull request #1532 from proddy/https_36 
Https 36
 2023-12-31 13:58:41 +01:00
Proddy
7b96baa9b8 updates 2023-12-31 13:57:43 +01:00
Proddy
8bdd01f73f latest updates 2023-12-30 21:33:42 +01:00
Proddy
b36477cc8a remove [this] 2023-12-29 12:06:11 +01:00
Proddy
ebfc4a64e2 package update 2023-12-29 12:05:54 +01:00
Proddy
fd48fb63d8 optimized 2023-12-29 12:05:47 +01:00
Proddy
20d747330c remove comments, fix get* 2023-12-29 12:05:39 +01:00
Proddy
781fb67a4e use local logger 2023-12-29 12:05:08 +01:00
Proddy
2b44155869 bump version 2023-12-29 12:04:48 +01:00
Proddy
9ca0782ae7 change api to api/system 2023-12-29 12:04:40 +01:00
Proddy
4b831e864c remove comment 2023-12-29 12:04:10 +01:00
Proddy
16dc82da1c polish translations from dev.7 2023-12-28 14:38:55 +01:00
Proddy
8cd0a9a761 API updates 2023-12-28 14:25:39 +01:00
proddy
b928ad89d9 fix erase line 2023-12-28 10:32:59 +01:00
proddy
12671f7ed3 add test for build date/time 2023-12-28 10:32:48 +01:00
proddy
22184f13f2 add back deps so compiles on OSX 2023-12-28 10:32:32 +01:00
Proddy
778bbe3b81 some standalone compile updates for testing 2023-12-27 22:41:19 +01:00
Proddy
23d4f608c5 minor uodates to routing 2023-12-26 15:52:46 +01:00
Proddy
73a51ae4ad first commit using PsychicHttp 2023-12-25 13:27:02 +01:00
208 changed files with 8720 additions and 13316 deletions
Expand all files Collapse all files

1
.gitignore vendored
View File

@@ -61,3 +61,4 @@ bw-output/
# dump_entities.csv
# dump_entities.xls*
benchmark/*.log

2
CHANGELOG_LATEST.md
View File

@@ -10,6 +10,8 @@
- heatpump energy meters [#1463](https://github.com/emsesp/EMS-ESP32/issues/1463)
- heatpump max power [#1475](https://github.com/emsesp/EMS-ESP32/issues/1475)
- checkbox for MQTT-TLS enable [#1474](https://github.com/emsesp/EMS-ESP32/issues/1474)
- added SK (Slovencina) language. Thanks @misa1515
- CPU info [#1497](https://github.com/emsesp/EMS-ESP32/pull/1497)
## Fixed

1
README.md
View File

@@ -47,7 +47,6 @@ EMS-ESP is a project owned and maintained by [proddy](https://github.com/proddy)
- [uuid-\*](https://github.com/nomis/mcu-uuid-console) from @nomis. The console, syslog, telnet and logging are based off these open source libraries
- [ArduinoJson](https://github.com/bblanchon/ArduinoJson) for all the JSON
- [espMqttClient](https://github.com/bertmelis/espMqttClient) for the MQTT client, with custom modifications from @MichaelDvP and @proddy
- ESPAsyncWebServer and AsyncTCP for the Web server and TCP backends, with custom modifications for performance
## **License**

39
benchmark/http-client-test.js Executable file
View File

@@ -0,0 +1,39 @@
#!/usr/bin/env node
const axios = require('axios');
const url = 'http://10.10.10.135/api/system/commands';
const queryParams = {
entity: 'commands',
id: 0
};
const totalRequests = 1000000;
const requestsPerCount = 100;
let requestCount = 0;
function fetchData() {
axios
.get(url, { params: queryParams })
.then((response) => {
requestCount++;
if (requestCount % requestsPerCount === 0) {
console.log(`Requests completed: ${requestCount}`);
}
if (requestCount < totalRequests) {
fetchData();
} else {
console.log('All requests completed.');
}
})
.catch((error) => {
console.error('Error making request:', error.message);
});
}
// Start making requests
console.log(`Starting test`);
fetchData();

38
benchmark/loadtest-http.sh Executable file
View File

@@ -0,0 +1,38 @@
#!/usr/bin/env bash
# Install:
# npm install -g autocannon
# yarn global add autocannon
#
# or run https://github.com/nearform/autocannon-ui
TEST_IP="10.10.10.135"
TEST_TIME=60
LOG_FILE=http-loadtest.log
TIMEOUT=10000
PROTOCOL=http
#PROTOCOL=https
if test -f "$LOG_FILE"; then
rm $LOG_FILE
fi
# for CONCURRENCY in 1 2 3 4 5 6 7 8 9 10 15 20
for CONCURRENCY in 1
#for CONCURRENCY in 20
do
printf "\n\nCLIENTS: *** $CONCURRENCY ***\n\n" >> $LOG_FILE
echo "Testing $CONCURRENCY clients on $PROTOCOL://$TEST_IP/"
autocannon -c $CONCURRENCY -w 1 -d $TEST_TIME --renderStatusCodes "$PROTOCOL://$TEST_IP/" >> $LOG_FILE 2>&1
printf "\n\n----------------\n\n" >> $LOG_FILE
sleep 1
echo "Testing $CONCURRENCY clients on $PROTOCOL://$TEST_IP/api/system/commands"
autocannon -c $CONCURRENCY -w 1 -d $TEST_TIME --renderStatusCodes "$PROTOCOL://$TEST_IP/api/system/commands" >> $LOG_FILE 2>&1
printf "\n\n----------------\n\n" >> $LOG_FILE
sleep 1
echo "Testing $CONCURRENCY clients on $PROTOCOL://$TEST_IP/app/icon.png"
autocannon -c $CONCURRENCY -w 1 -d $TEST_TIME --renderStatusCodes "$PROTOCOL://$TEST_IP/app/icon.png" >> $LOG_FILE 2>&1
printf "\n\n----------------\n\n" >> $LOG_FILE
sleep 1
done

8
benchmark/package.json Normal file
View File

@@ -0,0 +1,8 @@
{
"dependencies": {
"autocannon": "^7.14.0",
"axios": "^1.6.2",
"eventsource": "^2.0.2",
"ws": "^8.14.2"
}
}

34
interface/package.json
View File

@@ -20,20 +20,20 @@
"lint": "eslint . --cache --fix"
},
"dependencies": {
"@alova/adapter-xhr": "^1.0.1",
"@babel/core": "^7.23.6",
"@emotion/react": "^11.11.1",
"@alova/adapter-xhr": "^1.0.2",
"@babel/core": "^7.23.7",
"@emotion/react": "^11.11.3",
"@emotion/styled": "^11.11.0",
"@mui/icons-material": "^5.15.0",
"@mui/material": "^5.15.0",
"@mui/icons-material": "^5.15.2",
"@mui/material": "^5.15.2",
"@table-library/react-table-library": "4.1.7",
"@types/imagemin": "^8.0.5",
"@types/lodash-es": "^4.17.12",
"@types/node": "^20.10.4",
"@types/react": "^18.2.43",
"@types/react-dom": "^18.2.17",
"@types/node": "^20.10.6",
"@types/react": "^18.2.46",
"@types/react-dom": "^18.2.18",
"@types/react-router-dom": "^5.3.3",
"alova": "^2.16.0",
"alova": "^2.16.2",
"async-validator": "^4.2.5",
"history": "^5.3.0",
"jwt-decode": "^4.0.0",
@@ -43,7 +43,7 @@
"react-dom": "latest",
"react-dropzone": "^14.2.3",
"react-icons": "^4.12.0",
"react-router-dom": "^6.20.1",
"react-router-dom": "^6.21.1",
"react-toastify": "^9.1.3",
"sockette": "^2.0.6",
"typesafe-i18n": "^5.26.2",
@@ -52,27 +52,27 @@
"devDependencies": {
"@preact/compat": "^17.1.2",
"@preact/preset-vite": "^2.7.0",
"@typescript-eslint/eslint-plugin": "^6.14.0",
"@typescript-eslint/parser": "^6.14.0",
"@typescript-eslint/eslint-plugin": "^6.17.0",
"@typescript-eslint/parser": "^6.17.0",
"concurrently": "^8.2.2",
"eslint": "^8.55.0",
"eslint": "^8.56.0",
"eslint-config-airbnb": "^19.0.4",
"eslint-config-airbnb-typescript": "^17.1.0",
"eslint-config-prettier": "^9.1.0",
"eslint-import-resolver-typescript": "^3.6.1",
"eslint-plugin-autofix": "^1.1.0",
"eslint-plugin-import": "^2.29.0",
"eslint-plugin-import": "^2.29.1",
"eslint-plugin-jsx-a11y": "^6.8.0",
"eslint-plugin-prettier": "alpha",
"eslint-plugin-react": "^7.33.2",
"eslint-plugin-react-hooks": "^4.6.0",
"preact": "^10.19.3",
"prettier": "^3.1.1",
"rollup-plugin-visualizer": "^5.11.0",
"rollup-plugin-visualizer": "^5.12.0",
"terser": "^5.26.0",
"vite": "^5.0.8",
"vite": "^5.0.10",
"vite-plugin-imagemin": "^0.6.1",
"vite-tsconfig-paths": "^4.2.2"
"vite-tsconfig-paths": "^4.2.3"
},
"packageManager": "yarn@4.0.2"
}

3
interface/progmem-generator.js
View File

@@ -11,7 +11,8 @@ const bytesPerLine = 20;
var totalSize = 0;
const generateWWWClass = () =>
`typedef std::function<void(const String& uri, const String& contentType, const uint8_t * content, size_t len)> RouteRegistrationHandler;
`typedef std::function<void(const String &, const String & contentType, const uint8_t * content, size_t len)> RouteRegistrationHandler;
// Total size is ${totalSize} bytes
class WWWData {
${indent}public:

BIN
interface/public/fonts/re.woff2
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Binary file not shown.

5
interface/src/SignIn.tsx
View File

@@ -22,6 +22,7 @@ import ITflag from 'i18n/IT.svg';
import NLflag from 'i18n/NL.svg';
import NOflag from 'i18n/NO.svg';
import PLflag from 'i18n/PL.svg';
import SKflag from 'i18n/SK.svg';
import SVflag from 'i18n/SV.svg';
import TRflag from 'i18n/TR.svg';
import { I18nContext } from 'i18n/i18n-react';
@@ -142,6 +143,10 @@ const SignIn: FC = () => {
<img src={PLflag} style={{ width: 16, verticalAlign: 'middle' }} />
&nbsp;PL
</MenuItem>
<MenuItem key="sk" value="sk">
<img src={SKflag} style={{ width: 16, verticalAlign: 'middle' }} />
&nbsp;SK
</MenuItem>
<MenuItem key="sv" value="sv">
<img src={SVflag} style={{ width: 16, verticalAlign: 'middle' }} />
&nbsp;SV

8
interface/src/components/layout/LayoutAuthMenu.tsx
View File

@@ -14,11 +14,9 @@ import {
} from '@mui/material';
import { useState, useContext } from 'react';
import type { TypographyProps } from '@mui/material';
import type { Locales } from 'i18n/i18n-types';
import type { FC, ChangeEventHandler } from 'react';
import { AuthenticatedContext } from 'contexts/authentication';
import DEflag from 'i18n/DE.svg';
import FRflag from 'i18n/FR.svg';
import GBflag from 'i18n/GB.svg';
@@ -26,8 +24,10 @@ import ITflag from 'i18n/IT.svg';
import NLflag from 'i18n/NL.svg';
import NOflag from 'i18n/NO.svg';
import PLflag from 'i18n/PL.svg';
import SKflag from 'i18n/SK.svg';
import SVflag from 'i18n/SV.svg';
import TRflag from 'i18n/TR.svg';
import { I18nContext } from 'i18n/i18n-react';
import { loadLocaleAsync } from 'i18n/i18n-util.async';
@@ -102,6 +102,10 @@ const LayoutAuthMenu: FC = () => {
<img src={PLflag} style={{ width: 16, verticalAlign: 'middle' }} />
&nbsp;PL
</MenuItem>
<MenuItem key="sk" value="sk">
<img src={SKflag} style={{ width: 16, verticalAlign: 'middle' }} />
&nbsp;SK
</MenuItem>
<MenuItem key="sv" value="sv">
<img src={SVflag} style={{ width: 16, verticalAlign: 'middle' }} />
&nbsp;SV

2
interface/src/framework/network/NetworkSettingsForm.tsx
View File

@@ -313,7 +313,7 @@ const WiFiSettingsForm: FC = () => {
</>
)}
{restartNeeded && (
<MessageBox my={2} level="warning" message={LL.RESTART_TEXT()}>
<MessageBox my={2} level="warning" message={LL.RESTART_TEXT(0)}>
<Button startIcon={<PowerSettingsNewIcon />} variant="contained" color="error" onClick={restart}>
{LL.RESTART()}
</Button>

40
interface/src/framework/system/SystemStatusForm.tsx
View File

@@ -1,6 +1,7 @@
import AppsIcon from '@mui/icons-material/Apps';
import BuildIcon from '@mui/icons-material/Build';
import CancelIcon from '@mui/icons-material/Cancel';
import DeveloperBoardIcon from '@mui/icons-material/DeveloperBoard';
import DevicesIcon from '@mui/icons-material/Devices';
import FolderIcon from '@mui/icons-material/Folder';
import MemoryIcon from '@mui/icons-material/Memory';
@@ -9,7 +10,6 @@ import RefreshIcon from '@mui/icons-material/Refresh';
import SdCardAlertIcon from '@mui/icons-material/SdCardAlert';
import SdStorageIcon from '@mui/icons-material/SdStorage';
import SettingsBackupRestoreIcon from '@mui/icons-material/SettingsBackupRestore';
import ShowChartIcon from '@mui/icons-material/ShowChart';
import TimerIcon from '@mui/icons-material/Timer';
import {
Avatar,
@@ -200,15 +200,6 @@ const SystemStatusForm: FC = () => {
</Button>
</ListItem>
<Divider variant="inset" component="li" />
<ListItem>
<ListItemAvatar>
<Avatar>
<DevicesIcon />
</Avatar>
</ListItemAvatar>
<ListItemText primary={LL.PLATFORM()} secondary={data.esp_platform + ' / ' + data.sdk_version} />
</ListItem>
<Divider variant="inset" component="li" />
<ListItem>
<ListItemAvatar>
<Avatar>
@@ -221,10 +212,31 @@ const SystemStatusForm: FC = () => {
<ListItem>
<ListItemAvatar>
<Avatar>
<ShowChartIcon />
<DevicesIcon />
</Avatar>
</ListItemAvatar>
<ListItemText primary={LL.CPU_FREQ()} secondary={data.cpu_freq_mhz + ' MHz'} />
<ListItemText primary="SDK" secondary={data.arduino_version + ' / ESP-IDF v' + data.sdk_version} />
</ListItem>
<Divider variant="inset" component="li" />
<ListItem>
<ListItemAvatar>
<Avatar>
<DeveloperBoardIcon />
</Avatar>
</ListItemAvatar>
<ListItemText
primary="CPU"
secondary={
data.cpu_type +
' (rev.' +
data.cpu_rev +
', ' +
(data.cpu_cores == 1 ? 'single-core)' : 'dual-core)') +
' @ ' +
data.cpu_freq_mhz +
' Mhz'
}
/>
</ListItem>
<Divider variant="inset" component="li" />
<ListItem>
@@ -277,7 +289,9 @@ const SystemStatusForm: FC = () => {
</ListItemAvatar>
<ListItemText
primary={LL.APPSIZE()}
secondary={formatNumber(data.app_used) + ' KB / ' + formatNumber(data.app_free) + ' KB'}
secondary={
data.partition + ': ' + formatNumber(data.app_used) + ' KB / ' + formatNumber(data.app_free) + ' KB'
}
/>
</ListItem>
<Divider variant="inset" component="li" />

30
interface/src/framework/system/UploadFileForm.tsx
View File

@@ -28,7 +28,7 @@ const UploadFileForm: FC = () => {
const { send: getSchedule, onSuccess: onSuccessGetSchedule } = useRequest(EMSESP.getSchedule(), {
immediate: false
});
const { send: getAPI, onSuccess: onGetAPI } = useRequest((data) => EMSESP.API(data), {
const { send: getSystemAPI, onSuccess: onSystemAPI } = useRequest((data) => EMSESP.APIcall('system', data), {
immediate: false
});
@@ -89,8 +89,8 @@ const UploadFileForm: FC = () => {
onSuccessGetSchedule((event) => {
saveFile(event.data, 'schedule.json');
});
onGetAPI((event) => {
saveFile(event.data, event.sendArgs[0].device + '_' + event.sendArgs[0].entity + '.txt');
onSystemAPI((event) => {
saveFile(event.data, event.sendArgs[0].entity + '.txt');
});
const downloadSettings = async () => {
@@ -121,8 +121,8 @@ const UploadFileForm: FC = () => {
});
};
const callAPI = async (device: string, entity: string) => {
await getAPI({ device, entity, id: 0 }).catch((error) => {
const callSystemAPI = async (entity: string) => {
await getSystemAPI({ entity, id: 0 }).catch((error) => {
toast.error(error.message);
});
};
@@ -134,9 +134,10 @@ const UploadFileForm: FC = () => {
</Typography>
<Box mb={2} color="warning.main">
<Typography variant="body2">
{LL.UPLOAD_TEXT()}
{LL.UPLOAD_TEXT()}.
<br />
{LL.RESTART_TEXT()}.
<br />
{LL.RESTART_TEXT(1)}.
</Typography>
</Box>
{md5 && (
@@ -148,33 +149,28 @@ const UploadFileForm: FC = () => {
{!isUploading && (
<>
<Typography sx={{ pt: 4, pb: 2 }} variant="h6" color="primary">
{LL.DOWNLOAD(0)}&nbsp;{LL.SUPPORT_INFORMATION()}
{LL.DOWNLOAD(0)}&nbsp;{LL.SUPPORT_INFORMATION(1)}
</Typography>
<Box color="warning.main">
<Typography mb={1} variant="body2">
{LL.HELP_INFORMATION_4()}
</Typography>
</Box>
<Button
startIcon={<DownloadIcon />}
variant="outlined"
color="primary"
onClick={() => callAPI('system', 'info')}
>
{LL.SUPPORT_INFORMATION()}
<Button startIcon={<DownloadIcon />} variant="outlined" color="primary" onClick={() => callSystemAPI('info')}>
{LL.SUPPORT_INFORMATION(0)}
</Button>
<Button
sx={{ ml: 2 }}
startIcon={<DownloadIcon />}
variant="outlined"
color="primary"
onClick={() => callAPI('system', 'allvalues')}
onClick={() => callSystemAPI('allvalues')}
>
All Values
</Button>
<Typography sx={{ pt: 4, pb: 2 }} variant="h6" color="primary">
{LL.DOWNLOAD(0)}&nbsp;{LL.SETTINGS()}
{LL.DOWNLOAD(0)}&nbsp;{LL.SETTINGS(1)}
</Typography>
<Box color="warning.main">
<Typography mb={1} variant="body2">

1
interface/src/i18n/SK.svg Normal file
View File

@@ -0,0 +1 @@
<svg xmlns="http://www.w3.org/2000/svg" viewBox="0 85.333 512 341.333"><path fill="#FFF" d="M0 85.337h512v341.326H0z"/><path fill="#0052B4" d="M0 196.641h512v118.717H0z"/><path fill="#D80027" d="M0 315.359h512v111.304H0z"/><path fill="#FFF" d="M129.468 181.799v85.136c0 48.429 63.267 63.267 63.267 63.267S256 315.362 256 266.935v-85.136H129.468z"/><path fill="#D80027" d="M146.126 184.294v81.941c0 5.472 1.215 10.64 3.623 15.485h85.97c2.408-4.844 3.623-10.012 3.623-15.485v-81.941h-93.216z"/><path fill="#FFF" d="M221.301 241.427h-21.425v-14.283h14.284v-14.283h-14.284v-14.284h-14.283v14.284h-14.282v14.283h14.282v14.283h-21.426v14.284h21.426v14.283h14.283v-14.283h21.425z"/><path fill="#0052B4" d="M169.232 301.658c9.204 5.783 18.66 9.143 23.502 10.636 4.842-1.494 14.298-4.852 23.502-10.636 9.282-5.833 15.79-12.506 19.484-19.939a24.878 24.878 0 0 0-14.418-4.583c-1.956 0-3.856.232-5.682.657-3.871-8.796-12.658-14.94-22.884-14.94-10.227 0-19.013 6.144-22.884 14.94a25.048 25.048 0 0 0-5.682-.657 24.88 24.88 0 0 0-14.418 4.583c3.691 7.433 10.198 14.106 19.48 19.939z"/></svg>
Side by Side

After

Width:  |  Height:  |  Size: 1.1 KiB

4
interface/src/i18n/de/index.ts
View File

@@ -194,13 +194,11 @@ const de: Translation = {
RELEASE_IS: 'release ist', // TODO translate
RELEASE_NOTES: 'Versionshinweise',
EMS_ESP_VER: 'EMS-ESP Version',
PLATFORM: 'Platform (Platform / SDK)',
UPTIME: 'System Betriebszeit',
CPU_FREQ: 'CPU Frequenz',
HEAP: 'freier RAM Speicher (Gesamt / max. Block)',
PSRAM: 'PSRAM (Größe / Frei)',
FLASH: 'Flash Speicher (Größe / Geschwindigkeit)',
APPSIZE: 'Programm (Genutzt / Frei)',
APPSIZE: 'Programm (Partition: Genutzt / Frei)',
FILESYSTEM: 'Dateisystem (Genutzt / Frei)',
BUFFER_SIZE: 'max. Puffergröße',
COMPACT: 'Kompakte Darstellung',

3
interface/src/i18n/en/index.ts
View File

@@ -196,11 +196,10 @@ const en: Translation = {
EMS_ESP_VER: 'EMS-ESP Version',
PLATFORM: 'Device (Platform / SDK)',
UPTIME: 'System Uptime',
CPU_FREQ: 'CPU Frequency',
HEAP: 'Heap (Free / Max Alloc)',
PSRAM: 'PSRAM (Size / Free)',
FLASH: 'Flash Chip (Size / Speed)',
APPSIZE: 'Application (Used / Free)',
APPSIZE: 'Application (Partition: Used / Free)',
FILESYSTEM: 'File System (Used / Free)',
BUFFER_SIZE: 'Max Buffer Size',
COMPACT: 'Compact',

4
interface/src/i18n/fr/index.ts
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@@ -194,13 +194,11 @@ const fr: Translation = {
RELEASE_IS: 'release est', // TODO translate
RELEASE_NOTES: 'notes de version',
EMS_ESP_VER: 'Version EMS-ESP',
PLATFORM: 'Appareil (Plateforme / SDK)',
UPTIME: 'Durée de fonctionnement du système',
CPU_FREQ: 'Fréquence du CPU',
HEAP: 'Heap (Libre / Max Allouée)',
PSRAM: 'PSRAM (Taille / Libre)',
FLASH: 'Flash Chip (Taille / Vitesse)',
APPSIZE: 'Application (Utilisée / Libre)',
APPSIZE: 'Application (Partition: Utilisée / Libre)',
FILESYSTEM: 'File System (Utilisée / Libre)',
BUFFER_SIZE: 'Max taille du buffer',
COMPACT: 'Compact',

4
interface/src/i18n/it/index.ts
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@@ -196,13 +196,11 @@ const it: Translation = {
RELEASE_IS: 'rilascio é',
RELEASE_NOTES: 'note rilascio',
EMS_ESP_VER: 'Versione EMS-ESP',
PLATFORM: 'Dispositivo (Piattaforma / SDK)',
UPTIME: 'Tempo di attività del sistema',
CPU_FREQ: 'Frequenza CPU ',
HEAP: 'Heap (Free / Max Alloc)',
PSRAM: 'PSRAM (Size / Free)',
FLASH: 'Flash Chip (Size / Speed)',
APPSIZE: 'Applicazione (Usata / Libera)',
APPSIZE: 'Applicazione (Partizione: Usata / Libera)',
FILESYSTEM: 'Memoria Sistema (Usata / Libera)',
BUFFER_SIZE: 'Max Buffer Size',
COMPACT: 'Compact',

4
interface/src/i18n/nl/index.ts
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@@ -194,13 +194,11 @@ const nl: Translation = {
RELEASE_IS: 'release is',
RELEASE_NOTES: 'release notes',
EMS_ESP_VER: 'EMS-ESP Versie',
PLATFORM: 'Apparaat (Platform / SDK)',
UPTIME: 'Systeem Uptime',
CPU_FREQ: 'CPU Frequency',
HEAP: 'Heap (Free / Max Alloc)',
PSRAM: 'PSRAM (Size / Free)',
FLASH: 'Flash Chip (Size / Speed)',
APPSIZE: 'Application (Used / Free)',
APPSIZE: 'Application (Partition: Used / Free)',
FILESYSTEM: 'File System (Used / Free)',
BUFFER_SIZE: 'Max Buffer Size',
COMPACT: 'Compact',

4
interface/src/i18n/no/index.ts
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@@ -194,13 +194,11 @@ const no: Translation = {
RELEASE_IS: 'release er',
RELEASE_NOTES: 'release notes',
EMS_ESP_VER: 'EMS-ESP Version',
PLATFORM: 'Enhet (Platform / SDK)',
UPTIME: 'System Oppetid',
CPU_FREQ: 'CPU Frekvens',
HEAP: 'Heap (Ledig / Max Allokert)',
PSRAM: 'PSRAM (Størrelse / Ledig)',
FLASH: 'Flash Chip (Størrelse / Hastighet)',
APPSIZE: 'Applikasjon (Brukt / Ledig)',
APPSIZE: 'Applikasjon (Partition: Brukt / Ledig)',
FILESYSTEM: 'File System (Brukt / Ledig)',
BUFFER_SIZE: 'Max Buffer Størrelse',
COMPACT: 'Komprimere',

26
interface/src/i18n/pl/index.ts
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@@ -53,7 +53,7 @@ const pl: BaseTranslation = {
PROBLEM_LOADING: 'Problem z załadowaniem!',
ANALOG_SENSOR: '{{u|u||ustawienia u|ustawień u}}rządzeni{{a podłączonego do EMS-ESP|e||a podłączonego do EMS-ESP|a podłączonego do EMS-ESP}}',
ANALOG_SENSORS: 'Urządzenia podłączone do EMS-ESP',
SETTINGS: 'ustawienia',
SETTINGS: 'ustawie{{nia|ń|}}',
UPDATED_OF: 'Zaktualizowano {0}.',
UPDATE_OF: 'Aktualizacja {0}',
REMOVED_OF: 'Usunięto ustawienia {0}.',
@@ -126,7 +126,7 @@ const pl: BaseTranslation = {
BYPASS_TOKEN: 'Pomiń autoryzację tokenem w wywołaniach API',
READONLY: 'Tryb pracy "tylko do odczytu" (blokuje wszystkie komendy zapisu na magistralę EMS)',
UNDERCLOCK_CPU: 'Obniż taktowanie CPU',
HEATINGOFF: 'Uruchom boiler z wymuszonym wyłączonym grzaniem',
HEATINGOFF: 'Uruchom kocioł z wymuszonym wyłączonym grzaniem',
ENABLE_SHOWER_TIMER: 'Aktywuj minutnik prysznica',
ENABLE_SHOWER_ALERT: 'Aktywuj alarm prysznica',
TRIGGER_TIME: 'Wyzwalaj po czasie',
@@ -146,13 +146,13 @@ const pl: BaseTranslation = {
MINUTES: 'minut',
HOURS: 'godzin',
RESTART: 'Restart',
RESTART_TEXT: 'Aby zastosować wprowadzone zmiany interfejs EMS-ESP musi zostać zrestartowany.',
RESTART_TEXT: 'Aby zastosować wprowadzone zmiany, interfejs EMS-ESP {{musi zostać|zostanie|}} uruchomiony ponowni{{e.|e|}}',
RESTART_CONFIRM: 'Na pewno chcesz zrestartować interfejs EMS-ESP?',
COMMAND: '{{Komenda|KOMENDA|}}',
CUSTOMIZATIONS_RESTART: 'Wszystkie personalizacje zostały usunięte. Restartuję...',
CUSTOMIZATIONS_FULL: 'Wybrano za dużo obiektów. Wprowadź zmiany w mniejszych partiach.',
CUSTOMIZATIONS_SAVED: 'Personalizacje zostały zapisane.',
CUSTOMIZATIONS_HELP_1: 'Wybierz urządzenie EMS, dostosuj opcje lub kliknij by zmienić nazwę encji.',
CUSTOMIZATIONS_HELP_1: 'Wybierz urządzenie EMS, a następnie dostosuj opcje lub kliknij na nazwie encji by tę nazwę zmienić',
CUSTOMIZATIONS_HELP_2: 'oznacz jako ulubioną',
CUSTOMIZATIONS_HELP_3: 'zablokuj akcje zapisu',
CUSTOMIZATIONS_HELP_4: 'wyklucz z MQTT i API',
@@ -164,12 +164,12 @@ const pl: BaseTranslation = {
NAME: '{{Nazwa|nazwa|}}',
CUSTOMIZATIONS_RESET: 'Na pewno chcesz usunąć wszystkie personalizacje łącznie z ustawieniami dla czujników temperatury 1-Wire® i urządzeń podłączonych do EMS-ESP?',
DEVICE_ENTITIES: 'Encje urządzenia',
SUPPORT_INFORMATION: 'Informacje dotyczące wsparcia',
SUPPORT_INFORMATION: '{{I|i|}}nformacj{{e|i|}} o systemie',
CLICK_HERE: 'Kliknij tu',
HELP_INFORMATION_1: 'Aby uzyskać instrukcje dotyczące konfiguracji EMS-ESP skorzystaj z wiki w internecie',
HELP_INFORMATION_1: 'Aby uzyskać instrukcje dotyczące konfiguracji EMS-ESP, skorzystaj z wiki w internecie',
HELP_INFORMATION_2: 'Aby dołączyć do naszego serwera Discord i komunikować się na żywo ze społecznością',
HELP_INFORMATION_3: 'Aby zaproponować nową funkcjonalność lub zgłosić problem',
HELP_INFORMATION_4: 'Zgłaszając problem, nie zapomnij dołączyć informacji o swoim systemie!',
HELP_INFORMATION_4: 'Zgłaszając problem, nie zapomnij pobrać i dołączyć informacji o swoim systemie!',
HELP_INFORMATION_5: 'EMS-ESP jest darmowym projektem typu open-source. Aby go wesprzeć, rozważ przyznanie nam gwiazdki na Github!',
UPLOAD: 'Wysyłanie',
DOWNLOAD: '{{P|p||P}}obier{{anie|z||z}}',
@@ -194,21 +194,19 @@ const pl: BaseTranslation = {
RELEASE_IS: 'wydanie to',
RELEASE_NOTES: 'lista zmian',
EMS_ESP_VER: 'Wersja EMS-ESP',
PLATFORM: 'Urządzenie (platforma / SDK)',
UPTIME: 'Czas działania systemu',
CPU_FREQ: 'Taktowanie CPU',
HEAP: 'HEAP (wolne / maksymalny przydział)',
PSRAM: 'PSRAM (rozmiar / wolne)',
FLASH: 'FLASH (rozmiar / taktowanie)',
APPSIZE: 'Aplikacja (wykorzystane / wolne)',
APPSIZE: 'Aplikacja (partycja: wykorzystane / wolne)',
FILESYSTEM: 'System plików (wykorzystane / wolne)',
BUFFER_SIZE: 'Maksymalna pojemność bufora (ilość wpisów)',
COMPACT: 'Kompaktowy',
ENABLE_OTA: 'Aktywuj aktualizację OTA',
DOWNLOAD_CUSTOMIZATION_TEXT: 'Pobierz personalizacje.',
DOWNLOAD_SCHEDULE_TEXT: 'Pobierz harmonogram zdarzeń.',
DOWNLOAD_SETTINGS_TEXT: 'Pobierz ustawienia aplikacji. Uważaj jeśli udostępniasz plik z ustawieniami, ponieważ zawiera on hasła oraz inne wrażliwe informacje!',
UPLOAD_TEXT: 'Wyślij firmware (.bin), ustawienia lub personalizacje (.json). Opcjonalnie, wyślij wcześniej plik walidacji (.md5).',
DOWNLOAD_SETTINGS_TEXT: 'Pobierz ustawienia aplikacji. Uwaga! Plik z ustawieniami zawiera hasła oraz inne wrażliwe informacje systemowe! Nie udostepniaj go pochopnie!',
UPLOAD_TEXT: 'Wyślij firmware (.bin), ustawienia lub personalizacje (.json). Opcjonalnie, wyślij wcześniej plik walidacji z sumą kontrolną (.md5).',
UPLOADING: 'Wysłano',
UPLOAD_DROP_TEXT: 'Przeciągnij tutaj plik lub kliknij',
ERROR: 'Nieoczekiwany błąd, spróbuj ponownie!',
@@ -320,10 +318,10 @@ const pl: BaseTranslation = {
CUSTOM_ENTITIES: '{{N|n|}}iestandardowe{{|j|}} encj{{e|i|}}',
ENTITIES_HELP_1: 'Zdefiniuj niestandardowe encje dla magistrali EMS.',
ENTITIES_UPDATED: 'Niestandardowe encje zostały uaktualnione.',
WRITEABLE: 'zapisywalna',
WRITEABLE: 'Zapisywalna',
SHOWING: 'Wyświetlane',
SEARCH: 'Szukaj',
CERT: 'Certyfikat główny TLS (pozostaw puste zby wyłączyć TLS-insecure)',
CERT: 'Certyfikat główny TLS (pozostaw puste dla TLS-insecure)',
ENABLE_TLS: 'Włącz wsparcie dla TLS',
ON: 'włączony',
OFF: 'wyłączony',

335
interface/src/i18n/sk/index.ts Normal file
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@@ -0,0 +1,335 @@
import type { Translation } from '../i18n-types';
/* prettier-ignore */
/* eslint-disable */
const sk: Translation = {
LANGUAGE: 'Jazyk',
RETRY: 'Opakovať',
LOADING: 'Načítanie',
IS_REQUIRED: '{0} je požadovaných',
SIGN_IN: 'Prihlásiť sa',
SIGN_OUT: 'Odhlásiť sa',
USERNAME: 'Užívateľské meno',
PASSWORD: 'Heslo',
SU_PASSWORD: 'su heslo',
DASHBOARD: 'Panel',
SETTINGS_OF: '{0} Nastavenia',
HELP_OF: '{0} Pomoc',
LOGGED_IN: 'Prihlásený ako {name}',
PLEASE_SIGNIN: 'Ak chcete pokračovať, prihláste sa',
UPLOAD_SUCCESSFUL: 'Nahratie úspešné',
DOWNLOAD_SUCCESSFUL: 'Stiahnutie úspešné',
INVALID_LOGIN: 'Nesprávne prihlasovacie údaje',
NETWORK: 'Sieť',
SECURITY: 'Zabezpečenie',
ONOFF_CAP: 'ZAP/VYP',
ONOFF: 'zap/vyp',
TYPE: 'Typ',
DESCRIPTION: 'Popis',
ENTITIES: 'Entity',
REFRESH: 'Obnoviť',
EXPORT: 'Export',
DEVICE_DETAILS: 'Detaily zariadenia',
ID_OF: '{0} ID',
DEVICE: 'Zariadenie',
PRODUCT: 'Produkt',
VERSION: 'Verzia',
BRAND: 'Značka',
ENTITY_NAME: 'Názov entity',
VALUE: '{{Value|value}}',
DEVICE_DATA: 'Dáta zariadenia',
SENSOR_DATA: 'Dáta snímača',
DEVICES: 'Zariadenia',
SENSORS: 'Snímače',
RUN_COMMAND: 'Volať príkaz',
CHANGE_VALUE: 'Zmena hodnoty',
CANCEL: 'Zrušiť',
RESET: 'Reset',
APPLY_CHANGES: 'Aplikovať zmeny ({0})',
UPDATE: 'Aktualizovať',
EXECUTE: 'Spustiť',
REMOVE: 'Odstrániť',
PROBLEM_UPDATING: 'Problém s aktualizáciou',
PROBLEM_LOADING: 'Problém s načítaním',
ANALOG_SENSOR: 'Analógový snímač',
ANALOG_SENSORS: 'Analógové snímače',
SETTINGS: 'Nastavenia',
UPDATED_OF: '{0} aktualizovaných',
UPDATE_OF: '{0} aktualizované',
REMOVED_OF: '{0} odstránených',
DELETION_OF: '{0} zmazaných',
OFFSET: 'Ofset',
FACTOR: 'Faktor',
FREQ: 'Frekvencia',
DUTY_CYCLE: 'Duty Cycle',
UNIT: 'UoM',
STARTVALUE: 'Počiatočná hodnota',
WARN_GPIO: 'Upozornenie: Buďte opatrní pri priraďovaní GPIO!',
EDIT: 'Editovať',
SENSOR: 'Snímač',
TEMP_SENSOR: 'Snímač teploty',
TEMP_SENSORS: 'Snímače teploty',
WRITE_CMD_SENT: 'Príkaz zápisu bol odoslaný',
EMS_BUS_WARNING: 'Zbernica EMS odpojená. Ak toto upozornenie pretrváva aj po niekoľkých sekundách, skontrolujte nastavenia a profil dosky',
EMS_BUS_SCANNING: 'Zisťovanie EMS zariadení...',
CONNECTED: 'Pripojené',
TX_ISSUES: 'Problémy s Tx skontrolujte Tx režim',
DISCONNECTED: 'Odpojené',
EMS_SCAN: 'Naozaj chcete spustiť úplnú kontrolu zariadenia zbernice EMS?',
EMS_BUS_STATUS: 'Stav zbernice EMS',
ACTIVE_DEVICES: 'Aktívne zariadenia a snímače',
EMS_DEVICE: 'EMS zariadenie',
SUCCESS: 'ÚSPEŠNÉ',
FAIL: 'ZLYHANIE',
QUALITY: 'KVALITA',
SCAN_DEVICES: 'Scan pre nové zariadenia',
EMS_BUS_STATUS_TITLE: 'EMS zbernica & stav aktivity',
SCAN: 'Scan',
STATUS_NAMES: [
'EMS Telegramy prijaté (Rx)',
'EMS Čítania (Tx)',
'EMS Zápisy (Tx)',
'Čítanie snímača teploty',
'Analógové snímanie',
'MQTT Publikovanie',
'API volania',
'Syslog správy'
],
NUM_DEVICES: '{num} Zariadenia{{s}}',
NUM_TEMP_SENSORS: '{num} Teplotné snímače{{s}}',
NUM_ANALOG_SENSORS: '{num} Analógové snímače{{s}}',
NUM_DAYS: '{num} dní{{s}}',
NUM_SECONDS: '{num} sekúnd{{s}}',
NUM_HOURS: '{num} hodín{{s}}',
NUM_MINUTES: '{num} minút{{s}}',
APPLICATION_SETTINGS: 'Nastavenia aplikácie',
CUSTOMIZATIONS: 'Prispôsobenia',
APPLICATION_RESTARTING: 'EMS-ESP sa reštartuje',
INTERFACE_BOARD_PROFILE: 'Profil boardu rozhrania',
BOARD_PROFILE_TEXT: 'Vyberte vopred nakonfigurovaný profil dosky rozhrania zo zoznamu nižšie alebo vyberte možnosť Vlastné a nakonfigurujte svoje vlastné hardvérové nastavenia',
BOARD_PROFILE: 'Board profil',
CUSTOM: 'Vlastné',
GPIO_OF: '{0} GPIO',
BUTTON: 'Tlačidlo',
TEMPERATURE: 'Teplota',
PHY_TYPE: 'Eth PHY Typ',
DISABLED: 'zakázané',
TX_MODE: 'Tx režim',
HARDWARE: 'Hardware',
EMS_BUS: '{{BUS|EMS BUS}}',
GENERAL_OPTIONS: 'Všeobecné možnosti',
LANGUAGE_ENTITIES: 'Jazyk (pre entity zariadenia)',
HIDE_LED: 'Skryť LED',
ENABLE_TELNET: 'Povoliť Telnet konzolu',
ENABLE_ANALOG: 'Povoliť analógové snímače',
CONVERT_FAHRENHEIT: 'Previesť hodnoty teploty na fahrenheity',
BYPASS_TOKEN: 'Vynechajte autorizáciu prístupového tokenu pri volaniach API',
READONLY: 'Povoliť režim len na čítanie (blokuje všetky odchádzajúce príkazy EMS Tx Write)',
UNDERCLOCK_CPU: 'Podtaktovanie rýchlosti procesora',
HEATINGOFF: 'Spustite kotol s núteným vykurovaním',
ENABLE_SHOWER_TIMER: 'Povoliť časovač sprchovania',
ENABLE_SHOWER_ALERT: 'Povoliť upozornenie na sprchu',
TRIGGER_TIME: 'Čas spustenia',
COLD_SHOT_DURATION: 'Trvanie studeného záberu',
FORMATTING_OPTIONS: 'Možnosti formátovania',
BOOLEAN_FORMAT_DASHBOARD: 'Panel Boolean formát',
BOOLEAN_FORMAT_API: 'Boolean formát API/MQTT',
ENUM_FORMAT: 'Enum formát API/MQTT',
INDEX: 'Index',
ENABLE_PARASITE: 'Povolenie parazitného napájania',
LOGGING: 'Logovanie',
LOG_HEX: 'Záznam telegramov EMS v hexadecimálnej sústave',
ENABLE_SYSLOG: 'Povoliť Syslog',
LOG_LEVEL: 'Log úroveň',
MARK_INTERVAL: 'Označenie intervalu',
SECONDS: 'sekundy',
MINUTES: 'minúty',
HOURS: 'hodiny',
RESTART: 'Reštart',
RESTART_TEXT: 'EMS-ESP sa musí reštartovať, aby sa použili zmenené systémové nastavenia',
RESTART_CONFIRM: 'Ste si istí, že chcete reštartovať EMS-ESP?',
COMMAND: 'Príkaz',
CUSTOMIZATIONS_RESTART: 'Ste si istí, že chcete reštartovať EMS-ESP?',
CUSTOMIZATIONS_FULL: 'Vybrané subjekty prekročili limit. Prosím, ukladajte v dávkach',
CUSTOMIZATIONS_SAVED: 'Uložené prispôsobenia',
CUSTOMIZATIONS_HELP_1: 'Vyberte zariadenie a prispôsobte možnosti entít alebo kliknutím premenujte',
CUSTOMIZATIONS_HELP_2: 'označiť ako obľúbené',
CUSTOMIZATIONS_HELP_3: 'zakázať akciu zápisu',
CUSTOMIZATIONS_HELP_4: 'vylúčiť z MQTT a API',
CUSTOMIZATIONS_HELP_5: 'skryť z panela',
CUSTOMIZATIONS_HELP_6: 'odstrániť z pamäte',
SELECT_DEVICE: 'Zvoliť zariadenie',
SET_ALL: 'nastaviť všetko',
OPTIONS: 'Možnosti',
NAME: 'Názov',
CUSTOMIZATIONS_RESET: 'Naozaj chcete odstrániť všetky prispôsobenia vrátane vlastných nastavení snímačov teploty a analógových snímačov?',
DEVICE_ENTITIES: 'Entity zariadenia',
SUPPORT_INFORMATION: 'Informácie o podpore',
CLICK_HERE: 'Kliknite tu',
HELP_INFORMATION_1: 'Navštívte online wiki, kde nájdete pokyny na konfiguráciu EMS-ESP',
HELP_INFORMATION_2: 'Pre živý komunitný chat sa pripojte na náš Discord server',
HELP_INFORMATION_3: 'Ak chcete požiadať o funkciu alebo nahlásiť chybu',
HELP_INFORMATION_4: 'nezabudnite si stiahnuť a pripojiť informácie o vašom systéme, aby ste mohli rýchlejšie reagovať pri nahlasovaní problému',
HELP_INFORMATION_5: 'EMS-ESP je bezplatný a open source projekt. Podporte jeho budúci vývoj tým, že mu dáte hviezdičku na Github!',
UPLOAD: 'Nahrať',
DOWNLOAD: '{{S|s|s}}tiahnuť',
ABORTED: 'zrušené',
FAILED: 'chybné',
SUCCESSFUL: 'úspešné',
SYSTEM: 'Systém',
LOG_OF: '{0} Log',
STATUS_OF: '{0} Stav',
UPLOAD_DOWNLOAD: 'Nahrať/Stiahnuť',
VERSION_ON: 'Momentálne ste vo verzii',
SYSTEM_APPLY_FIRMWARE: 'na použitie nového firmvéru',
CLOSE: 'Zatvoriť',
USE: 'Použiť',
FACTORY_RESET: 'Továrenské nastavenia',
SYSTEM_FACTORY_TEXT: 'Zariadenie bolo obnovené z výroby a teraz sa reštartuje',
SYSTEM_FACTORY_TEXT_DIALOG: 'Naozaj chcete resetovať EMS-ESP na predvolené výrobné nastavenia?',
VERSION_CHECK: 'Kontrola verzie',
THE_LATEST: 'Posledná',
OFFICIAL: 'officiálna',
DEVELOPMENT: 'vývojárska',
RELEASE_IS: 'vydanie je',
RELEASE_NOTES: 'poznámky k vydaniu',
EMS_ESP_VER: 'EMS-ESP verzia',
UPTIME: 'Beh systému',
HEAP: 'Zásobník (voľné / max pridelenie)',
PSRAM: 'PSRAM (Veľkosť / Voľné)',
FLASH: 'Flash chip (Veľkosť / Rýchlosť)',
APPSIZE: 'Applikácia (Priečka: Použité / Voľné)',
FILESYSTEM: 'Súborový systém (Použité / Voľné)',
BUFFER_SIZE: 'Maximálna veľkosť vyrovnávacej pamäte',
COMPACT: 'Kompaktné',
ENABLE_OTA: 'Povoliť OTA aktualizácie',
DOWNLOAD_CUSTOMIZATION_TEXT: 'Stiahnutie prispôsobení entity',
DOWNLOAD_SCHEDULE_TEXT: 'Stiahnutie plánovača udalostí',
DOWNLOAD_SETTINGS_TEXT: 'Stiahnite si nastavenia aplikácie. Pri zdieľaní nastavení buďte opatrní, pretože tento súbor obsahuje heslá a iné citlivé systémové informácie.',
UPLOAD_TEXT: 'Najskôr nahrajte nový súbor firmvéru (.bin), nastavenia alebo prispôsobenia (.json), pre voliteľné overenie nahrajte súbor (.md5)',
UPLOADING: 'Nahrávanie',
UPLOAD_DROP_TEXT: 'Zahodiť súbor alebo kliknúť sem',
ERROR: 'Neočakávaná chyba, prosím skúste to znova',
TIME_SET: 'Nastavený čas',
MANAGE_USERS: 'Správa používateľov',
IS_ADMIN: 'je Admin',
USER_WARNING: 'Musíte mať nakonfigurovaného aspoň jedného používateľa administrátora',
ADD: 'Pridať',
ACCESS_TOKEN_FOR: 'Prístupový token pre',
ACCESS_TOKEN_TEXT: 'Nižšie uvedený token sa používa pri volaniach REST API, ktoré vyžadujú autorizáciu. Môže byť odovzdaný buď ako token Bearer v hlavičke Authorization (Autorizácia), alebo v parametri dotazu URL access_token.',
GENERATING_TOKEN: 'Generovanie tokenu',
USER: 'Užívateľ',
MODIFY: 'Upraviť',
SU_TEXT: 'Heslo su (superužívateľ) sa používa na podpisovanie autentifikačných tokenov a tiež na povolenie oprávnení správcu v rámci konzoly.',
NOT_ENABLED: 'Nie je povolené',
ERRORS_OF: '{0} errory',
DISCONNECT_REASON: 'Dôvod odpojenia',
ENABLE_MQTT: 'Povoliť MQTT',
BROKER: 'Broker',
CLIENT: 'Klient',
BASE_TOPIC: 'Base',
OPTIONAL: 'voliteľné',
FORMATTING: 'Formátovanie',
MQTT_FORMAT: 'Formát témy/záťaže',
MQTT_NEST_1: 'Vnorené do jednej témy',
MQTT_NEST_2: 'Ako jednotlivé témy',
MQTT_RESPONSE: 'Publikovanie výstupu príkazu do témy `response`',
MQTT_PUBLISH_TEXT_1: 'Zverejňovanie tém jednotlivých hodnôt pri zmene',
MQTT_PUBLISH_TEXT_2: 'Publikovanie do tém príkazov (ioBroker)',
MQTT_PUBLISH_TEXT_3: 'Povolenie zisťovania MQTT',
MQTT_PUBLISH_TEXT_4: 'Predpona tém Discovery',
MQTT_PUBLISH_TEXT_5: 'Typ zistenia',
MQTT_PUBLISH_INTERVALS: 'Intervaly zverejňovania',
MQTT_INT_BOILER: 'Kotly a tepelné čerpadlá',
MQTT_INT_THERMOSTATS: 'Termostaty',
MQTT_INT_SOLAR: 'Solárne moduly',
MQTT_INT_MIXER: 'Zmiešavacie moduley',
MQTT_QUEUE: 'Fronta MQTT',
DEFAULT: 'Predvolené',
MQTT_ENTITY_FORMAT: 'ID formát entity',
MQTT_ENTITY_FORMAT_0: 'Jedna inštancia, dlhý názov (v3.4)',
MQTT_ENTITY_FORMAT_1: 'Jedna inštancia, krátky názov',
MQTT_ENTITY_FORMAT_2: 'Viacero inštancií, krátky názov',
MQTT_CLEAN_SESSION: 'Nastavenie čistej relácie',
MQTT_RETAIN_FLAG: 'Vždy nastaviť príznak Retain',
INACTIVE: 'Neaktívne',
ACTIVE: 'Aktívne',
UNKNOWN: 'Neznáme',
SET_TIME: 'Nastavený čas',
SET_TIME_TEXT: 'Na nastavenie času zadajte miestny dátum a čas nižšie',
LOCAL_TIME: 'Lokálny čas',
UTC_TIME: 'UTC čas',
ENABLE_NTP: 'Povoliť NTP',
NTP_SERVER: 'NTP Server',
TIME_ZONE: 'Časová zóna',
ACCESS_POINT: 'Prístupový bod',
AP_PROVIDE: 'Povoliť prístupový bod',
AP_PROVIDE_TEXT_1: 'vždy',
AP_PROVIDE_TEXT_2: 'keď WiFi je odpojená',
AP_PROVIDE_TEXT_3: 'nikdy',
AP_PREFERRED_CHANNEL: 'Preferovaný kanál',
AP_HIDE_SSID: 'Skryť SSID',
AP_CLIENTS: 'AP klienti',
AP_MAX_CLIENTS: 'Max klientov',
AP_LOCAL_IP: 'Lokálna IP',
NETWORK_SCAN: 'Scan WiFi siete',
IDLE: 'Nečinné',
LOST: 'Stratené',
SCANNING: 'Scanovanie',
SCAN_AGAIN: 'Scanovať znova',
NETWORK_SCANNER: 'Sieťový scanner',
NETWORK_NO_WIFI: 'WiFi siete nenájdené',
NETWORK_BLANK_SSID: 'nechajte prázdne, ak chcete zakázať WiFi a povoliť ETH',
NETWORK_BLANK_BSSID: 'ponechajte prázdne, ak chcete používať iba SSID',
TX_POWER: 'Tx výkon',
HOSTNAME: 'Hostname',
NETWORK_DISABLE_SLEEP: 'Zakázanie režimu spánku WiFi',
NETWORK_LOW_BAND: 'Používanie menšej šírky pásma WiFi',
NETWORK_USE_DNS: 'Povoliť mDNS službu',
NETWORK_ENABLE_CORS: 'Povoliť CORS',
NETWORK_CORS_ORIGIN: 'CORS origin',
NETWORK_ENABLE_IPV6: 'Povoliť podporu IPv6',
NETWORK_FIXED_IP: 'Použiť fixnú IP adresu',
NETWORK_GATEWAY: 'Brána',
NETWORK_SUBNET: 'Maska podsiete',
NETWORK_DNS: 'DNS servery',
ADDRESS_OF: '{0} adries',
ADMIN: 'Admin',
GUEST: 'Hosť',
NEW: 'Nová',
NEW_NAME_OF: 'Nových {0} názvov',
ENTITY: 'entita',
MIN: 'min',
MAX: 'max',
BLOCK_NAVIGATE_1: 'Máte neuložené zmeny',
BLOCK_NAVIGATE_2: 'Ak prejdete na inú stránku, neuložené zmeny sa stratia. Ste si istí, že chcete opustiť túto stránku?',
STAY: 'Zostať',
LEAVE: 'Opustiť',
SCHEDULER: 'Plánovač',
SCHEDULER_HELP_1: 'Automatizujte príkazy pridaním naplánovaných udalostí nižšie. Nastavte jedinečné meno na aktiváciu/deaktiváciu cez API/MQTT.',
SCHEDULER_HELP_2: 'Použite 00:00 na jednorazové spustenie pri štarte',
SCHEDULE: 'Plánovať',
TIME: 'Čas',
TIMER: 'Časovač',
SCHEDULE_UPDATED: 'Plánovanie aktualizované',
SCHEDULE_TIMER_1: 'pri spustení',
SCHEDULE_TIMER_2: 'každú minútu',
SCHEDULE_TIMER_3: 'každú hodinu',
CUSTOM_ENTITIES: 'Vlastné entity',
ENTITIES_HELP_1: 'Získavanie vlastných entít zo zbernice EMS',
ENTITIES_UPDATED: 'Aktualizované entity',
WRITEABLE: 'Zapísateľný',
SHOWING: 'Zobrazenie',
SEARCH: 'Vyhľadať',
CERT: 'Koreňový certifikát TLS (ak chcete vypnúť TLS, nechajte prázdne)',
ENABLE_TLS: 'Povoliť TLS',
ON: 'Zap',
OFF: 'Vyp',
POLARITY: 'Polarita',
ACTIVEHIGH: 'Aktívny Vysoký',
ACTIVELOW: 'Aktívny Nízky',
UNCHANGED: 'Nezmenené',
ALWAYS: 'Vždy'
};
export default sk;

4
interface/src/i18n/sv/index.ts
View File

@@ -194,13 +194,11 @@ const sv: Translation = {
RELEASE_IS: 'release är', // TODO translate
RELEASE_NOTES: 'release-logg',
EMS_ESP_VER: 'EMS-ESP Version',
PLATFORM: 'Enhet (Plattform / SDK)',
UPTIME: 'Systemets Upptid',
CPU_FREQ: 'CPU-frekvens',
HEAP: 'Heap (Ledigt / Max allokerat)',
PSRAM: 'PSRAM (Storlek / Ledigt)',
FLASH: 'Flashminne (Storlek / Hastighet)',
APPSIZE: 'Applikationer (Använt / Ledigt)',
APPSIZE: 'Applikationer (Partition: Använt / Ledigt)',
FILESYSTEM: 'Filsystem (Använt / Ledigt)',
BUFFER_SIZE: 'Max Bufferstorlek',
COMPACT: 'Komprimera',

4
interface/src/i18n/tr/index.ts
View File

@@ -194,13 +194,11 @@ const tr: Translation = {
RELEASE_IS: 'release is', // TODO translate
RELEASE_NOTES: 'yayınlanma notları',
EMS_ESP_VER: 'EMS-ESP Sürümü',
PLATFORM: 'Cihaz (Platform / SDK)',
UPTIME: 'Sistem Çalışma Süresi',
CPU_FREQ: 'İşlemci frekansı',
HEAP: 'Yığın (Boş / Maksimum Tahsis)',
PSRAM: 'PSRAM (Boyut / Boş)',
FLASH: 'Flash Çipi (Boyut / Hız)',
APPSIZE: 'Uygulama (Kullanılmış / Boş)',
APPSIZE: 'Uygulama (Bölme: Kullanılmış / Boş)',
FILESYSTEM: 'Dosya Sistemi (Kullanılmış / Boş)',
BUFFER_SIZE: 'En fazla bellek boyutu',
COMPACT: 'Sıkışık',

2
interface/src/project/DashboardDevices.tsx
View File

@@ -420,6 +420,7 @@ const DashboardDevices: FC = () => {
<MessageBox my={2} level="warning" message={LL.EMS_BUS_SCANNING()} />
)}
{coreData.connected && (
<Table data={{ nodes: coreData.devices }} select={device_select} theme={device_theme} layout={{ custom: true }}>
{(tableList: any) => (
<>
@@ -447,6 +448,7 @@ const DashboardDevices: FC = () => {
</>
)}
</Table>
)}
</IconContext.Provider>
);

2
interface/src/project/DashboardDevicesDialog.tsx
View File

@@ -103,7 +103,7 @@ const DashboardDevicesDialog = ({
return (
<Dialog sx={dialogStyle} open={open} onClose={close}>
<DialogTitle>
{selectedItem.v === '' && selectedItem.c ? LL.RUN_COMMAND() : writeable ? LL.CHANGE_VALUE() : LL.VALUE(1)}
{selectedItem.v === '' && selectedItem.c ? LL.RUN_COMMAND() : writeable ? LL.CHANGE_VALUE() : LL.VALUE(0)}
</DialogTitle>
<DialogContent dividers>
<Box color="warning.main" p={0} pl={0} pr={0} mt={0} mb={2}>

18
interface/src/project/Help.tsx
View File

@@ -15,7 +15,7 @@ const Help: FC = () => {
const { LL } = useI18nContext();
useLayoutTitle(LL.HELP_OF(''));
const { send: getAPI, onSuccess: onGetAPI } = useRequest((data) => EMSESP.API(data), {
const { send: getSystemAPI, onSuccess: onGetAPI } = useRequest((data) => EMSESP.APIcall('system', data), {
immediate: false
});
@@ -26,20 +26,20 @@ const Help: FC = () => {
type: 'text/plain'
})
);
anchor.download = 'emsesp_' + event.sendArgs[0].device + '_' + event.sendArgs[0].entity + '.txt';
anchor.download = 'emsesp_' + event.sendArgs[0].entity + '.txt';
anchor.click();
URL.revokeObjectURL(anchor.href);
toast.info(LL.DOWNLOAD_SUCCESSFUL());
});
const callAPI = async (device: string, entity: string) => {
await getAPI({ device, entity, id: 0 }).catch((error) => {
const callSystemAPI = async (entity: string) => {
await getSystemAPI({ entity, id: 0 }).catch((error) => {
toast.error(error.message);
});
};
return (
<SectionContent title={LL.SUPPORT_INFORMATION()} titleGutter>
<SectionContent title={LL.SUPPORT_INFORMATION(0)} titleGutter>
<List>
<ListItem>
<ListItemAvatar>
@@ -89,15 +89,15 @@ const Help: FC = () => {
{LL.HELP_INFORMATION_4()}
</Typography>
</Box>
<Button startIcon={<DownloadIcon />} variant="outlined" color="primary" onClick={() => callAPI('system', 'info')}>
{LL.SUPPORT_INFORMATION()}
<Button startIcon={<DownloadIcon />} variant="outlined" color="primary" onClick={() => callSystemAPI('info')}>
{LL.SUPPORT_INFORMATION(0)}
</Button>
<Button
sx={{ ml: 2 }}
startIcon={<DownloadIcon />}
variant="outlined"
color="primary"
onClick={() => callAPI('system', 'allvalues')}
onClick={() => callSystemAPI('allvalues')}
>
All Values
</Button>
@@ -111,7 +111,7 @@ const Help: FC = () => {
{'github.com/emsesp/EMS-ESP32'}
</Link>
</Typography>
<Typography color="white" align="center">
<Typography color="white" variant="subtitle2" align="center">
@proddy @MichaelDvP
</Typography>
</Box>

3
interface/src/project/SettingsApplication.tsx
View File

@@ -384,6 +384,7 @@ const SettingsApplication: FC = () => {
<MenuItem value="nl">Nederlands (NL)</MenuItem>
<MenuItem value="no">Norsk (NO)</MenuItem>
<MenuItem value="pl">Polski (PL)</MenuItem>
<MenuItem value="sk">Slovenčina (SK)</MenuItem>
<MenuItem value="sv">Svenska (SV)</MenuItem>
<MenuItem value="tr">Türk (TR)</MenuItem>
</TextField>
@@ -644,7 +645,7 @@ const SettingsApplication: FC = () => {
</Grid>
)}
{restartNeeded && (
<MessageBox my={2} level="warning" message={LL.RESTART_TEXT()}>
<MessageBox my={2} level="warning" message={LL.RESTART_TEXT(0)}>
<Button startIcon={<PowerSettingsNewIcon />} variant="contained" color="error" onClick={restart}>
{LL.RESTART()}
</Button>

2
interface/src/project/SettingsCustomization.tsx
View File

@@ -514,7 +514,7 @@ const SettingsCustomization: FC = () => {
{devices && renderDeviceList()}
{deviceEntities && renderDeviceData()}
{restartNeeded && (
<MessageBox my={2} level="warning" message={LL.RESTART_TEXT()}>
<MessageBox my={2} level="warning" message={LL.RESTART_TEXT(0)}>
<Button startIcon={<PowerSettingsNewIcon />} variant="contained" color="error" onClick={restart}>
{LL.RESTART()}
</Button>

2
interface/src/project/SettingsCustomizationDialog.tsx
View File

@@ -70,7 +70,7 @@ const SettingsCustomizationDialog = ({ open, onClose, onSave, selectedItem }: Se
<DialogContent dividers>
<Grid container direction="row">
<Typography variant="body2" color="warning.main">
{LL.ENTITY() + ' ID'}:&nbsp;
{LL.ID_OF(LL.ENTITY())}:&nbsp;
</Typography>
<Typography variant="body2">{editItem.id}</Typography>
</Grid>

2
interface/src/project/SettingsScheduler.tsx
View File

@@ -208,7 +208,7 @@ const SettingsScheduler: FC = () => {
<HeaderCell stiff>{LL.SCHEDULE(0)}</HeaderCell>
<HeaderCell stiff>{LL.TIME(0)}</HeaderCell>
<HeaderCell stiff>{LL.COMMAND(0)}</HeaderCell>
<HeaderCell stiff>{LL.VALUE(0)}</HeaderCell>
<HeaderCell stiff>{LL.VALUE(1)}</HeaderCell>
<HeaderCell stiff>{LL.NAME(0)}</HeaderCell>
</HeaderRow>
</Header>

2
interface/src/project/SettingsSchedulerDialog.tsx
View File

@@ -210,7 +210,7 @@ const SettingsSchedulerDialog = ({
/>
<TextField
name="value"
label={LL.VALUE(1)}
label={LL.VALUE(0)}
multiline
margin="normal"
fullWidth

8
interface/src/project/api.ts
View File

@@ -1,5 +1,5 @@
import type {
APIcall,
APIdata,
Settings,
Status,
CoreData,
@@ -20,7 +20,7 @@ export const readCoreData = () => alovaInstance.Get<CoreData>(`/rest/coreData`);
export const readDeviceData = (id: number) =>
alovaInstance.Get<DeviceData>('/rest/deviceData', {
// alovaInstance.Get<DeviceData>(`/rest/deviceData/${id}`, {
params: { id }, // TODO remove later
params: { id }, // TODO replace params later
responseType: 'arraybuffer' // uses msgpack
});
export const writeDeviceValue = (data: any) => alovaInstance.Post('/rest/writeDeviceValue', data);
@@ -44,7 +44,7 @@ export const readStatus = () => alovaInstance.Get<Status>('/rest/status');
export const scanDevices = () => alovaInstance.Post('/rest/scanDevices');
// HelpInformation
export const API = (apiCall: APIcall) => alovaInstance.Post('/api', apiCall);
export const APIcall = (device: string, apiData: APIdata) => alovaInstance.Post(`/api/${device}`, apiData);
// UploadFileForm
export const getSettings = () => alovaInstance.Get('/rest/getSettings');
@@ -56,7 +56,7 @@ export const getSchedule = () => alovaInstance.Get('/rest/getSchedule');
export const readDeviceEntities = (id: number) =>
// alovaInstance.Get<DeviceEntity[]>(`/rest/deviceEntities/${id}`, {
alovaInstance.Get<DeviceEntity[]>(`/rest/deviceEntities`, {
params: { id }, // TODO remove later
params: { id }, // TODO replace params later
responseType: 'arraybuffer',
transformData(data: any) {
return data.map((de: DeviceEntity) => ({ ...de, o_m: de.m, o_cn: de.cn, o_mi: de.mi, o_ma: de.ma }));

3
interface/src/project/types.ts
View File

@@ -266,8 +266,7 @@ export interface BoardProfile {
eth_clock_mode: number;
}
export interface APIcall {
device: string;
export interface APIdata {
entity: string;
id: any;
}

5
interface/src/types/system.ts
View File

@@ -2,9 +2,14 @@ export interface SystemStatus {
emsesp_version: string;
esp_platform: string;
max_alloc_heap: number;
cpu_type: string;
cpu_rev: number;
cpu_cores: number;
cpu_freq_mhz: number;
free_heap: number;
arduino_version: string;
sdk_version: string;
partition: string;
flash_chip_size: number;
flash_chip_speed: number;
app_used: number;

2
interface/src/utils/useRest.ts
View File

@@ -33,7 +33,7 @@ export const useRest = <D>({ read, update }: RestRequestOptions2<D>) => {
};
onWriteSuccess(() => {
toast.success(LL.UPDATED_OF(LL.SETTINGS()));
toast.success(LL.UPDATED_OF(LL.SETTINGS(0)));
setDirtyFlags([]);
});

2
interface/src/utils/useWs.ts
View File

@@ -1,3 +1,4 @@
/*
import { debounce } from 'lodash-es';
import { useCallback, useEffect, useRef, useState } from 'react';
import Sockette from 'sockette';
@@ -89,3 +90,4 @@ export const useWs = <D>(wsUrl: string, wsThrottle = 100) => {
return { connected, data, updateData } as const;
};
*/

17
interface/vite.config.ts
View File

@@ -1,4 +1,4 @@
import { defineConfig } from 'vite';
import { defineConfig, splitVendorChunkPlugin } from 'vite';
import viteTsconfigPaths from 'vite-tsconfig-paths';
import preact from '@preact/preset-vite';
import viteImagemin from 'vite-plugin-imagemin';
@@ -44,6 +44,7 @@ export default defineConfig(({ command, mode }) => {
plugins: [
preact(),
viteTsconfigPaths(),
splitVendorChunkPlugin(),
{
...viteImagemin({
verbose: false,
@@ -112,6 +113,20 @@ export default defineConfig(({ command, mode }) => {
nameCache: null,
safari10: false,
toplevel: false
},
rollupOptions: {
output: {
manualChunks(id: string) {
if (id.includes('node_modules')) {
// creating a chunk to react routes deps. Reducing the vendor chunk size
if (id.includes('react-router-dom') || id.includes('@remix-run') || id.includes('react-router')) {
return '@react-router';
}
return 'vendor';
}
}
}
}
}
};

444
interface/yarn.lock
View File

@@ -12,10 +12,10 @@ __metadata:
languageName: node
linkType: hard
"@alova/adapter-xhr@npm:^1.0.1":
version: 1.0.1
resolution: "@alova/adapter-xhr@npm:1.0.1"
checksum: 10fb023fd30408bf47433491679057458c599194040077d30c8427531b6ee4a6549bf468a7132d8ae91e99c8bdcea27dc4706b5b982033ac820f779a5016be7d
"@alova/adapter-xhr@npm:^1.0.2":
version: 1.0.2
resolution: "@alova/adapter-xhr@npm:1.0.2"
checksum: a57d178e89e3b655191bebccbc34d22760813b97b430e16f77b6ad561e3bb4ad8a34948aa2d724f5833d675f21a337ab769a3e5f73878430c3139374c6afb6ea
languageName: node
linkType: hard
@@ -86,26 +86,26 @@ __metadata:
languageName: node
linkType: hard
"@babel/core@npm:^7.23.6":
version: 7.23.6
resolution: "@babel/core@npm:7.23.6"
"@babel/core@npm:^7.23.7":
version: 7.23.7
resolution: "@babel/core@npm:7.23.7"
dependencies:
"@ampproject/remapping": "npm:^2.2.0"
"@babel/code-frame": "npm:^7.23.5"
"@babel/generator": "npm:^7.23.6"
"@babel/helper-compilation-targets": "npm:^7.23.6"
"@babel/helper-module-transforms": "npm:^7.23.3"
"@babel/helpers": "npm:^7.23.6"
"@babel/helpers": "npm:^7.23.7"
"@babel/parser": "npm:^7.23.6"
"@babel/template": "npm:^7.22.15"
"@babel/traverse": "npm:^7.23.6"
"@babel/traverse": "npm:^7.23.7"
"@babel/types": "npm:^7.23.6"
convert-source-map: "npm:^2.0.0"
debug: "npm:^4.1.0"
gensync: "npm:^1.0.0-beta.2"
json5: "npm:^2.2.3"
semver: "npm:^6.3.1"
checksum: a72ba71d2f557d09ff58a5f0846344b9cea9dfcbd7418729a3a74d5b0f37a5ca024942fef4d19f248de751928a1be3d5cb0488746dd8896009dd55b974bb552e
checksum: 956841695ea801c8b4196d01072e6c1062335960715a6fcfd4009831003b526b00627c78b373ed49b1658c3622c71142f7ff04235fe839cac4a1a25ed51b90aa
languageName: node
linkType: hard
@@ -304,14 +304,14 @@ __metadata:
languageName: node
linkType: hard
"@babel/helpers@npm:^7.23.6":
version: 7.23.6
resolution: "@babel/helpers@npm:7.23.6"
"@babel/helpers@npm:^7.23.7":
version: 7.23.7
resolution: "@babel/helpers@npm:7.23.7"
dependencies:
"@babel/template": "npm:^7.22.15"
"@babel/traverse": "npm:^7.23.6"
"@babel/traverse": "npm:^7.23.7"
"@babel/types": "npm:^7.23.6"
checksum: 2a85fd2bcbc15a6c94dbe7b9e94d8920f9de76d164179d6895fee89c4339079d9e3e56f572bf19b5e7d1e6f1997d7fbaeaa686b47d35136852631dfd09e85c2f
checksum: ec07061dc871d406ed82c8757c4d7a510aaf15145799fb0a2c3bd3c72ca101fe82a02dd5f83ca604fbbba5de5408dd731bb1452150562bed4f3b0a2846f81f61
languageName: node
linkType: hard
@@ -401,7 +401,7 @@ __metadata:
languageName: node
linkType: hard
"@babel/runtime@npm:^7.23.5":
"@babel/runtime@npm:^7.23.6":
version: 7.23.6
resolution: "@babel/runtime@npm:7.23.6"
dependencies:
@@ -439,9 +439,9 @@ __metadata:
languageName: node
linkType: hard
"@babel/traverse@npm:^7.23.6":
version: 7.23.6
resolution: "@babel/traverse@npm:7.23.6"
"@babel/traverse@npm:^7.23.7":
version: 7.23.7
resolution: "@babel/traverse@npm:7.23.7"
dependencies:
"@babel/code-frame": "npm:^7.23.5"
"@babel/generator": "npm:^7.23.6"
@@ -453,7 +453,7 @@ __metadata:
"@babel/types": "npm:^7.23.6"
debug: "npm:^4.3.1"
globals: "npm:^11.1.0"
checksum: ee4434a3ce792ee8956b64d76843caa1dda4779bb621ed9f951dd3551965bf1f292f097011c9730ecbc0b57f02434b1fa5a771610a2ef570726b0df0fc3332d9
checksum: 3215e59429963c8dac85c26933372cdd322952aa9930e4bc5ef2d0e4bd7a1510d1ecf8f8fd860ace5d4d9fe496d23805a1ea019a86410aee4111de5f63ee84f9
languageName: node
linkType: hard
@@ -534,14 +534,14 @@ __metadata:
languageName: node
linkType: hard
"@emotion/react@npm:^11.11.1":
version: 11.11.1
resolution: "@emotion/react@npm:11.11.1"
"@emotion/react@npm:^11.11.3":
version: 11.11.3
resolution: "@emotion/react@npm:11.11.3"
dependencies:
"@babel/runtime": "npm:^7.18.3"
"@emotion/babel-plugin": "npm:^11.11.0"
"@emotion/cache": "npm:^11.11.0"
"@emotion/serialize": "npm:^1.1.2"
"@emotion/serialize": "npm:^1.1.3"
"@emotion/use-insertion-effect-with-fallbacks": "npm:^1.0.1"
"@emotion/utils": "npm:^1.2.1"
"@emotion/weak-memoize": "npm:^0.3.1"
@@ -551,7 +551,7 @@ __metadata:
peerDependenciesMeta:
"@types/react":
optional: true
checksum: dfc140718d0a8051a74e51c379226d9de6b19f6a5dd595fb282ef72f4413695a2d012ba919f1e9eeff761c6659e6f7398da8e0e36eb7997a4fdf54cef88644ae
checksum: f7b98557b7d5236296dda48c2fc8a6cde4af7399758496e9f710f85a80c7d66fee1830966caabd7b237601bfdaca4e1add8c681d1ae4cc3d497fe88958d541c4
languageName: node
linkType: hard
@@ -568,6 +568,19 @@ __metadata:
languageName: node
linkType: hard
"@emotion/serialize@npm:^1.1.3":
version: 1.1.3
resolution: "@emotion/serialize@npm:1.1.3"
dependencies:
"@emotion/hash": "npm:^0.9.1"
"@emotion/memoize": "npm:^0.8.1"
"@emotion/unitless": "npm:^0.8.1"
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# 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&amp;utm_medium=referral&amp;utm_content=me-no-dev/AsyncTCP&amp;utm_campaign=Badge_Grade)
### 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)
## AsyncClient and AsyncServer
The base classes on which everything else is built. They expose all possible scenarios, but are really raw and require more skills to use.

9
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name=AsyncTCP
version=1.1.1
author=Me-No-Dev
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sentence=Async TCP Library for ESP32
paragraph=Async TCP Library for ESP32
category=Other
url=https://github.com/me-no-dev/AsyncTCP
architectures=*

1476
lib/AsyncTCP/src/AsyncTCP.cpp
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250
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/*
Asynchronous TCP 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 ASYNCTCP_H_
#define ASYNCTCP_H_
#include "IPAddress.h"
#include "IPv6Address.h"
#include "sdkconfig.h"
#include <functional>
extern "C" {
#include "freertos/FreeRTOS.h"
#include "freertos/semphr.h"
#include "lwip/pbuf.h"
#include "lwip/ip_addr.h"
#include "lwip/ip6_addr.h"
}
//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
#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
#endif
class AsyncClient;
#define ASYNC_MAX_ACK_TIME 5000
#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;
struct tcp_pcb;
struct ip_addr;
class AsyncClient {
public:
AsyncClient(tcp_pcb * pcb = 0);
~AsyncClient();
AsyncClient & operator=(const AsyncClient & other);
AsyncClient & operator+=(const AsyncClient & other);
bool operator==(const AsyncClient & 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();
int8_t abort();
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
//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
uint8_t state();
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
uint32_t getAckTimeout();
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();
ip6_addr_t getRemoteAddress6();
uint16_t getRemotePort();
uint32_t getLocalAddress();
ip6_addr_t getLocalAddress6();
uint16_t getLocalPort();
//compatibility
IPAddress remoteIP();
IPv6Address remoteIP6();
uint16_t remotePort();
IPAddress localIP();
IPv6Address localIP6();
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 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);
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;
AcConnectHandler _connect_cb;
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;
AcTimeoutHandler _timeout_cb;
void * _timeout_cb_arg;
AcConnectHandler _poll_cb;
void * _poll_cb_arg;
bool _pcb_busy;
uint32_t _pcb_sent_at;
bool _ack_pcb;
uint32_t _rx_ack_len;
uint32_t _rx_last_packet;
uint32_t _rx_since_timeout;
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);
public:
AsyncClient * prev;
AsyncClient * next;
};
class AsyncServer {
public:
AsyncServer(IPAddress addr, uint16_t port);
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();
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);
protected:
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;
int8_t _accept(tcp_pcb * newpcb, int8_t err);
int8_t _accepted(AsyncClient * client);
};
#endif /* ASYNCTCP_H_ */

369
lib/ESPAsyncWebServer/AsyncEventSource.cpp
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@@ -1,369 +0,0 @@
/*
Asynchronous WebServer library for Espressif MCUs
Copyright (c) 2016 Hristo Gochkov. All rights reserved.
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 "Arduino.h"
#include "AsyncEventSource.h"
static String generateEventMessage(const char *message, const char *event, uint32_t id, uint32_t reconnect){
String ev;
if(reconnect){
ev += F("retry: ");
ev += reconnect;
ev += F("\r\n");
}
if(id){
ev += F("id: ");
ev += String(id);
ev += F("\r\n");
}
if(event != NULL){
ev += F("event: ");
ev += String(event);
ev += F("\r\n");
}
if(message != NULL){
size_t messageLen = strlen(message);
char * lineStart = (char *)message;
char * lineEnd;
do {
char * nextN = strchr(lineStart, '\n');
char * nextR = strchr(lineStart, '\r');
if(nextN == NULL && nextR == NULL){
size_t llen = ((char *)message + messageLen) - lineStart;
char * ldata = (char *)malloc(llen+1);
if(ldata != NULL){
memcpy(ldata, lineStart, llen);
ldata[llen] = 0;
ev += F("data: ");
ev += ldata;
ev += F("\r\n\r\n");
free(ldata);
}
lineStart = (char *)message + messageLen;
} else {
char * nextLine = NULL;
if(nextN != NULL && nextR != NULL){
if(nextR < nextN){
lineEnd = nextR;
if(nextN == (nextR + 1))
nextLine = nextN + 1;
else
nextLine = nextR + 1;
} else {
lineEnd = nextN;
if(nextR == (nextN + 1))
nextLine = nextR + 1;
else
nextLine = nextN + 1;
}
} else if(nextN != NULL){
lineEnd = nextN;
nextLine = nextN + 1;
} else {
lineEnd = nextR;
nextLine = nextR + 1;
}
size_t llen = lineEnd - lineStart;
char * ldata = (char *)malloc(llen+1);
if(ldata != NULL){
memcpy(ldata, lineStart, llen);
ldata[llen] = 0;
ev += F("data: ");
ev += ldata;
ev += F("\r\n");
free(ldata);
}
lineStart = nextLine;
if(lineStart == ((char *)message + messageLen))
ev += F("\r\n");
}
} while(lineStart < ((char *)message + messageLen));
}
return ev;
}
// Message
AsyncEventSourceMessage::AsyncEventSourceMessage(const char * data, size_t len)
: _data(nullptr), _len(len), _sent(0), _acked(0)
{
_data = (uint8_t*)malloc(_len+1);
if(_data == nullptr){
_len = 0;
} else {
memcpy(_data, data, len);
_data[_len] = 0;
}
}
AsyncEventSourceMessage::~AsyncEventSourceMessage() {
if(_data != NULL)
free(_data);
}
size_t AsyncEventSourceMessage::ack(size_t len, uint32_t time) {
(void)time;
// If the whole message is now acked...
if(_acked + len > _len){
// Return the number of extra bytes acked (they will be carried on to the next message)
const size_t extra = _acked + len - _len;
_acked = _len;
return extra;
}
// Return that no extra bytes left.
_acked += len;
return 0;
}
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;
}
// Client
AsyncEventSourceClient::AsyncEventSourceClient(AsyncWebServerRequest *request, AsyncEventSource *server)
: _messageQueue(LinkedList<AsyncEventSourceMessage *>([](AsyncEventSourceMessage *m){ delete m; }))
{
_client = request->client();
_server = server;
_lastId = 0;
if(request->hasHeader(F("Last-Event-ID")))
_lastId = atoi(request->getHeader(F("Last-Event-ID"))->value().c_str());
_client->setRxTimeout(0);
_client->onError(NULL, NULL);
_client->onAck([](void *r, AsyncClient* c, size_t len, uint32_t time){ (void)c; ((AsyncEventSourceClient*)(r))->_onAck(len, time); }, this);
_client->onPoll([](void *r, AsyncClient* c){ (void)c; ((AsyncEventSourceClient*)(r))->_onPoll(); }, this);
_client->onData(NULL, NULL);
_client->onTimeout([this](void *r, AsyncClient* c __attribute__((unused)), uint32_t time){ ((AsyncEventSourceClient*)(r))->_onTimeout(time); }, this);
_client->onDisconnect([this](void *r, AsyncClient* c){ ((AsyncEventSourceClient*)(r))->_onDisconnect(); delete c; }, this);
_server->_addClient(this);
delete request;
}
AsyncEventSourceClient::~AsyncEventSourceClient(){
_messageQueue.free();
close();
}
void AsyncEventSourceClient::_queueMessage(AsyncEventSourceMessage *dataMessage){
if(dataMessage == NULL)
return;
if(!connected()){
delete dataMessage;
return;
}
if(_messageQueue.length() >= SSE_MAX_QUEUED_MESSAGES){
// ets_printf(String(F("ERROR: Too many messages queued\n")).c_str());
delete dataMessage;
} else {
_messageQueue.add(dataMessage);
}
if(_client->canSend())
_runQueue();
}
void AsyncEventSourceClient::_onAck(size_t len, uint32_t time){
while(len && !_messageQueue.isEmpty()){
len = _messageQueue.front()->ack(len, time);
if(_messageQueue.front()->finished())
_messageQueue.remove(_messageQueue.front());
}
_runQueue();
}
void AsyncEventSourceClient::_onPoll(){
if(!_messageQueue.isEmpty()){
_runQueue();
}
}
void AsyncEventSourceClient::_onTimeout(uint32_t time __attribute__((unused))){
_client->close(true);
}
void AsyncEventSourceClient::_onDisconnect(){
_client = NULL;
_server->_handleDisconnect(this);
}
void AsyncEventSourceClient::close(){
if(_client != NULL)
_client->close();
}
void AsyncEventSourceClient::write(const char * message, size_t len){
_queueMessage(new AsyncEventSourceMessage(message, len));
}
void AsyncEventSourceClient::send(const char *message, const char *event, uint32_t id, uint32_t reconnect){
String ev = generateEventMessage(message, event, id, reconnect);
_queueMessage(new AsyncEventSourceMessage(ev.c_str(), ev.length()));
}
void AsyncEventSourceClient::_runQueue(){
while(!_messageQueue.isEmpty() && _messageQueue.front()->finished()){
_messageQueue.remove(_messageQueue.front());
}
for(auto i = _messageQueue.begin(); i != _messageQueue.end(); ++i)
{
if(!(*i)->sent())
(*i)->send(_client);
}
}
// Handler
AsyncEventSource::AsyncEventSource(const String& url)
: _url(url)
, _clients(LinkedList<AsyncEventSourceClient *>([](AsyncEventSourceClient *c){ delete c; }))
, _connectcb(NULL)
{}
AsyncEventSource::~AsyncEventSource(){
close();
}
void AsyncEventSource::onConnect(ArEventHandlerFunction cb){
_connectcb = cb;
}
void AsyncEventSource::_addClient(AsyncEventSourceClient * client){
/*char * temp = (char *)malloc(2054);
if(temp != NULL){
memset(temp+1,' ',2048);
temp[0] = ':';
temp[2049] = '\r';
temp[2050] = '\n';
temp[2051] = '\r';
temp[2052] = '\n';
temp[2053] = 0;
client->write((const char *)temp, 2053);
free(temp);
}*/
_clients.add(client);
if(_connectcb)
_connectcb(client);
}
void AsyncEventSource::_handleDisconnect(AsyncEventSourceClient * client){
_clients.remove(client);
}
void AsyncEventSource::close(){
for(const auto &c: _clients){
if(c->connected())
c->close();
}
}
// pmb fix
size_t AsyncEventSource::avgPacketsWaiting() const {
if(_clients.isEmpty())
return 0;
size_t aql=0;
uint32_t nConnectedClients=0;
for(const auto &c: _clients){
if(c->connected()) {
aql+=c->packetsWaiting();
++nConnectedClients;
}
}
// return aql / nConnectedClients;
return ((aql) + (nConnectedClients/2))/(nConnectedClients); // round up
}
void AsyncEventSource::send(const char *message, const char *event, uint32_t id, uint32_t reconnect){
String ev = generateEventMessage(message, event, id, reconnect);
for(const auto &c: _clients){
if(c->connected()) {
c->write(ev.c_str(), ev.length());
}
}
}
size_t AsyncEventSource::count() const {
return _clients.count_if([](AsyncEventSourceClient *c){
return c->connected();
});
}
bool AsyncEventSource::canHandle(AsyncWebServerRequest *request){
if(request->method() != HTTP_GET || !request->url().equals(_url)) {
return false;
}
request->addInterestingHeader(F("Last-Event-ID"));
return true;
}
void AsyncEventSource::handleRequest(AsyncWebServerRequest *request){
if((_username.length() && _password.length()) && !request->authenticate(_username.c_str(), _password.c_str())) {
return request->requestAuthentication();
}
request->send(new AsyncEventSourceResponse(this));
}
// Response
AsyncEventSourceResponse::AsyncEventSourceResponse(AsyncEventSource *server){
_server = server;
_code = 200;
_contentType = F("text/event-stream");
_sendContentLength = false;
addHeader(F("Cache-Control"), F("no-cache"));
addHeader(F("Connection"), F("keep-alive"));
}
void AsyncEventSourceResponse::_respond(AsyncWebServerRequest *request){
String out = _assembleHead(request->version());
request->client()->write(out.c_str(), _headLength);
_state = RESPONSE_WAIT_ACK;
}
size_t AsyncEventSourceResponse::_ack(AsyncWebServerRequest *request, size_t len, uint32_t time __attribute__((unused))){
if(len){
new AsyncEventSourceClient(request, _server);
}
return 0;
}

133
lib/ESPAsyncWebServer/AsyncEventSource.h
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@@ -1,133 +0,0 @@
/*
Asynchronous WebServer library for Espressif MCUs
Copyright (c) 2016 Hristo Gochkov. All rights reserved.
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 ASYNCEVENTSOURCE_H_
#define ASYNCEVENTSOURCE_H_
#include <Arduino.h>
#ifdef ESP32
#include <AsyncTCP.h>
#define SSE_MAX_QUEUED_MESSAGES 32
#else
#include <ESPAsyncTCP.h>
#define SSE_MAX_QUEUED_MESSAGES 8
#endif
#include <ESPAsyncWebServer.h>
#include "AsyncWebSynchronization.h"
#ifdef ESP8266
#include <Hash.h>
#ifdef CRYPTO_HASH_h // include Hash.h from espressif framework if the first include was from the crypto library
#include <../src/Hash.h>
#endif
#endif
#ifdef ESP32
#define DEFAULT_MAX_SSE_CLIENTS 8
#else
#define DEFAULT_MAX_SSE_CLIENTS 4
#endif
class AsyncEventSource;
class AsyncEventSourceResponse;
class AsyncEventSourceClient;
typedef std::function<void(AsyncEventSourceClient *client)> ArEventHandlerFunction;
class AsyncEventSourceMessage {
private:
uint8_t * _data;
size_t _len;
size_t _sent;
//size_t _ack;
size_t _acked;
public:
AsyncEventSourceMessage(const char * data, size_t len);
~AsyncEventSourceMessage();
size_t ack(size_t len, uint32_t time __attribute__((unused)));
size_t send(AsyncClient *client);
bool finished(){ return _acked == _len; }
bool sent() { return _sent == _len; }
};
class AsyncEventSourceClient {
private:
AsyncClient *_client;
AsyncEventSource *_server;
uint32_t _lastId;
LinkedList<AsyncEventSourceMessage *> _messageQueue;
void _queueMessage(AsyncEventSourceMessage *dataMessage);
void _runQueue();
public:
AsyncEventSourceClient(AsyncWebServerRequest *request, AsyncEventSource *server);
~AsyncEventSourceClient();
AsyncClient* client(){ return _client; }
void close();
void write(const char * message, size_t len);
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(); }
//system callbacks (do not call)
void _onAck(size_t len, uint32_t time);
void _onPoll();
void _onTimeout(uint32_t time);
void _onDisconnect();
};
class AsyncEventSource: public AsyncWebHandler {
private:
String _url;
LinkedList<AsyncEventSourceClient *> _clients;
ArEventHandlerFunction _connectcb;
public:
AsyncEventSource(const String& url);
~AsyncEventSource();
const char * url() const { return _url.c_str(); }
void close();
void onConnect(ArEventHandlerFunction 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
size_t avgPacketsWaiting() const;
//system callbacks (do not call)
void _addClient(AsyncEventSourceClient * client);
void _handleDisconnect(AsyncEventSourceClient * client);
virtual bool canHandle(AsyncWebServerRequest *request) override final;
virtual void handleRequest(AsyncWebServerRequest *request) override final;
};
class AsyncEventSourceResponse: public AsyncWebServerResponse {
private:
String _content;
AsyncEventSource *_server;
public:
AsyncEventSourceResponse(AsyncEventSource *server);
void _respond(AsyncWebServerRequest *request);
size_t _ack(AsyncWebServerRequest *request, size_t len, uint32_t time);
bool _sourceValid() const { return true; }
};
#endif /* ASYNCEVENTSOURCE_H_ */

254
lib/ESPAsyncWebServer/AsyncJson.h
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@@ -1,254 +0,0 @@
// AsyncJson.h
/*
Async Response to use with ArduinoJson and AsyncWebServer
Written by Andrew Melvin (SticilFace) with help from me-no-dev and BBlanchon.
*/
#ifndef ASYNC_JSON_H_
#define ASYNC_JSON_H_
#include <ArduinoJson.h>
#include <ESPAsyncWebServer.h>
#include <Print.h>
#define DYNAMIC_JSON_DOCUMENT_SIZE 1024
constexpr const char * JSON_MIMETYPE = "application/json";
/*
* Json Response
*/
class ChunkPrint : public Print {
private:
uint8_t * _destination;
size_t _to_skip;
size_t _to_write;
size_t _pos;
public:
ChunkPrint(uint8_t * destination, size_t from, size_t len)
: _destination(destination)
, _to_skip(from)
, _to_write(len)
, _pos{0} {
}
virtual ~ChunkPrint() {
}
size_t write(uint8_t c) {
if (_to_skip > 0) {
_to_skip--;
return 1;
} else if (_to_write > 0) {
_to_write--;
_destination[_pos++] = c;
return 1;
}
return 0;
}
size_t write(const uint8_t * buffer, size_t size) {
return this->Print::write(buffer, size);
}
};
// added by Proddy
class MsgpackAsyncJsonResponse : public AsyncAbstractResponse {
protected:
DynamicJsonDocument _jsonBuffer;
JsonVariant _root;
bool _isValid;
public:
MsgpackAsyncJsonResponse(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();
}
~MsgpackAsyncJsonResponse() {
}
JsonVariant & getRoot() {
return _root;
}
bool _sourceValid() const {
return _isValid;
}
size_t setLength() {
_contentLength = measureMsgPack(_root);
// EMS-ESP
//_headers.add(new AsyncWebHeader("Json-Length", String(_jsonBuffer.memoryUsage()))); // For determining size of EMSESP_JSON_SIZE_XXLARGE (Sunbuzz)
// Json-Length: 10635
if (_contentLength) {
_isValid = true;
}
return _contentLength;
}
size_t getSize() {
return _jsonBuffer.size();
}
size_t _fillBuffer(uint8_t * data, size_t len) {
ChunkPrint dest(data, _sentLength, len);
serializeMsgPack(_root, dest);
return len;
}
};
class AsyncJsonResponse : public AsyncAbstractResponse {
protected:
DynamicJsonDocument _jsonBuffer;
JsonVariant _root;
bool _isValid;
public:
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();
}
~AsyncJsonResponse() {
}
JsonVariant & getRoot() {
return _root;
}
bool _sourceValid() const {
return _isValid;
}
size_t setLength() {
_contentLength = measureJson(_root);
if (_contentLength) {
_isValid = true;
}
return _contentLength;
}
size_t getSize() {
return _jsonBuffer.size();
}
size_t _fillBuffer(uint8_t * data, size_t len) {
ChunkPrint dest(data, _sentLength, len);
serializeJson(_root, dest);
return len;
}
};
class PrettyAsyncJsonResponse : public AsyncJsonResponse {
public:
PrettyAsyncJsonResponse(bool isArray = false, size_t maxJsonBufferSize = DYNAMIC_JSON_DOCUMENT_SIZE)
: AsyncJsonResponse{isArray, maxJsonBufferSize} {
}
size_t setLength() {
_contentLength = measureJsonPretty(_root);
if (_contentLength) {
_isValid = true;
}
return _contentLength;
}
size_t _fillBuffer(uint8_t * data, size_t len) {
ChunkPrint dest(data, _sentLength, len);
serializeJsonPretty(_root, dest);
return len;
}
};
typedef std::function<void(AsyncWebServerRequest * request, JsonVariant & json)> ArJsonRequestHandlerFunction;
class AsyncCallbackJsonWebHandler : public AsyncWebHandler {
private:
protected:
const String _uri;
WebRequestMethodComposite _method;
ArJsonRequestHandlerFunction _onRequest;
size_t _contentLength;
#ifndef ARDUINOJSON_5_COMPATIBILITY
size_t _maxJsonBufferSize;
#endif
size_t _maxContentLength;
public:
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) {
}
void setMethod(WebRequestMethodComposite method) {
_method = method;
}
void setMaxContentLength(int maxContentLength) {
_maxContentLength = maxContentLength;
}
void setMaxJsonBufferSize(size_t maxJsonBufferSize) {
_maxJsonBufferSize = maxJsonBufferSize;
}
void onRequest(ArJsonRequestHandlerFunction fn) {
_onRequest = fn;
}
virtual bool canHandle(AsyncWebServerRequest * request) override final {
if (!_onRequest)
return false;
if (!(_method & request->method()))
return false;
if (_uri.length() && (_uri != request->url() && !request->url().startsWith(_uri + "/")))
return false;
if (!request->contentType().equalsIgnoreCase(JSON_MIMETYPE))
return false;
request->addInterestingHeader("ANY");
return true;
}
virtual void handleRequest(AsyncWebServerRequest * request) override final {
if (_onRequest) {
if (request->_tempObject != NULL) {
DynamicJsonDocument jsonBuffer(this->_maxJsonBufferSize);
DeserializationError error = deserializeJson(jsonBuffer, (uint8_t *)(request->_tempObject));
if (!error) {
JsonVariant json = jsonBuffer.as<JsonVariant>();
_onRequest(request, json);
return;
}
}
request->send(_contentLength > _maxContentLength ? 413 : 400);
} 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 {
}
virtual void handleBody(AsyncWebServerRequest * request, uint8_t * data, size_t len, size_t index, size_t total) override final {
if (_onRequest) {
_contentLength = total;
if (total > 0 && request->_tempObject == NULL && total < _maxContentLength) {
request->_tempObject = malloc(total);
}
if (request->_tempObject != NULL) {
memcpy((uint8_t *)(request->_tempObject) + index, data, len);
}
}
}
virtual bool isRequestHandlerTrivial() override final {
return _onRequest ? false : true;
}
};
#endif

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lib/ESPAsyncWebServer/AsyncWebSocket.cpp
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/*
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 ASYNCWEBSOCKET_H_
#define ASYNCWEBSOCKET_H_
#include <Arduino.h>
#ifdef ESP32
#include <AsyncTCP.h>
#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"
#ifdef ESP8266
#include <Hash.h>
#ifdef CRYPTO_HASH_h // include Hash.h from espressif framework if the first include was from the crypto library
#include <../src/Hash.h>
#endif
#endif
#ifdef ESP32
#define DEFAULT_MAX_WS_CLIENTS 8
#else
#define DEFAULT_MAX_WS_CLIENTS 4
#endif
class AsyncWebSocket;
class AsyncWebSocketResponse;
class AsyncWebSocketClient;
class AsyncWebSocketControl;
typedef struct {
/** Message type as defined by enum AwsFrameType.
* Note: Applications will only see WS_TEXT and WS_BINARY.
* All other types are handled by the library. */
uint8_t message_opcode;
/** Frame number of a fragmented message. */
uint32_t num;
/** Is this the last frame in a fragmented message ?*/
uint8_t final;
/** Is this frame masked? */
uint8_t masked;
/** Message type as defined by enum AwsFrameType.
* This value is the same as message_opcode for non-fragmented
* messages, but may also be WS_CONTINUATION in a fragmented message. */
uint8_t opcode;
/** Length of the current frame.
* This equals the total length of the message if num == 0 && final == true */
uint64_t len;
/** Mask key */
uint8_t mask[4];
/** Offset of the data inside the current frame. */
uint64_t index;
} AwsFrameInfo;
typedef enum { WS_DISCONNECTED, WS_CONNECTED, WS_DISCONNECTING } AwsClientStatus;
typedef enum { WS_CONTINUATION, WS_TEXT, WS_BINARY, WS_DISCONNECT = 0x08, WS_PING, WS_PONG } AwsFrameType;
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 {
private:
uint8_t * _data;
size_t _len;
bool _lock;
uint32_t _count;
public:
AsyncWebSocketMessageBuffer();
AsyncWebSocketMessageBuffer(size_t size);
AsyncWebSocketMessageBuffer(uint8_t * data, size_t size);
AsyncWebSocketMessageBuffer(const AsyncWebSocketMessageBuffer &);
AsyncWebSocketMessageBuffer(AsyncWebSocketMessageBuffer &&);
~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;
};
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>;
private:
void onRemove(AsyncWebSocketMessageBuffer *t) {
_totalSize -= t->length();
_totalCount--;
delete t;
}
public:
AsyncWebSocketMessageBufferLinkedList() : LT([this](AsyncWebSocketMessageBuffer *b){ this->onRemove(b); }) {
}
void add(const T& t){
_totalSize += t->length();
_totalCount++;
LT::add(t);
}
private:
friend class AsyncWebSocket;
// counters for all web sockets
static size_t _totalCount;
static size_t _totalSize;
};
class AsyncWebSocketClient {
private:
AsyncClient *_client;
AsyncWebSocket *_server;
uint32_t _clientId;
AwsClientStatus _status;
LinkedList<AsyncWebSocketControl *> _controlQueue;
LinkedList<AsyncWebSocketMessage *> _messageQueue;
uint8_t _pstate;
AwsFrameInfo _pinfo;
uint32_t _lastMessageTime;
uint32_t _keepAlivePeriod;
void _queueMessage(AsyncWebSocketMessage *dataMessage);
void _queueControl(AsyncWebSocketControl *controlMessage);
void _runQueue();
public:
void *_tempObject;
AsyncWebSocketClient(AsyncWebServerRequest *request, AsyncWebSocket *server);
~AsyncWebSocketClient();
//client id increments for the given server
uint32_t id(){ return _clientId; }
AwsClientStatus status(){ return _status; }
AsyncClient* client(){ return _client; }
AsyncWebSocket *server(){ return _server; }
AwsFrameInfo const &pinfo() const { return _pinfo; }
IPAddress remoteIP();
uint16_t remotePort();
//control frames
void close(uint16_t code=0, const char * message=NULL);
void ping(uint8_t *data=NULL, size_t len=0);
//set auto-ping period in seconds. disabled if zero (default)
void keepAlivePeriod(uint16_t seconds){
_keepAlivePeriod = seconds * 1000;
}
uint16_t keepAlivePeriod(){
return (uint16_t)(_keepAlivePeriod / 1000);
}
//data packets
void message(AsyncWebSocketMessage *message){ _queueMessage(message); }
bool queueIsFull();
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 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);
bool canSend() { return !_queueIsFull(); }
bool _queueIsFull() const;
//system callbacks (do not call)
void _onAck(size_t len, uint32_t time);
void _onError(int8_t);
void _onPoll();
void _onTimeout(uint32_t time);
void _onDisconnect();
void _onData(void *pbuf, size_t plen);
};
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;
uint32_t _cNextId;
AwsEventHandler _eventHandler;
bool _enabled;
AsyncWebLock _lock;
public:
AsyncWebSocket(const String& url);
~AsyncWebSocket();
const char * url() const { return _url.c_str(); }
void enable(bool e){ _enabled = e; }
bool enabled() const { return _enabled; }
bool availableForWriteAll();
bool availableForWrite(uint32_t id);
size_t count() const;
AsyncWebSocketClient * client(uint32_t id);
bool hasClient(uint32_t id){ return client(id) != NULL; }
void close(uint32_t id, uint16_t code=0, const char * message=NULL);
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 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 String &message);
void text(uint32_t id, const __FlashStringHelper *message);
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 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 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(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);
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)));
#ifndef ESP32
size_t printf_P(uint32_t id, PGM_P formatP, ...) __attribute__ ((format (printf, 3, 4)));
#endif
size_t printfAll_P(PGM_P formatP, ...) __attribute__ ((format (printf, 2, 3)));
//event listener
void onEvent(AwsEventHandler handler){
_eventHandler = handler;
}
//system callbacks (do not call)
uint32_t _getNextId(){ return _cNextId++; }
void _addClient(AsyncWebSocketClient * client);
void _handleDisconnect(AsyncWebSocketClient * client);
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
};
//WebServer response to authenticate the socket and detach the tcp client from the web server request
class AsyncWebSocketResponse: public AsyncWebServerResponse {
private:
String _content;
AsyncWebSocket *_server;
public:
AsyncWebSocketResponse(const String& key, AsyncWebSocket *server);
void _respond(AsyncWebServerRequest *request);
size_t _ack(AsyncWebServerRequest *request, size_t len, uint32_t time);
bool _sourceValid() const { return true; }
};
#endif /* ASYNCWEBSOCKET_H_ */

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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/ESPAsyncWebServer.h
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/*
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_ */

1526
lib/ESPAsyncWebServer/README.md
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544
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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};
#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

193
lib/ESPAsyncWebServer/StringArray.h
View File

@@ -1,193 +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
*/
#ifndef STRINGARRAY_H_
#define STRINGARRAY_H_
#include "stddef.h"
#include "WString.h"
template <typename T>
class LinkedListNode {
T _value;
public:
LinkedListNode<T>* next;
LinkedListNode(const T val): _value(val), next(nullptr) {}
~LinkedListNode(){}
const T& value() const { return _value; };
T& value(){ return _value; }
};
template <typename T, template<typename> class Item = LinkedListNode>
class LinkedList {
public:
typedef Item<T> ItemType;
typedef std::function<void(const T&)> OnRemove;
typedef std::function<bool(const T&)> Predicate;
private:
ItemType* _root;
OnRemove _onRemove;
class Iterator {
ItemType* _node;
public:
Iterator(ItemType* current = nullptr) : _node(current) {}
Iterator(const Iterator& i) : _node(i._node) {}
Iterator& operator ++() { _node = _node->next; return *this; }
bool operator != (const Iterator& i) const { return _node != i._node; }
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); }
ConstIterator end() const { return ConstIterator(nullptr); }
LinkedList(OnRemove onRemove) : _root(nullptr), _onRemove(onRemove) {}
~LinkedList(){}
void add(const T& t){
auto it = new ItemType(t);
if(!_root){
_root = it;
} else {
auto i = _root;
while(i->next) i = i->next;
i->next = it;
}
}
T& front() const {
return _root->value();
}
bool isEmpty() const {
return _root == nullptr;
}
size_t length() const {
size_t i = 0;
auto it = _root;
while(it){
i++;
it = it->next;
}
return i;
}
size_t count_if(Predicate predicate) const {
size_t i = 0;
auto it = _root;
while(it){
if (!predicate){
i++;
}
else if (predicate(it->value())) {
i++;
}
it = it->next;
}
return i;
}
const T* nth(size_t N) const {
size_t i = 0;
auto it = _root;
while(it){
if(i++ == N)
return &(it->value());
it = it->next;
}
return nullptr;
}
bool remove(const T& t){
auto it = _root;
auto pit = _root;
while(it){
if(it->value() == t){
if(it == _root){
_root = _root->next;
} else {
pit->next = it->next;
}
if (_onRemove) {
_onRemove(it->value());
}
delete it;
return true;
}
pit = it;
it = it->next;
}
return false;
}
bool remove_first(Predicate predicate){
auto it = _root;
auto pit = _root;
while(it){
if(predicate(it->value())){
if(it == _root){
_root = _root->next;
} else {
pit->next = it->next;
}
if (_onRemove) {
_onRemove(it->value());
}
delete it;
return true;
}
pit = it;
it = it->next;
}
return false;
}
void free(){
while(_root != nullptr){
auto it = _root;
_root = _root->next;
if (_onRemove) {
_onRemove(it->value());
}
delete it;
}
_root = nullptr;
}
};
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_ */

235
lib/ESPAsyncWebServer/WebAuthentication.cpp
View File

@@ -1,235 +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 "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;
}

34
lib/ESPAsyncWebServer/WebAuthentication.h
View File

@@ -1,34 +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
*/
#ifndef WEB_AUTHENTICATION_H_
#define WEB_AUTHENTICATION_H_
#include "Arduino.h"
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);
//for storing hashed versions on the device that can be authenticated against
String generateDigestHash(const char * username, const char * password, const char * realm);
#endif

138
lib/ESPAsyncWebServer/WebHandlerImpl.h
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@@ -1,138 +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
*/
#ifndef ASYNCWEBSERVERHANDLERIMPL_H_
#define ASYNCWEBSERVERHANDLERIMPL_H_
#include <string>
#ifdef ASYNCWEBSERVER_REGEX
#include <regex>
#endif
#include "stddef.h"
#include <time.h>
class AsyncStaticWebHandler: public AsyncWebHandler {
using File = fs::File;
using FS = fs::FS;
private:
bool _getFile(AsyncWebServerRequest *request);
bool _fileExists(AsyncWebServerRequest *request, const String& path);
uint8_t _countBits(const uint8_t value) const;
protected:
FS _fs;
String _uri;
String _path;
String _default_file;
String _cache_control;
String _last_modified;
AwsTemplateProcessor _callback;
bool _isDir;
bool _gzipFirst;
uint8_t _gzipStats;
public:
AsyncStaticWebHandler(const char* uri, FS& fs, const char* path, const char* cache_control);
virtual bool canHandle(AsyncWebServerRequest *request) override final;
virtual void handleRequest(AsyncWebServerRequest *request) override final;
AsyncStaticWebHandler& setIsDir(bool isDir);
AsyncStaticWebHandler& setDefaultFile(const char* filename);
AsyncStaticWebHandler& setCacheControl(const char* cache_control);
AsyncStaticWebHandler& setLastModified(const char* last_modified);
AsyncStaticWebHandler& setLastModified(struct tm* last_modified);
#ifdef ESP8266
AsyncStaticWebHandler& setLastModified(time_t last_modified);
AsyncStaticWebHandler& setLastModified(); //sets to current time. Make sure sntp is runing and time is updated
#endif
AsyncStaticWebHandler& setTemplateProcessor(AwsTemplateProcessor newCallback) {_callback = newCallback; return *this;}
};
class AsyncCallbackWebHandler: public AsyncWebHandler {
private:
protected:
String _uri;
WebRequestMethodComposite _method;
ArRequestHandlerFunction _onRequest;
ArUploadHandlerFunction _onUpload;
ArBodyHandlerFunction _onBody;
bool _isRegex;
public:
AsyncCallbackWebHandler() : _uri(), _method(HTTP_ANY), _onRequest(NULL), _onUpload(NULL), _onBody(NULL), _isRegex(false) {}
void setUri(const String& uri){
_uri = uri;
_isRegex = uri.startsWith("^") && uri.endsWith("$");
}
void setMethod(WebRequestMethodComposite method){ _method = method; }
void onRequest(ArRequestHandlerFunction fn){ _onRequest = fn; }
void onUpload(ArUploadHandlerFunction fn){ _onUpload = fn; }
void onBody(ArBodyHandlerFunction fn){ _onBody = fn; }
virtual bool canHandle(AsyncWebServerRequest *request) override final{
if(!_onRequest)
return false;
if(!(_method & request->method()))
return false;
#ifdef ASYNCWEBSERVER_REGEX
if (_isRegex) {
std::regex pattern(_uri.c_str());
std::smatch matches;
std::string s(request->url().c_str());
if(std::regex_search(s, matches, pattern)) {
for (size_t i = 1; i < matches.size(); ++i) { // start from 1
request->_addPathParam(matches[i].str().c_str());
}
} else {
return false;
}
} else
#endif
if (_uri.length() && _uri.endsWith("*")) {
String uriTemplate = String(_uri);
uriTemplate = uriTemplate.substring(0, uriTemplate.length() - 1);
if (!request->url().startsWith(uriTemplate))
return false;
}
else if(_uri.length() && (_uri != request->url() && !request->url().startsWith(_uri+"/")))
return false;
request->addInterestingHeader("ANY");
return true;
}
virtual void handleRequest(AsyncWebServerRequest *request) override final {
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(_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(_onBody)
_onBody(request, data, len, index, total);
}
virtual bool isRequestHandlerTrivial() override final {return _onRequest ? false : true;}
};
#endif /* ASYNCWEBSERVERHANDLERIMPL_H_ */

224
lib/ESPAsyncWebServer/WebHandlers.cpp
View File

@@ -1,224 +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 "WebHandlerImpl.h"
AsyncStaticWebHandler::AsyncStaticWebHandler(const char* uri, FS& fs, const char* path, const char* cache_control)
: _fs(fs), _uri(uri), _path(path), _default_file(F("index.htm")), _cache_control(cache_control), _last_modified(), _callback(nullptr)
{
// Ensure leading '/'
if (_uri.length() == 0 || _uri[0] != '/') _uri = String('/') + _uri;
if (_path.length() == 0 || _path[0] != '/') _path = String('/') + _path;
// If path ends with '/' we assume a hint that this is a directory to improve performance.
// However - if it does not end with '/' we, can't assume a file, path can still be a directory.
_isDir = _path[_path.length()-1] == '/';
// Remove the trailing '/' so we can handle default file
// Notice that root will be "" not "/"
if (_uri[_uri.length()-1] == '/') _uri = _uri.substring(0, _uri.length()-1);
if (_path[_path.length()-1] == '/') _path = _path.substring(0, _path.length()-1);
// Reset stats
_gzipFirst = false;
_gzipStats = 0xF8;
}
AsyncStaticWebHandler& AsyncStaticWebHandler::setIsDir(bool isDir){
_isDir = isDir;
return *this;
}
AsyncStaticWebHandler& AsyncStaticWebHandler::setDefaultFile(const char* filename){
_default_file = String(filename);
return *this;
}
AsyncStaticWebHandler& AsyncStaticWebHandler::setCacheControl(const char* cache_control){
_cache_control = String(cache_control);
return *this;
}
AsyncStaticWebHandler& AsyncStaticWebHandler::setLastModified(const char* last_modified){
_last_modified = String(last_modified);
return *this;
}
AsyncStaticWebHandler& AsyncStaticWebHandler::setLastModified(struct tm* last_modified){
auto formatP = PSTR("%a, %d %b %Y %H:%M:%S %Z");
char format[strlen_P(formatP) + 1];
strcpy_P(format, formatP);
char result[30];
strftime(result, sizeof(result), format, last_modified);
return setLastModified((const char *)result);
}
#ifdef ESP8266
AsyncStaticWebHandler& AsyncStaticWebHandler::setLastModified(time_t last_modified){
return setLastModified((struct tm *)gmtime(&last_modified));
}
AsyncStaticWebHandler& AsyncStaticWebHandler::setLastModified(){
time_t last_modified;
if(time(&last_modified) == 0) //time is not yet set
return *this;
return setLastModified(last_modified);
}
#endif
bool AsyncStaticWebHandler::canHandle(AsyncWebServerRequest *request){
if(request->method() != HTTP_GET
|| !request->url().startsWith(_uri)
|| !request->isExpectedRequestedConnType(RCT_DEFAULT, RCT_HTTP)
){
return false;
}
if (_getFile(request)) {
// We interested in "If-Modified-Since" header to check if file was modified
if (_last_modified.length())
request->addInterestingHeader(F("If-Modified-Since"));
if(_cache_control.length())
request->addInterestingHeader(F("If-None-Match"));
DEBUGF("[AsyncStaticWebHandler::canHandle] TRUE\n");
return true;
}
return false;
}
bool AsyncStaticWebHandler::_getFile(AsyncWebServerRequest *request)
{
// Remove the found uri
String path = request->url().substring(_uri.length());
// We can skip the file check and look for default if request is to the root of a directory or that request path ends with '/'
bool canSkipFileCheck = (_isDir && path.length() == 0) || (path.length() && path[path.length()-1] == '/');
path = _path + path;
// Do we have a file or .gz file
if (!canSkipFileCheck && _fileExists(request, path))
return true;
// Can't handle if not default file
if (_default_file.length() == 0)
return false;
// Try to add default file, ensure there is a trailing '/' ot the path.
if (path.length() == 0 || path[path.length()-1] != '/')
path += String('/');
path += _default_file;
return _fileExists(request, path);
}
#ifdef ESP32
#define FILE_IS_REAL(f) (f == true && !f.isDirectory())
#else
#define FILE_IS_REAL(f) (f == true)
#endif
bool AsyncStaticWebHandler::_fileExists(AsyncWebServerRequest *request, const String& path)
{
bool fileFound = false;
bool gzipFound = false;
String gzip = path + F(".gz");
if (_gzipFirst) {
request->_tempFile = _fs.open(gzip, fs::FileOpenMode::read);
gzipFound = FILE_IS_REAL(request->_tempFile);
if (!gzipFound){
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 (!fileFound){
request->_tempFile = _fs.open(gzip, fs::FileOpenMode::read);
gzipFound = FILE_IS_REAL(request->_tempFile);
}
}
bool found = fileFound || gzipFound;
if (found) {
// Extract the file name from the path and keep it in _tempObject
size_t pathLen = path.length();
char * _tempPath = (char*)malloc(pathLen+1);
snprintf_P(_tempPath, pathLen+1, PSTR("%s"), path.c_str());
request->_tempObject = (void*)_tempPath;
// Calculate gzip statistic
_gzipStats = (_gzipStats << 1) + (gzipFound ? 1 : 0);
if (_gzipStats == 0x00) _gzipFirst = false; // All files are not gzip
else if (_gzipStats == 0xFF) _gzipFirst = true; // All files are gzip
else _gzipFirst = _countBits(_gzipStats) > 4; // IF we have more gzip files - try gzip first
}
return found;
}
uint8_t AsyncStaticWebHandler::_countBits(const uint8_t value) const
{
uint8_t w = value;
uint8_t n;
for (n=0; w!=0; n++) w&=w-1;
return n;
}
void AsyncStaticWebHandler::handleRequest(AsyncWebServerRequest *request)
{
// Get the filename from request->_tempObject and free it
String filename = String((char*)request->_tempObject);
free(request->_tempObject);
request->_tempObject = NULL;
if((_username.length() && _password.length()) && !request->authenticate(_username.c_str(), _password.c_str()))
return request->requestAuthentication();
if (request->_tempFile == true) {
String etag = String(request->_tempFile.size());
if (_last_modified.length() && _last_modified == request->header(F("If-Modified-Since"))) {
request->_tempFile.close();
request->send(304); // Not modified
} else if (_cache_control.length() && request->hasHeader(F("If-None-Match")) && request->header(F("If-None-Match")).equals(etag)) {
request->_tempFile.close();
AsyncWebServerResponse * response = new AsyncBasicResponse(304); // Not modified
response->addHeader(F("Cache-Control"), _cache_control);
response->addHeader(F("ETag"), etag);
request->send(response);
} else {
AsyncWebServerResponse * response = new AsyncFileResponse(request->_tempFile, filename, String(), false, _callback);
if (_last_modified.length())
response->addHeader(F("Last-Modified"), _last_modified);
if (_cache_control.length()){
response->addHeader(F("Cache-Control"), _cache_control);
response->addHeader(F("ETag"), etag);
}
request->send(response);
}
} else {
request->send(404);
}
}

930
lib/ESPAsyncWebServer/WebRequest.cpp
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@@ -1,930 +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 "WebAuthentication.h"
#ifndef ESP8266
#define os_strlen strlen
#endif
#define __is_param_char(c) ((c) && ((c) != '{') && ((c) != '[') && ((c) != '&') && ((c) != '='))
enum { PARSE_REQ_START, PARSE_REQ_HEADERS, PARSE_REQ_BODY, PARSE_REQ_END, PARSE_REQ_FAIL };
AsyncWebServerRequest::AsyncWebServerRequest(AsyncWebServer* s, AsyncClient* c)
: _client(c)
, _server(s)
, _handler(NULL)
, _response(NULL)
, _temp()
, _parseState(0)
, _version(0)
, _method(HTTP_ANY)
, _url()
, _host()
, _contentType()
, _boundary()
, _authorization()
, _reqconntype(RCT_HTTP)
, _isDigest(false)
, _isMultipart(false)
, _isPlainPost(false)
, _expectingContinue(false)
, _contentLength(0)
, _parsedLength(0)
, _headers(LinkedList<AsyncWebHeader *>([](AsyncWebHeader *h){ delete h; }))
, _params(LinkedList<AsyncWebParameter *>([](AsyncWebParameter *p){ delete p; }))
, _pathParams(LinkedList<String *>([](String *p){ delete p; }))
, _multiParseState(0)
, _boundaryPosition(0)
, _itemStartIndex(0)
, _itemSize(0)
, _itemName()
, _itemFilename()
, _itemType()
, _itemValue()
, _itemBuffer(0)
, _itemBufferIndex(0)
, _itemIsFile(false)
, _tempObject(NULL)
{
c->onError([](void *r, AsyncClient* c, int8_t error){ (void)c; AsyncWebServerRequest *req = (AsyncWebServerRequest*)r; req->_onError(error); }, this);
c->onAck([](void *r, AsyncClient* c, size_t len, uint32_t time){ (void)c; AsyncWebServerRequest *req = (AsyncWebServerRequest*)r; req->_onAck(len, time); }, this);
c->onDisconnect([](void *r, AsyncClient* c){ AsyncWebServerRequest *req = (AsyncWebServerRequest*)r; req->_onDisconnect(); delete c; }, this);
c->onTimeout([](void *r, AsyncClient* c, uint32_t time){ (void)c; AsyncWebServerRequest *req = (AsyncWebServerRequest*)r; req->_onTimeout(time); }, this);
c->onData([](void *r, AsyncClient* c, void *buf, size_t len){ (void)c; AsyncWebServerRequest *req = (AsyncWebServerRequest*)r; req->_onData(buf, len); }, this);
c->onPoll([](void *r, AsyncClient* c){ (void)c; AsyncWebServerRequest *req = ( AsyncWebServerRequest*)r; req->_onPoll(); }, this);
}
AsyncWebServerRequest::~AsyncWebServerRequest(){
_headers.free();
_params.free();
_pathParams.free();
_interestingHeaders.free();
if(_response != NULL){
delete _response;
}
if(_tempObject != NULL){
free(_tempObject);
}
if(_tempFile){
_tempFile.close();
}
}
void AsyncWebServerRequest::_onData(void *buf, size_t len){
size_t i = 0;
while (true) {
if(_parseState < PARSE_REQ_BODY){
// Find new line in buf
char *str = (char*)buf;
for (i = 0; i < len; i++) {
if (str[i] == '\n') {
break;
}
}
if (i == len) { // No new line, just add the buffer in _temp
char ch = str[len-1];
str[len-1] = 0;
_temp.reserve(_temp.length()+len);
_temp.concat(str);
_temp.concat(ch);
} else { // Found new line - extract it and parse
str[i] = 0; // Terminate the string at the end of the line.
_temp.concat(str);
_temp.trim();
_parseLine();
if (++i < len) {
// Still have more buffer to process
buf = str+i;
len-= i;
continue;
}
}
} else if(_parseState == PARSE_REQ_BODY){
// A handler should be already attached at this point in _parseLine function.
// If handler does nothing (_onRequest is NULL), we don't need to really parse the body.
const bool needParse = _handler && !_handler->isRequestHandlerTrivial();
if(_isMultipart){
if(needParse){
size_t i;
for(i=0; i<len; i++){
_parseMultipartPostByte(((uint8_t*)buf)[i], i == len - 1);
_parsedLength++;
}
} else
_parsedLength += len;
} else {
if(_parsedLength == 0){
if(_contentType.startsWith(F("application/x-www-form-urlencoded"))){
_isPlainPost = true;
} else if(_contentType == F("text/plain") && __is_param_char(((char*)buf)[0])){
size_t i = 0;
while (i<len && __is_param_char(((char*)buf)[i++]));
if(i < len && ((char*)buf)[i-1] == '='){
_isPlainPost = true;
}
}
}
if(!_isPlainPost) {
//check if authenticated before calling the body
if(_handler) _handler->handleBody(this, (uint8_t*)buf, len, _parsedLength, _contentLength);
_parsedLength += len;
} else if(needParse) {
size_t i;
for(i=0; i<len; i++){
_parsedLength++;
_parsePlainPostChar(((uint8_t*)buf)[i]);
}
} else {
_parsedLength += len;
}
}
if(_parsedLength == _contentLength){
_parseState = PARSE_REQ_END;
//check if authenticated before calling handleRequest and request auth instead
if(_handler) _handler->handleRequest(this);
else send(501);
}
}
break;
}
}
void AsyncWebServerRequest::_removeNotInterestingHeaders(){
if (_interestingHeaders.containsIgnoreCase(F("ANY"))) return; // nothing to do
for(const auto& header: _headers){
if(!_interestingHeaders.containsIgnoreCase(header->name().c_str())){
_headers.remove(header);
}
}
}
void AsyncWebServerRequest::_onPoll(){
//os_printf("p\n");
if(_response != NULL && _client != NULL && _client->canSend() && !_response->_finished()){
_response->_ack(this, 0, 0);
}
}
void AsyncWebServerRequest::_onAck(size_t len, uint32_t time){
//os_printf("a:%u:%u\n", len, time);
if(_response != NULL){
if(!_response->_finished()){
_response->_ack(this, len, time);
} else {
AsyncWebServerResponse* r = _response;
_response = NULL;
delete r;
}
}
}
void AsyncWebServerRequest::_onError(int8_t error){
(void)error;
}
void AsyncWebServerRequest::_onTimeout(uint32_t time){
(void)time;
//os_printf("TIMEOUT: %u, state: %s\n", time, _client->stateToString());
_client->close();
}
void AsyncWebServerRequest::onDisconnect (ArDisconnectHandler fn){
_onDisconnectfn=fn;
}
void AsyncWebServerRequest::_onDisconnect(){
//os_printf("d\n");
if(_onDisconnectfn) {
_onDisconnectfn();
}
_server->_handleDisconnect(this);
}
void AsyncWebServerRequest::_addParam(AsyncWebParameter *p){
_params.add(p);
}
void AsyncWebServerRequest::_addPathParam(const char *p){
_pathParams.add(new String(p));
}
void AsyncWebServerRequest::_addGetParams(const String& params){
size_t start = 0;
while (start < params.length()){
int end = params.indexOf('&', start);
if (end < 0) end = params.length();
int equal = params.indexOf('=', start);
if (equal < 0 || equal > end) equal = end;
String name = params.substring(start, equal);
String value = equal + 1 < end ? params.substring(equal + 1, end) : String();
_addParam(new AsyncWebParameter(urlDecode(name), urlDecode(value)));
start = end + 1;
}
}
bool AsyncWebServerRequest::_parseReqHead(){
// Split the head into method, url and version
int index = _temp.indexOf(' ');
String m = _temp.substring(0, index);
index = _temp.indexOf(' ', index+1);
String u = _temp.substring(m.length()+1, index);
_temp = _temp.substring(index+1);
if(m == F("GET")){
_method = HTTP_GET;
} else if(m == F("POST")){
_method = HTTP_POST;
} else if(m == F("DELETE")){
_method = HTTP_DELETE;
} else if(m == F("PUT")){
_method = HTTP_PUT;
} else if(m == F("PATCH")){
_method = HTTP_PATCH;
} else if(m == F("HEAD")){
_method = HTTP_HEAD;
} else if(m == F("OPTIONS")){
_method = HTTP_OPTIONS;
}
String g;
index = u.indexOf('?');
if(index > 0){
g = u.substring(index +1);
u = u.substring(0, index);
}
_url = urlDecode(u);
_addGetParams(g);
if(!_temp.startsWith(F("HTTP/1.0")))
_version = 1;
_temp = String();
return true;
}
bool strContains(const String &src, const String &find, bool mindcase = true) {
int pos=0, i=0;
const int slen = src.length();
const int flen = find.length();
if (slen < flen) return false;
while (pos <= (slen - flen)) {
for (i=0; i < flen; i++) {
if (mindcase) {
if (src[pos+i] != find[i]) i = flen + 1; // no match
}
else if (tolower(src[pos+i]) != tolower(find[i])) {
i = flen + 1; // no match
}
}
if (i == flen) return true;
pos++;
}
return false;
}
bool AsyncWebServerRequest::_parseReqHeader(){
int index = _temp.indexOf(':');
if(index){
String name = _temp.substring(0, index);
String value = _temp.substring(index + 2);
if(name.equalsIgnoreCase("Host")){
_host = value;
} else if(name.equalsIgnoreCase(F("Content-Type"))){
_contentType = value.substring(0, value.indexOf(';'));
if (value.startsWith(F("multipart/"))){
_boundary = value.substring(value.indexOf('=')+1);
_boundary.replace(String('"'), String());
_isMultipart = true;
}
} else if(name.equalsIgnoreCase(F("Content-Length"))){
_contentLength = atoi(value.c_str());
} else if(name.equalsIgnoreCase(F("Expect")) && value == F("100-continue")){
_expectingContinue = true;
} else if(name.equalsIgnoreCase(F("Authorization"))){
if(value.length() > 5 && value.substring(0,5).equalsIgnoreCase(F("Basic"))){
_authorization = value.substring(6);
} else if(value.length() > 6 && value.substring(0,6).equalsIgnoreCase(F("Digest"))){
_isDigest = true;
_authorization = value.substring(7);
}
} else {
if(name.equalsIgnoreCase(F("Upgrade")) && value.equalsIgnoreCase(F("websocket"))){
// WebSocket request can be uniquely identified by header: [Upgrade: websocket]
_reqconntype = RCT_WS;
} else {
if(name.equalsIgnoreCase(F("Accept")) && strContains(value, F("text/event-stream"), false)){
// WebEvent request can be uniquely identified by header: [Accept: text/event-stream]
_reqconntype = RCT_EVENT;
}
}
}
_headers.add(new AsyncWebHeader(name, value));
}
_temp = String();
return true;
}
void AsyncWebServerRequest::_parsePlainPostChar(uint8_t data){
if(data && (char)data != '&')
_temp += (char)data;
if(!data || (char)data == '&' || _parsedLength == _contentLength){
String name = F("body");
String value = _temp;
if(!_temp.startsWith(String('{')) && !_temp.startsWith(String('[')) && _temp.indexOf('=') > 0){
name = _temp.substring(0, _temp.indexOf('='));
value = _temp.substring(_temp.indexOf('=') + 1);
}
_addParam(new AsyncWebParameter(urlDecode(name), urlDecode(value), true));
_temp = String();
}
}
void AsyncWebServerRequest::_handleUploadByte(uint8_t data, bool last){
_itemBuffer[_itemBufferIndex++] = data;
if(last || _itemBufferIndex == 1460){
//check if authenticated before calling the upload
if(_handler)
_handler->handleUpload(this, _itemFilename, _itemSize - _itemBufferIndex, _itemBuffer, _itemBufferIndex, false);
_itemBufferIndex = 0;
}
}
enum {
EXPECT_BOUNDARY,
PARSE_HEADERS,
WAIT_FOR_RETURN1,
EXPECT_FEED1,
EXPECT_DASH1,
EXPECT_DASH2,
BOUNDARY_OR_DATA,
DASH3_OR_RETURN2,
EXPECT_FEED2,
PARSING_FINISHED,
PARSE_ERROR
};
void AsyncWebServerRequest::_parseMultipartPostByte(uint8_t data, bool last){
#define itemWriteByte(b) do { _itemSize++; if(_itemIsFile) _handleUploadByte(b, last); else _itemValue+=(char)(b); } while(0)
if(!_parsedLength){
_multiParseState = EXPECT_BOUNDARY;
_temp = String();
_itemName = String();
_itemFilename = String();
_itemType = String();
}
if(_multiParseState == WAIT_FOR_RETURN1){
if(data != '\r'){
itemWriteByte(data);
} else {
_multiParseState = EXPECT_FEED1;
}
} else if(_multiParseState == EXPECT_BOUNDARY){
if(_parsedLength < 2 && data != '-'){
_multiParseState = PARSE_ERROR;
return;
} else if(_parsedLength - 2 < _boundary.length() && _boundary.c_str()[_parsedLength - 2] != data){
_multiParseState = PARSE_ERROR;
return;
} else if(_parsedLength - 2 == _boundary.length() && data != '\r'){
_multiParseState = PARSE_ERROR;
return;
} else if(_parsedLength - 3 == _boundary.length()){
if(data != '\n'){
_multiParseState = PARSE_ERROR;
return;
}
_multiParseState = PARSE_HEADERS;
_itemIsFile = false;
}
} else if(_multiParseState == PARSE_HEADERS){
if((char)data != '\r' && (char)data != '\n')
_temp += (char)data;
if((char)data == '\n'){
if(_temp.length()){
if(_temp.length() > 12 && _temp.substring(0, 12).equalsIgnoreCase(F("Content-Type"))){
_itemType = _temp.substring(14);
_itemIsFile = true;
} else if(_temp.length() > 19 && _temp.substring(0, 19).equalsIgnoreCase(F("Content-Disposition"))){
_temp = _temp.substring(_temp.indexOf(';') + 2);
while(_temp.indexOf(';') > 0){
String name = _temp.substring(0, _temp.indexOf('='));
String nameVal = _temp.substring(_temp.indexOf('=') + 2, _temp.indexOf(';') - 1);
if(name == F("name")){
_itemName = nameVal;
} else if(name == F("filename")){
_itemFilename = nameVal;
_itemIsFile = true;
}
_temp = _temp.substring(_temp.indexOf(';') + 2);
}
String name = _temp.substring(0, _temp.indexOf('='));
String nameVal = _temp.substring(_temp.indexOf('=') + 2, _temp.length() - 1);
if(name == F("name")){
_itemName = nameVal;
} else if(name == F("filename")){
_itemFilename = nameVal;
_itemIsFile = true;
}
}
_temp = String();
} else {
_multiParseState = WAIT_FOR_RETURN1;
//value starts from here
_itemSize = 0;
_itemStartIndex = _parsedLength;
_itemValue = String();
if(_itemIsFile){
if(_itemBuffer)
free(_itemBuffer);
_itemBuffer = (uint8_t*)malloc(1460);
if(_itemBuffer == NULL){
_multiParseState = PARSE_ERROR;
return;
}
_itemBufferIndex = 0;
}
}
}
} else if(_multiParseState == EXPECT_FEED1){
if(data != '\n'){
_multiParseState = WAIT_FOR_RETURN1;
itemWriteByte('\r'); _parseMultipartPostByte(data, last);
} else {
_multiParseState = EXPECT_DASH1;
}
} else if(_multiParseState == EXPECT_DASH1){
if(data != '-'){
_multiParseState = WAIT_FOR_RETURN1;
itemWriteByte('\r'); itemWriteByte('\n'); _parseMultipartPostByte(data, last);
} else {
_multiParseState = EXPECT_DASH2;
}
} else if(_multiParseState == EXPECT_DASH2){
if(data != '-'){
_multiParseState = WAIT_FOR_RETURN1;
itemWriteByte('\r'); itemWriteByte('\n'); itemWriteByte('-'); _parseMultipartPostByte(data, last);
} else {
_multiParseState = BOUNDARY_OR_DATA;
_boundaryPosition = 0;
}
} else if(_multiParseState == BOUNDARY_OR_DATA){
if(_boundaryPosition < _boundary.length() && _boundary.c_str()[_boundaryPosition] != data){
_multiParseState = WAIT_FOR_RETURN1;
itemWriteByte('\r'); itemWriteByte('\n'); itemWriteByte('-'); itemWriteByte('-');
uint8_t i;
for(i=0; i<_boundaryPosition; i++)
itemWriteByte(_boundary.c_str()[i]);
_parseMultipartPostByte(data, last);
} else if(_boundaryPosition == _boundary.length() - 1){
_multiParseState = DASH3_OR_RETURN2;
if(!_itemIsFile){
_addParam(new AsyncWebParameter(_itemName, _itemValue, true));
} else {
if(_itemSize){
//check if authenticated before calling the upload
if(_handler) _handler->handleUpload(this, _itemFilename, _itemSize - _itemBufferIndex, _itemBuffer, _itemBufferIndex, true);
_itemBufferIndex = 0;
_addParam(new AsyncWebParameter(_itemName, _itemFilename, true, true, _itemSize));
}
free(_itemBuffer);
_itemBuffer = NULL;
}
} else {
_boundaryPosition++;
}
} else if(_multiParseState == DASH3_OR_RETURN2){
if(data == '-' && (_contentLength - _parsedLength - 4) != 0){
//os_printf("ERROR: The parser got to the end of the POST but is expecting %u bytes more!\nDrop an issue so we can have more info on the matter!\n", _contentLength - _parsedLength - 4);
_contentLength = _parsedLength + 4;//lets close the request gracefully
}
if(data == '\r'){
_multiParseState = EXPECT_FEED2;
} else if(data == '-' && _contentLength == (_parsedLength + 4)){
_multiParseState = PARSING_FINISHED;
} else {
_multiParseState = WAIT_FOR_RETURN1;
itemWriteByte('\r'); itemWriteByte('\n'); itemWriteByte('-'); itemWriteByte('-');
uint8_t i; for(i=0; i<_boundary.length(); i++) itemWriteByte(_boundary.c_str()[i]);
_parseMultipartPostByte(data, last);
}
} else if(_multiParseState == EXPECT_FEED2){
if(data == '\n'){
_multiParseState = PARSE_HEADERS;
_itemIsFile = false;
} else {
_multiParseState = WAIT_FOR_RETURN1;
itemWriteByte('\r'); itemWriteByte('\n'); itemWriteByte('-'); itemWriteByte('-');
uint8_t i; for(i=0; i<_boundary.length(); i++) itemWriteByte(_boundary.c_str()[i]);
itemWriteByte('\r'); _parseMultipartPostByte(data, last);
}
}
}
void AsyncWebServerRequest::_parseLine(){
if(_parseState == PARSE_REQ_START){
if(!_temp.length()){
_parseState = PARSE_REQ_FAIL;
_client->close();
} else {
_parseReqHead();
_parseState = PARSE_REQ_HEADERS;
}
return;
}
if(_parseState == PARSE_REQ_HEADERS){
if(!_temp.length()){
//end of headers
_server->_rewriteRequest(this);
_server->_attachHandler(this);
_removeNotInterestingHeaders();
if(_expectingContinue){
String response = F("HTTP/1.1 100 Continue\r\n\r\n");
_client->write(response.c_str(), response.length());
}
//check handler for authentication
if(_contentLength){
_parseState = PARSE_REQ_BODY;
} else {
_parseState = PARSE_REQ_END;
if(_handler) _handler->handleRequest(this);
else send(501);
}
} else _parseReqHeader();
}
}
size_t AsyncWebServerRequest::headers() const{
return _headers.length();
}
bool AsyncWebServerRequest::hasHeader(const String& name) const {
for(const auto& h: _headers){
if(h->name().equalsIgnoreCase(name)){
return true;
}
}
return false;
}
bool AsyncWebServerRequest::hasHeader(const __FlashStringHelper * data) const {
return hasHeader(String(data));
}
AsyncWebHeader* AsyncWebServerRequest::getHeader(const String& name) const {
for(const auto& h: _headers){
if(h->name().equalsIgnoreCase(name)){
return h;
}
}
return nullptr;
}
AsyncWebHeader* AsyncWebServerRequest::getHeader(const __FlashStringHelper * data) const {
return getHeader(String(data));
}
AsyncWebHeader* AsyncWebServerRequest::getHeader(size_t num) const {
auto header = _headers.nth(num);
return header ? *header : nullptr;
}
size_t AsyncWebServerRequest::params() const {
return _params.length();
}
bool AsyncWebServerRequest::hasParam(const String& name, bool post, bool file) const {
for(const auto& p: _params){
if(p->name() == name && p->isPost() == post && p->isFile() == file){
return true;
}
}
return false;
}
bool AsyncWebServerRequest::hasParam(const __FlashStringHelper * data, bool post, bool file) const {
return hasParam(String(data).c_str(), post, file);
}
AsyncWebParameter* AsyncWebServerRequest::getParam(const String& name, bool post, bool file) const {
for(const auto& p: _params){
if(p->name() == name && p->isPost() == post && p->isFile() == file){
return p;
}
}
return nullptr;
}
AsyncWebParameter* AsyncWebServerRequest::getParam(const __FlashStringHelper * data, bool post, bool file) const {
return getParam(String(data).c_str(), post, file);
}
AsyncWebParameter* AsyncWebServerRequest::getParam(size_t num) const {
auto param = _params.nth(num);
return param ? *param : nullptr;
}
void AsyncWebServerRequest::addInterestingHeader(const String& name){
if(!_interestingHeaders.containsIgnoreCase(name))
_interestingHeaders.add(name);
}
void AsyncWebServerRequest::send(AsyncWebServerResponse *response){
_response = response;
if(_response == NULL){
_client->close(true);
_onDisconnect();
return;
}
if(!_response->_sourceValid()){
delete response;
_response = NULL;
send(500);
}
else {
_client->setRxTimeout(0);
_response->_respond(this);
}
}
AsyncWebServerResponse * AsyncWebServerRequest::beginResponse(int code, const String& contentType, const String& content){
return new AsyncBasicResponse(code, contentType, content);
}
AsyncWebServerResponse * AsyncWebServerRequest::beginResponse(FS &fs, const String& path, const String& contentType, bool download, AwsTemplateProcessor callback){
if(fs.exists(path) || (!download && fs.exists(path+F(".gz"))))
return new AsyncFileResponse(fs, path, contentType, download, callback);
return NULL;
}
AsyncWebServerResponse * AsyncWebServerRequest::beginResponse(File content, const String& path, const String& contentType, bool download, AwsTemplateProcessor callback){
if(content == true)
return new AsyncFileResponse(content, path, contentType, download, callback);
return NULL;
}
AsyncWebServerResponse * AsyncWebServerRequest::beginResponse(Stream &stream, const String& contentType, size_t len, AwsTemplateProcessor callback){
return new AsyncStreamResponse(stream, contentType, len, callback);
}
AsyncWebServerResponse * AsyncWebServerRequest::beginResponse(const String& contentType, size_t len, AwsResponseFiller callback, AwsTemplateProcessor templateCallback){
return new AsyncCallbackResponse(contentType, len, callback, templateCallback);
}
AsyncWebServerResponse * AsyncWebServerRequest::beginChunkedResponse(const String& contentType, AwsResponseFiller callback, AwsTemplateProcessor templateCallback){
if(_version)
return new AsyncChunkedResponse(contentType, callback, templateCallback);
return new AsyncCallbackResponse(contentType, 0, callback, templateCallback);
}
AsyncResponseStream * AsyncWebServerRequest::beginResponseStream(const String& contentType, size_t bufferSize){
return new AsyncResponseStream(contentType, bufferSize);
}
AsyncWebServerResponse * AsyncWebServerRequest::beginResponse_P(int code, const String& contentType, const uint8_t * content, size_t len, AwsTemplateProcessor callback){
return new AsyncProgmemResponse(code, contentType, content, len, callback);
}
AsyncWebServerResponse * AsyncWebServerRequest::beginResponse_P(int code, const String& contentType, PGM_P content, AwsTemplateProcessor callback){
return beginResponse_P(code, contentType, (const uint8_t *)content, strlen_P(content), callback);
}
void AsyncWebServerRequest::send(int code, const String& contentType, const String& content){
send(beginResponse(code, contentType, content));
}
void AsyncWebServerRequest::send(FS &fs, const String& path, const String& contentType, bool download, AwsTemplateProcessor callback){
if(fs.exists(path) || (!download && fs.exists(path+F(".gz")))){
send(beginResponse(fs, path, contentType, download, callback));
} else send(404);
}
void AsyncWebServerRequest::send(File content, const String& path, const String& contentType, bool download, AwsTemplateProcessor callback){
if(content == true){
send(beginResponse(content, path, contentType, download, callback));
} else send(404);
}
void AsyncWebServerRequest::send(Stream &stream, const String& contentType, size_t len, AwsTemplateProcessor callback){
send(beginResponse(stream, contentType, len, callback));
}
void AsyncWebServerRequest::send(const String& contentType, size_t len, AwsResponseFiller callback, AwsTemplateProcessor templateCallback){
send(beginResponse(contentType, len, callback, templateCallback));
}
void AsyncWebServerRequest::sendChunked(const String& contentType, AwsResponseFiller callback, AwsTemplateProcessor templateCallback){
send(beginChunkedResponse(contentType, callback, templateCallback));
}
void AsyncWebServerRequest::send_P(int code, const String& contentType, const uint8_t * content, size_t len, AwsTemplateProcessor callback){
send(beginResponse_P(code, contentType, content, len, callback));
}
void AsyncWebServerRequest::send_P(int code, const String& contentType, PGM_P content, AwsTemplateProcessor callback){
send(beginResponse_P(code, contentType, content, callback));
}
void AsyncWebServerRequest::redirect(const String& url){
AsyncWebServerResponse * response = beginResponse(302);
response->addHeader(F("Location"), url);
send(response);
}
bool AsyncWebServerRequest::authenticate(const char * username, const char * password, const char * realm, bool passwordIsHash){
if(_authorization.length()){
if(_isDigest)
return checkDigestAuthentication(_authorization.c_str(), methodToString(), username, password, realm, passwordIsHash, NULL, NULL, NULL);
else if(!passwordIsHash)
return checkBasicAuthentication(_authorization.c_str(), username, password);
else
return _authorization.equals(password);
}
return false;
}
bool AsyncWebServerRequest::authenticate(const char * hash){
if(!_authorization.length() || hash == NULL)
return false;
if(_isDigest){
String hStr = String(hash);
int separator = hStr.indexOf(':');
if(separator <= 0)
return false;
String username = hStr.substring(0, separator);
hStr = hStr.substring(separator + 1);
separator = hStr.indexOf(':');
if(separator <= 0)
return false;
String realm = hStr.substring(0, separator);
hStr = hStr.substring(separator + 1);
return checkDigestAuthentication(_authorization.c_str(), methodToString(), username.c_str(), hStr.c_str(), realm.c_str(), true, NULL, NULL, NULL);
}
return (_authorization.equals(hash));
}
void AsyncWebServerRequest::requestAuthentication(const char * realm, bool isDigest){
AsyncWebServerResponse * r = beginResponse(401);
if(!isDigest && realm == NULL){
r->addHeader(F("WWW-Authenticate"), F("Basic realm=\"Login Required\""));
} else if(!isDigest){
String header = F("Basic realm=\"");
header.concat(realm);
header += '"';
r->addHeader(F("WWW-Authenticate"), header);
} else {
String header = F("Digest ");
header.concat(requestDigestAuthentication(realm));
r->addHeader(F("WWW-Authenticate"), header);
}
send(r);
}
bool AsyncWebServerRequest::hasArg(const char* name) const {
for(const auto& arg: _params){
if(arg->name() == name){
return true;
}
}
return false;
}
bool AsyncWebServerRequest::hasArg(const __FlashStringHelper * data) const {
return hasArg(String(data).c_str());
}
const String& AsyncWebServerRequest::arg(const String& name) const {
for(const auto& arg: _params){
if(arg->name() == name){
return arg->value();
}
}
return emptyString;
}
const String& AsyncWebServerRequest::arg(const __FlashStringHelper * data) const {
return arg(String(data).c_str());
}
const String& AsyncWebServerRequest::arg(size_t i) const {
return getParam(i)->value();
}
const String& AsyncWebServerRequest::argName(size_t i) const {
return getParam(i)->name();
}
const String& AsyncWebServerRequest::pathArg(size_t i) const {
auto param = _pathParams.nth(i);
return param ? **param : emptyString;
}
const String& AsyncWebServerRequest::header(const char* name) const {
AsyncWebHeader* h = getHeader(String(name));
return h ? h->value() : emptyString;
}
const String& AsyncWebServerRequest::header(const __FlashStringHelper * data) const {
return header(String(data).c_str());
};
const String& AsyncWebServerRequest::header(size_t i) const {
AsyncWebHeader* h = getHeader(i);
return h ? h->value() : emptyString;
}
const String& AsyncWebServerRequest::headerName(size_t i) const {
AsyncWebHeader* h = getHeader(i);
return h ? h->name() : emptyString;
}
String AsyncWebServerRequest::urlDecode(const String& text) const {
char temp[] = "0x00";
unsigned int len = text.length();
unsigned int i = 0;
String decoded = String();
decoded.reserve(len); // Allocate the string internal buffer - never longer from source text
while (i < len){
char decodedChar;
char encodedChar = text.charAt(i++);
if ((encodedChar == '%') && (i + 1 < len)){
temp[2] = text.charAt(i++);
temp[3] = text.charAt(i++);
decodedChar = strtol(temp, NULL, 16);
} else if (encodedChar == '+') {
decodedChar = ' ';
} else {
decodedChar = encodedChar; // normal ascii char
}
decoded.concat(decodedChar);
}
return decoded;
}
const char *AsyncWebServerRequest::methodToString() const {
if(_method == HTTP_ANY) return ("ANY");
else if(_method & HTTP_GET) return ("GET");
else if(_method & HTTP_POST) return ("POST");
else if(_method & HTTP_DELETE) return ("DELETE");
else if(_method & HTTP_PUT) return ("PUT");
else if(_method & HTTP_PATCH) return ("PATCH");
else if(_method & HTTP_HEAD) return ("HEAD");
else if(_method & HTTP_OPTIONS) return ("OPTIONS");
return ("UNKNOWN");
}
const char *AsyncWebServerRequest::requestedConnTypeToString() const {
switch (_reqconntype) {
case RCT_NOT_USED: return ("RCT_NOT_USED");
case RCT_DEFAULT: return ("RCT_DEFAULT");
case RCT_HTTP: return ("RCT_HTTP");
case RCT_WS: return ("RCT_WS");
case RCT_EVENT: return ("RCT_EVENT");
default: return ("ERROR");
}
}
bool AsyncWebServerRequest::isExpectedRequestedConnType(RequestedConnectionType erct1, RequestedConnectionType erct2, RequestedConnectionType erct3) {
bool res = false;
if ((erct1 != RCT_NOT_USED) && (erct1 == _reqconntype)) res = true;
if ((erct2 != RCT_NOT_USED) && (erct2 == _reqconntype)) res = true;
if ((erct3 != RCT_NOT_USED) && (erct3 == _reqconntype)) res = true;
return res;
}

136
lib/ESPAsyncWebServer/WebResponseImpl.h
View File

@@ -1,136 +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
*/
#ifndef ASYNCWEBSERVERRESPONSEIMPL_H_
#define ASYNCWEBSERVERRESPONSEIMPL_H_
#ifdef Arduino_h
// arduino is not compatible with std::vector
#undef min
#undef max
#endif
#include <vector>
// It is possible to restore these defines, but one can use _min and _max instead. Or std::min, std::max.
class AsyncBasicResponse: public AsyncWebServerResponse {
private:
String _content;
public:
AsyncBasicResponse(int code, const String& contentType=String(), const String& content=String());
void _respond(AsyncWebServerRequest *request);
size_t _ack(AsyncWebServerRequest *request, size_t len, uint32_t time);
bool _sourceValid() const { return true; }
};
class AsyncAbstractResponse: public AsyncWebServerResponse {
private:
String _head;
// Data is inserted into cache at begin().
// This is inefficient with vector, but if we use some other container,
// we won't be able to access it as contiguous array of bytes when reading from it,
// so by gaining performance in one place, we'll lose it in another.
std::vector<uint8_t> _cache;
size_t _readDataFromCacheOrContent(uint8_t* data, const size_t len);
size_t _fillBufferAndProcessTemplates(uint8_t* buf, size_t maxLen);
protected:
AwsTemplateProcessor _callback;
public:
AsyncAbstractResponse(AwsTemplateProcessor callback=nullptr);
void _respond(AsyncWebServerRequest *request);
size_t _ack(AsyncWebServerRequest *request, size_t len, uint32_t time);
bool _sourceValid() const { return false; }
virtual size_t _fillBuffer(uint8_t *buf __attribute__((unused)), size_t maxLen __attribute__((unused))) { return 0; }
};
#ifndef TEMPLATE_PLACEHOLDER
#define TEMPLATE_PLACEHOLDER '%'
#endif
#define TEMPLATE_PARAM_NAME_LENGTH 32
class AsyncFileResponse: public AsyncAbstractResponse {
using File = fs::File;
using FS = fs::FS;
private:
File _content;
String _path;
void _setContentType(const String& path);
public:
AsyncFileResponse(FS &fs, const String& path, const String& contentType=String(), bool download=false, AwsTemplateProcessor callback=nullptr);
AsyncFileResponse(File content, const String& path, const String& contentType=String(), bool download=false, AwsTemplateProcessor callback=nullptr);
~AsyncFileResponse();
bool _sourceValid() const { return !!(_content); }
virtual size_t _fillBuffer(uint8_t *buf, size_t maxLen) override;
};
class AsyncStreamResponse: public AsyncAbstractResponse {
private:
Stream *_content;
public:
AsyncStreamResponse(Stream &stream, const String& contentType, size_t len, AwsTemplateProcessor callback=nullptr);
bool _sourceValid() const { return !!(_content); }
virtual size_t _fillBuffer(uint8_t *buf, size_t maxLen) override;
};
class AsyncCallbackResponse: public AsyncAbstractResponse {
private:
AwsResponseFiller _content;
size_t _filledLength;
public:
AsyncCallbackResponse(const String& contentType, size_t len, AwsResponseFiller callback, AwsTemplateProcessor templateCallback=nullptr);
bool _sourceValid() const { return !!(_content); }
virtual size_t _fillBuffer(uint8_t *buf, size_t maxLen) override;
};
class AsyncChunkedResponse: public AsyncAbstractResponse {
private:
AwsResponseFiller _content;
size_t _filledLength;
public:
AsyncChunkedResponse(const String& contentType, AwsResponseFiller callback, AwsTemplateProcessor templateCallback=nullptr);
bool _sourceValid() const { return !!(_content); }
virtual size_t _fillBuffer(uint8_t *buf, size_t maxLen) override;
};
class AsyncProgmemResponse: public AsyncAbstractResponse {
private:
const uint8_t * _content;
size_t _readLength;
public:
AsyncProgmemResponse(int code, const String& contentType, const uint8_t * content, size_t len, AwsTemplateProcessor callback=nullptr);
bool _sourceValid() const { return true; }
virtual size_t _fillBuffer(uint8_t *buf, size_t maxLen) override;
};
class cbuf;
class AsyncResponseStream: public AsyncAbstractResponse, public Print {
private:
cbuf *_content;
public:
AsyncResponseStream(const String& contentType, size_t bufferSize);
~AsyncResponseStream();
bool _sourceValid() const { return (_state < RESPONSE_END); }
virtual size_t _fillBuffer(uint8_t *buf, size_t maxLen) override;
size_t write(const uint8_t *data, size_t len);
size_t write(uint8_t data);
using Print::write;
};
#endif /* ASYNCWEBSERVERRESPONSEIMPL_H_ */

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);
}

198
lib/ESPAsyncWebServer/WebServer.cpp
View File

@@ -1,198 +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 "WebHandlerImpl.h"
bool ON_STA_FILTER(AsyncWebServerRequest *request) {
return WiFi.localIP() == request->client()->localIP();
}
bool ON_AP_FILTER(AsyncWebServerRequest *request) {
return WiFi.localIP() != request->client()->localIP();
}
#ifndef HAVE_FS_FILE_OPEN_MODE
const char *fs::FileOpenMode::read = "r";
const char *fs::FileOpenMode::write = "w";
const char *fs::FileOpenMode::append = "a";
#endif
AsyncWebServer::AsyncWebServer(uint16_t port)
: _server(port)
, _rewrites(LinkedList<AsyncWebRewrite*>([](AsyncWebRewrite* r){ delete r; }))
, _handlers(LinkedList<AsyncWebHandler*>([](AsyncWebHandler* h){ delete h; }))
{
_catchAllHandler = new AsyncCallbackWebHandler();
if(_catchAllHandler == NULL)
return;
_server.onClient([](void *s, AsyncClient* c){
if(c == NULL)
return;
c->setRxTimeout(3);
AsyncWebServerRequest *r = new AsyncWebServerRequest((AsyncWebServer*)s, c);
if(r == NULL){
c->close(true);
c->free();
delete c;
}
}, this);
}
AsyncWebServer::~AsyncWebServer(){
reset();
end();
if(_catchAllHandler) delete _catchAllHandler;
}
AsyncWebRewrite& AsyncWebServer::addRewrite(AsyncWebRewrite* rewrite){
_rewrites.add(rewrite);
return *rewrite;
}
bool AsyncWebServer::removeRewrite(AsyncWebRewrite *rewrite){
return _rewrites.remove(rewrite);
}
AsyncWebRewrite& AsyncWebServer::rewrite(const char* from, const char* to){
return addRewrite(new AsyncWebRewrite(from, to));
}
AsyncWebHandler& AsyncWebServer::addHandler(AsyncWebHandler* handler){
_handlers.add(handler);
return *handler;
}
bool AsyncWebServer::removeHandler(AsyncWebHandler *handler){
return _handlers.remove(handler);
}
void AsyncWebServer::begin(){
_server.setNoDelay(true);
_server.begin();
}
void AsyncWebServer::end(){
_server.end();
}
#if ASYNC_TCP_SSL_ENABLED
void AsyncWebServer::onSslFileRequest(AcSSlFileHandler cb, void* arg){
_server.onSslFileRequest(cb, arg);
}
void AsyncWebServer::beginSecure(const char *cert, const char *key, const char *password){
_server.beginSecure(cert, key, password);
}
#endif
void AsyncWebServer::_handleDisconnect(AsyncWebServerRequest *request){
delete request;
}
void AsyncWebServer::_rewriteRequest(AsyncWebServerRequest *request){
for(const auto& r: _rewrites){
if (r->match(request)){
request->_url = r->toUrl();
request->_addGetParams(r->params());
}
}
}
void AsyncWebServer::_attachHandler(AsyncWebServerRequest *request){
for(const auto& h: _handlers){
if (h->filter(request) && h->canHandle(request)){
request->setHandler(h);
return;
}
}
request->addInterestingHeader(F("ANY"));
request->setHandler(_catchAllHandler);
}
AsyncCallbackWebHandler& AsyncWebServer::on(const char* uri, WebRequestMethodComposite method, ArRequestHandlerFunction onRequest, ArUploadHandlerFunction onUpload, ArBodyHandlerFunction onBody){
AsyncCallbackWebHandler* handler = new AsyncCallbackWebHandler();
handler->setUri(uri);
handler->setMethod(method);
handler->onRequest(onRequest);
handler->onUpload(onUpload);
handler->onBody(onBody);
addHandler(handler);
return *handler;
}
AsyncCallbackWebHandler& AsyncWebServer::on(const char* uri, WebRequestMethodComposite method, ArRequestHandlerFunction onRequest, ArUploadHandlerFunction onUpload){
AsyncCallbackWebHandler* handler = new AsyncCallbackWebHandler();
handler->setUri(uri);
handler->setMethod(method);
handler->onRequest(onRequest);
handler->onUpload(onUpload);
addHandler(handler);
return *handler;
}
AsyncCallbackWebHandler& AsyncWebServer::on(const char* uri, WebRequestMethodComposite method, ArRequestHandlerFunction onRequest){
AsyncCallbackWebHandler* handler = new AsyncCallbackWebHandler();
handler->setUri(uri);
handler->setMethod(method);
handler->onRequest(onRequest);
addHandler(handler);
return *handler;
}
AsyncCallbackWebHandler& AsyncWebServer::on(const char* uri, ArRequestHandlerFunction onRequest){
AsyncCallbackWebHandler* handler = new AsyncCallbackWebHandler();
handler->setUri(uri);
handler->onRequest(onRequest);
addHandler(handler);
return *handler;
}
AsyncStaticWebHandler& AsyncWebServer::serveStatic(const char* uri, fs::FS& fs, const char* path, const char* cache_control){
AsyncStaticWebHandler* handler = new AsyncStaticWebHandler(uri, fs, path, cache_control);
addHandler(handler);
return *handler;
}
void AsyncWebServer::onNotFound(ArRequestHandlerFunction fn){
_catchAllHandler->onRequest(fn);
}
void AsyncWebServer::onFileUpload(ArUploadHandlerFunction fn){
_catchAllHandler->onUpload(fn);
}
void AsyncWebServer::onRequestBody(ArBodyHandlerFunction fn){
_catchAllHandler->onBody(fn);
}
void AsyncWebServer::reset(){
_rewrites.free();
_handlers.free();
if (_catchAllHandler != NULL){
_catchAllHandler->onRequest(NULL);
_catchAllHandler->onUpload(NULL);
_catchAllHandler->onBody(NULL);
}
}

191
lib/OneWire/OneWire.h
View File

@@ -65,22 +65,22 @@
#define IO_REG_BASE_ATTR asm("r30")
#define IO_REG_MASK_ATTR
#define DIRECT_READ(base, mask) (((*(base)) & (mask)) ? 1 : 0)
#define DIRECT_MODE_INPUT(base, mask) ((*((base)+1)) &= ~(mask))
#define DIRECT_MODE_OUTPUT(base, mask) ((*((base)+1)) |= (mask))
#define DIRECT_WRITE_LOW(base, mask) ((*((base)+2)) &= ~(mask))
#define DIRECT_WRITE_HIGH(base, mask) ((*((base)+2)) |= (mask))
#define DIRECT_MODE_INPUT(base, mask) ((*((base) + 1)) &= ~(mask))
#define DIRECT_MODE_OUTPUT(base, mask) ((*((base) + 1)) |= (mask))
#define DIRECT_WRITE_LOW(base, mask) ((*((base) + 2)) &= ~(mask))
#define DIRECT_WRITE_HIGH(base, mask) ((*((base) + 2)) |= (mask))
#elif defined(__MK20DX128__) || defined(__MK20DX256__) || defined(__MK66FX1M0__) || defined(__MK64FX512__)
#define PIN_TO_BASEREG(pin) (portOutputRegister(pin))
#define PIN_TO_BITMASK(pin) (1)
#define IO_REG_TYPE uint8_t
#define IO_REG_BASE_ATTR
#define IO_REG_MASK_ATTR __attribute__ ((unused))
#define DIRECT_READ(base, mask) (*((base)+512))
#define DIRECT_MODE_INPUT(base, mask) (*((base)+640) = 0)
#define DIRECT_MODE_OUTPUT(base, mask) (*((base)+640) = 1)
#define DIRECT_WRITE_LOW(base, mask) (*((base)+256) = 1)
#define DIRECT_WRITE_HIGH(base, mask) (*((base)+128) = 1)
#define IO_REG_MASK_ATTR __attribute__((unused))
#define DIRECT_READ(base, mask) (*((base) + 512))
#define DIRECT_MODE_INPUT(base, mask) (*((base) + 640) = 0)
#define DIRECT_MODE_OUTPUT(base, mask) (*((base) + 640) = 1)
#define DIRECT_WRITE_LOW(base, mask) (*((base) + 256) = 1)
#define DIRECT_WRITE_HIGH(base, mask) (*((base) + 128) = 1)
#elif defined(__MKL26Z64__)
#define PIN_TO_BASEREG(pin) (portOutputRegister(pin))
@@ -88,11 +88,11 @@
#define IO_REG_TYPE uint8_t
#define IO_REG_BASE_ATTR
#define IO_REG_MASK_ATTR
#define DIRECT_READ(base, mask) ((*((base)+16) & (mask)) ? 1 : 0)
#define DIRECT_MODE_INPUT(base, mask) (*((base)+20) &= ~(mask))
#define DIRECT_MODE_OUTPUT(base, mask) (*((base)+20) |= (mask))
#define DIRECT_WRITE_LOW(base, mask) (*((base)+8) = (mask))
#define DIRECT_WRITE_HIGH(base, mask) (*((base)+4) = (mask))
#define DIRECT_READ(base, mask) ((*((base) + 16) & (mask)) ? 1 : 0)
#define DIRECT_MODE_INPUT(base, mask) (*((base) + 20) &= ~(mask))
#define DIRECT_MODE_OUTPUT(base, mask) (*((base) + 20) |= (mask))
#define DIRECT_WRITE_LOW(base, mask) (*((base) + 8) = (mask))
#define DIRECT_WRITE_HIGH(base, mask) (*((base) + 4) = (mask))
#elif defined(__SAM3X8E__) || defined(__SAM3A8C__) || defined(__SAM3A4C__)
// Arduino 1.5.1 may have a bug in delayMicroseconds() on Arduino Due.
@@ -104,11 +104,11 @@
#define IO_REG_TYPE uint32_t
#define IO_REG_BASE_ATTR
#define IO_REG_MASK_ATTR
#define DIRECT_READ(base, mask) (((*((base)+15)) & (mask)) ? 1 : 0)
#define DIRECT_MODE_INPUT(base, mask) ((*((base)+5)) = (mask))
#define DIRECT_MODE_OUTPUT(base, mask) ((*((base)+4)) = (mask))
#define DIRECT_WRITE_LOW(base, mask) ((*((base)+13)) = (mask))
#define DIRECT_WRITE_HIGH(base, mask) ((*((base)+12)) = (mask))
#define DIRECT_READ(base, mask) (((*((base) + 15)) & (mask)) ? 1 : 0)
#define DIRECT_MODE_INPUT(base, mask) ((*((base) + 5)) = (mask))
#define DIRECT_MODE_OUTPUT(base, mask) ((*((base) + 4)) = (mask))
#define DIRECT_WRITE_LOW(base, mask) ((*((base) + 13)) = (mask))
#define DIRECT_WRITE_HIGH(base, mask) ((*((base) + 12)) = (mask))
#ifndef PROGMEM
#define PROGMEM
#endif
@@ -122,11 +122,11 @@
#define IO_REG_TYPE uint32_t
#define IO_REG_BASE_ATTR
#define IO_REG_MASK_ATTR
#define DIRECT_READ(base, mask) (((*(base+4)) & (mask)) ? 1 : 0) //PORTX + 0x10
#define DIRECT_MODE_INPUT(base, mask) ((*(base+2)) = (mask)) //TRISXSET + 0x08
#define DIRECT_MODE_OUTPUT(base, mask) ((*(base+1)) = (mask)) //TRISXCLR + 0x04
#define DIRECT_WRITE_LOW(base, mask) ((*(base+8+1)) = (mask)) //LATXCLR + 0x24
#define DIRECT_WRITE_HIGH(base, mask) ((*(base+8+2)) = (mask)) //LATXSET + 0x28
#define DIRECT_READ(base, mask) (((*(base + 4)) & (mask)) ? 1 : 0) //PORTX + 0x10
#define DIRECT_MODE_INPUT(base, mask) ((*(base + 2)) = (mask)) //TRISXSET + 0x08
#define DIRECT_MODE_OUTPUT(base, mask) ((*(base + 1)) = (mask)) //TRISXCLR + 0x04
#define DIRECT_WRITE_LOW(base, mask) ((*(base + 8 + 1)) = (mask)) //LATXCLR + 0x24
#define DIRECT_WRITE_HIGH(base, mask) ((*(base + 8 + 2)) = (mask)) //LATXSET + 0x28
#elif defined(ARDUINO_ARCH_ESP8266)
// Special note: I depend on the ESP community to maintain these definitions and
@@ -134,7 +134,7 @@
// resolve any problems related to ESP chips. Please do not contact me and please
// DO NOT CREATE GITHUB ISSUES for ESP support. All ESP questions must be asked
// on ESP community forums.
#define PIN_TO_BASEREG(pin) ((volatile uint32_t*) GPO)
#define PIN_TO_BASEREG(pin) ((volatile uint32_t *)GPO)
#define PIN_TO_BITMASK(pin) (1 << pin)
#define IO_REG_TYPE uint32_t
#define IO_REG_BASE_ATTR
@@ -156,9 +156,7 @@
#define IO_REG_BASE_ATTR
#define IO_REG_MASK_ATTR
static inline __attribute__((always_inline))
IO_REG_TYPE directRead(IO_REG_TYPE pin)
{
static inline __attribute__((always_inline)) IO_REG_TYPE directRead(IO_REG_TYPE pin) {
// return digitalRead(pin); // Works most of the time
// return gpio_ll_get_level(&GPIO, pin); // The hal is not public api, don't use in application code
@@ -166,18 +164,15 @@ IO_REG_TYPE directRead(IO_REG_TYPE pin)
#if SOC_GPIO_PIN_COUNT <= 32
return (GPIO.in.val >> pin) & 0x1;
#else // ESP32 with over 32 gpios
if ( pin < 32 )
if (pin < 32)
return (GPIO.in >> pin) & 0x1;
else
return (GPIO.in1.val >> (pin - 32)) & 0x1;
#endif
return 0;
}
static inline __attribute__((always_inline))
void directWriteLow(IO_REG_TYPE pin)
{
static inline __attribute__((always_inline)) void directWriteLow(IO_REG_TYPE pin) {
// digitalWrite(pin, 0); // Works most of the time
// gpio_ll_set_level(&GPIO, pin, 0); // The hal is not public api, don't use in application code
@@ -185,16 +180,14 @@ void directWriteLow(IO_REG_TYPE pin)
#if SOC_GPIO_PIN_COUNT <= 32
GPIO.out_w1tc.val = ((uint32_t)1 << pin);
#else // ESP32 with over 32 gpios
if ( pin < 32 )
if (pin < 32)
GPIO.out_w1tc = ((uint32_t)1 << pin);
else
GPIO.out1_w1tc.val = ((uint32_t)1 << (pin - 32));
#endif
}
static inline __attribute__((always_inline))
void directWriteHigh(IO_REG_TYPE pin)
{
static inline __attribute__((always_inline)) void directWriteHigh(IO_REG_TYPE pin) {
// digitalWrite(pin, 1); // Works most of the time
// gpio_ll_set_level(&GPIO, pin, 1); // The hal is not public api, don't use in application code
@@ -202,58 +195,56 @@ void directWriteHigh(IO_REG_TYPE pin)
#if SOC_GPIO_PIN_COUNT <= 32
GPIO.out_w1ts.val = ((uint32_t)1 << pin);
#else // ESP32 with over 32 gpios
if ( pin < 32 )
if (pin < 32)
GPIO.out_w1ts = ((uint32_t)1 << pin);
else
GPIO.out1_w1ts.val = ((uint32_t)1 << (pin - 32));
#endif
}
static inline __attribute__((always_inline))
void directModeInput(IO_REG_TYPE pin)
{
// pinMode(pin, INPUT); // Too slow - doesn't work
// gpio_ll_output_disable(&GPIO, pin); // The hal is not public api, don't use in application code
if ( digitalPinIsValid(pin) )
{
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wtype-limits"
static inline __attribute__((always_inline)) void directModeInput(IO_REG_TYPE pin) {
// pinMode(pin, INPUT); // Too slow - doesn't work
// gpio_ll_output_disable(&GPIO, pin); // The hal is not public api, don't use in application code
if (digitalPinIsValid(pin)) {
// Input
//#if CONFIG_IDF_TARGET_ESP32C2 || CONFIG_IDF_TARGET_ESP32C3 || CONFIG_IDF_TARGET_ESP32C6
#if SOC_GPIO_PIN_COUNT <= 32
GPIO.enable_w1tc.val = ((uint32_t)1 << (pin));
#else // ESP32 with over 32 gpios
if ( pin < 32 )
if (pin < 32)
GPIO.enable_w1tc = ((uint32_t)1 << pin);
else
GPIO.enable1_w1tc.val = ((uint32_t)1 << (pin - 32));
#endif
}
}
static inline __attribute__((always_inline))
void directModeOutput(IO_REG_TYPE pin)
{
// pinMode(pin, OUTPUT); // Too slow - doesn't work
// gpio_ll_output_enable(&GPIO, pin); // The hal is not public api, don't use in application code
static inline __attribute__((always_inline)) void directModeOutput(IO_REG_TYPE pin) {
// pinMode(pin, OUTPUT); // Too slow - doesn't work
// gpio_ll_output_enable(&GPIO, pin); // The hal is not public api, don't use in application code
if ( digitalPinCanOutput(pin) )
{
if (digitalPinCanOutput(pin)) {
// Output
//#if CONFIG_IDF_TARGET_ESP32C2 || CONFIG_IDF_TARGET_ESP32C3 || CONFIG_IDF_TARGET_ESP32C6
#if SOC_GPIO_PIN_COUNT <= 32
GPIO.enable_w1ts.val = ((uint32_t)1 << (pin));
#else // ESP32 with over 32 gpios
if ( pin < 32 )
if (pin < 32)
GPIO.enable_w1ts = ((uint32_t)1 << pin);
else
GPIO.enable1_w1ts.val = ((uint32_t)1 << (pin - 32));
#endif
}
}
#pragma GCC diagnostic pop
#define DIRECT_READ(base, pin) directRead(pin)
#define DIRECT_WRITE_LOW(base, pin) directWriteLow(pin)
#define DIRECT_WRITE_HIGH(base, pin) directWriteHigh(pin)
@@ -266,11 +257,11 @@ void directModeOutput(IO_REG_TYPE pin)
#define IO_REG_TYPE uint32_t
#define IO_REG_BASE_ATTR
#define IO_REG_MASK_ATTR
#define DIRECT_READ(base, mask) (((*((base)+8)) & (mask)) ? 1 : 0)
#define DIRECT_MODE_INPUT(base, mask) ((*((base)+1)) = (mask))
#define DIRECT_MODE_OUTPUT(base, mask) ((*((base)+2)) = (mask))
#define DIRECT_WRITE_LOW(base, mask) ((*((base)+5)) = (mask))
#define DIRECT_WRITE_HIGH(base, mask) ((*((base)+6)) = (mask))
#define DIRECT_READ(base, mask) (((*((base) + 8)) & (mask)) ? 1 : 0)
#define DIRECT_MODE_INPUT(base, mask) ((*((base) + 1)) = (mask))
#define DIRECT_MODE_OUTPUT(base, mask) ((*((base) + 2)) = (mask))
#define DIRECT_WRITE_LOW(base, mask) ((*((base) + 5)) = (mask))
#define DIRECT_WRITE_HIGH(base, mask) ((*((base) + 6)) = (mask))
#elif defined(RBL_NRF51822)
#define PIN_TO_BASEREG(pin) (0)
@@ -305,9 +296,7 @@ void directModeOutput(IO_REG_TYPE pin)
#define IO_REG_BASE_ATTR
#define IO_REG_MASK_ATTR
static inline __attribute__((always_inline))
IO_REG_TYPE directRead(volatile IO_REG_TYPE *base, IO_REG_TYPE pin)
{
static inline __attribute__((always_inline)) IO_REG_TYPE directRead(volatile IO_REG_TYPE * base, IO_REG_TYPE pin) {
IO_REG_TYPE ret;
if (SS_GPIO == GPIO_TYPE(pin)) {
ret = READ_ARC_REG(((IO_REG_TYPE)base + EXT_PORT_OFFSET_SS));
@@ -317,31 +306,23 @@ IO_REG_TYPE directRead(volatile IO_REG_TYPE *base, IO_REG_TYPE pin)
return ((ret >> GPIO_ID(pin)) & 0x01);
}
static inline __attribute__((always_inline))
void directModeInput(volatile IO_REG_TYPE *base, IO_REG_TYPE pin)
{
static inline __attribute__((always_inline)) void directModeInput(volatile IO_REG_TYPE * base, IO_REG_TYPE pin) {
if (SS_GPIO == GPIO_TYPE(pin)) {
WRITE_ARC_REG(READ_ARC_REG((((IO_REG_TYPE)base) + DIR_OFFSET_SS)) & ~(0x01 << GPIO_ID(pin)),
((IO_REG_TYPE)(base) + DIR_OFFSET_SS));
WRITE_ARC_REG(READ_ARC_REG((((IO_REG_TYPE)base) + DIR_OFFSET_SS)) & ~(0x01 << GPIO_ID(pin)), ((IO_REG_TYPE)(base) + DIR_OFFSET_SS));
} else {
MMIO_REG_VAL_FROM_BASE((IO_REG_TYPE)base, DIR_OFFSET_SOC) &= ~(0x01 << GPIO_ID(pin));
}
}
static inline __attribute__((always_inline))
void directModeOutput(volatile IO_REG_TYPE *base, IO_REG_TYPE pin)
{
static inline __attribute__((always_inline)) void directModeOutput(volatile IO_REG_TYPE * base, IO_REG_TYPE pin) {
if (SS_GPIO == GPIO_TYPE(pin)) {
WRITE_ARC_REG(READ_ARC_REG(((IO_REG_TYPE)(base) + DIR_OFFSET_SS)) | (0x01 << GPIO_ID(pin)),
((IO_REG_TYPE)(base) + DIR_OFFSET_SS));
WRITE_ARC_REG(READ_ARC_REG(((IO_REG_TYPE)(base) + DIR_OFFSET_SS)) | (0x01 << GPIO_ID(pin)), ((IO_REG_TYPE)(base) + DIR_OFFSET_SS));
} else {
MMIO_REG_VAL_FROM_BASE((IO_REG_TYPE)base, DIR_OFFSET_SOC) |= (0x01 << GPIO_ID(pin));
}
}
static inline __attribute__((always_inline))
void directWriteLow(volatile IO_REG_TYPE *base, IO_REG_TYPE pin)
{
static inline __attribute__((always_inline)) void directWriteLow(volatile IO_REG_TYPE * base, IO_REG_TYPE pin) {
if (SS_GPIO == GPIO_TYPE(pin)) {
WRITE_ARC_REG(READ_ARC_REG(base) & ~(0x01 << GPIO_ID(pin)), base);
} else {
@@ -349,9 +330,7 @@ void directWriteLow(volatile IO_REG_TYPE *base, IO_REG_TYPE pin)
}
}
static inline __attribute__((always_inline))
void directWriteHigh(volatile IO_REG_TYPE *base, IO_REG_TYPE pin)
{
static inline __attribute__((always_inline)) void directWriteHigh(volatile IO_REG_TYPE * base, IO_REG_TYPE pin) {
if (SS_GPIO == GPIO_TYPE(pin)) {
WRITE_ARC_REG(READ_ARC_REG(base) | (0x01 << GPIO_ID(pin)), base);
} else {
@@ -380,15 +359,11 @@ void directWriteHigh(volatile IO_REG_TYPE *base, IO_REG_TYPE pin)
#define IO_REG_BASE_ATTR
#define IO_REG_MASK_ATTR
static inline __attribute__((always_inline))
IO_REG_TYPE directRead(IO_REG_TYPE mask)
{
static inline __attribute__((always_inline)) IO_REG_TYPE directRead(IO_REG_TYPE mask) {
return ((GPIO_REG(GPIO_INPUT_VAL) & mask) != 0) ? 1 : 0;
}
static inline __attribute__((always_inline))
void directModeInput(IO_REG_TYPE mask)
{
static inline __attribute__((always_inline)) void directModeInput(IO_REG_TYPE mask) {
GPIO_REG(GPIO_OUTPUT_XOR) &= ~mask;
GPIO_REG(GPIO_IOF_EN) &= ~mask;
@@ -396,9 +371,7 @@ void directModeInput(IO_REG_TYPE mask)
GPIO_REG(GPIO_OUTPUT_EN) &= ~mask;
}
static inline __attribute__((always_inline))
void directModeOutput(IO_REG_TYPE mask)
{
static inline __attribute__((always_inline)) void directModeOutput(IO_REG_TYPE mask) {
GPIO_REG(GPIO_OUTPUT_XOR) &= ~mask;
GPIO_REG(GPIO_IOF_EN) &= ~mask;
@@ -406,15 +379,11 @@ void directModeOutput(IO_REG_TYPE mask)
GPIO_REG(GPIO_OUTPUT_EN) |= mask;
}
static inline __attribute__((always_inline))
void directWriteLow(IO_REG_TYPE mask)
{
static inline __attribute__((always_inline)) void directWriteLow(IO_REG_TYPE mask) {
GPIO_REG(GPIO_OUTPUT_VAL) &= ~mask;
}
static inline __attribute__((always_inline))
void directWriteHigh(IO_REG_TYPE mask)
{
static inline __attribute__((always_inline)) void directWriteHigh(IO_REG_TYPE mask) {
GPIO_REG(GPIO_OUTPUT_VAL) |= mask;
}
@@ -433,18 +402,17 @@ void directWriteHigh(IO_REG_TYPE mask)
#define DIRECT_READ(base, pin) digitalRead(pin)
#define DIRECT_WRITE_LOW(base, pin) digitalWrite(pin, LOW)
#define DIRECT_WRITE_HIGH(base, pin) digitalWrite(pin, HIGH)
#define DIRECT_MODE_INPUT(base, pin) pinMode(pin,INPUT)
#define DIRECT_MODE_OUTPUT(base, pin) pinMode(pin,OUTPUT)
#define DIRECT_MODE_INPUT(base, pin) pinMode(pin, INPUT)
#define DIRECT_MODE_OUTPUT(base, pin) pinMode(pin, OUTPUT)
#warning "OneWire. Fallback mode. Using API calls for pinMode,digitalRead and digitalWrite. Operation of this library is not guaranteed on this architecture."
#endif
class OneWire
{
class OneWire {
private:
IO_REG_TYPE bitmask;
volatile IO_REG_TYPE *baseReg;
volatile IO_REG_TYPE * baseReg;
#if ONEWIRE_SEARCH
// global search state
@@ -455,8 +423,11 @@ class OneWire
#endif
public:
OneWire() { }
OneWire(uint8_t pin) { begin(pin); }
OneWire() {
}
OneWire(uint8_t pin) {
begin(pin);
}
void begin(uint8_t pin);
// OneWire( uint8_t pin);
@@ -477,12 +448,12 @@ class OneWire
// another read or write.
void write(uint8_t v, uint8_t power = 0);
void write_bytes(const uint8_t *buf, uint16_t count, bool power = 0);
void write_bytes(const uint8_t * buf, uint16_t count, bool power = 0);
// Read a byte.
uint8_t read(void);
void read_bytes(uint8_t *buf, uint16_t count);
void read_bytes(uint8_t * buf, uint16_t count);
// Write a bit. The bus is always left powered at the end, see
// note in write() about that.
@@ -512,13 +483,13 @@ class OneWire
// might be a good idea to check the CRC to make sure you didn't
// get garbage. The order is deterministic. You will always get
// the same devices in the same order.
uint8_t search(uint8_t *newAddr, bool search_mode = true);
uint8_t search(uint8_t * newAddr, bool search_mode = true);
#endif
#if ONEWIRE_CRC
// Compute a Dallas Semiconductor 8 bit CRC, these are used in the
// ROM and scratchpad registers.
static uint8_t crc8(const uint8_t *addr, uint8_t len);
static uint8_t crc8(const uint8_t * addr, uint8_t len);
#if ONEWIRE_CRC16
// Compute the 1-Wire CRC16 and compare it against the received CRC.
@@ -541,7 +512,7 @@ class OneWire
// *not* at a 16-bit integer.
// @param crc - The crc starting value (optional)
// @return True, iff the CRC matches.
static bool check_crc16(const uint8_t* input, uint16_t len, const uint8_t* inverted_crc, uint16_t crc = 0);
static bool check_crc16(const uint8_t * input, uint16_t len, const uint8_t * inverted_crc, uint16_t crc = 0);
// Compute a Dallas Semiconductor 16 bit CRC. This is required to check
// the integrity of data received from many 1-Wire devices. Note that the
@@ -555,7 +526,7 @@ class OneWire
// @param len - How many bytes to use.
// @param crc - The crc starting value (optional)
// @return The CRC16, as defined by Dallas Semiconductor.
static uint16_t crc16(const uint8_t* input, uint16_t len, uint16_t crc = 0);
static uint16_t crc16(const uint8_t * input, uint16_t len, uint16_t crc = 0);
#endif
#endif
};

16
lib/PsychicHttp/CHANGELOG.md Normal file
View File

@@ -0,0 +1,16 @@
# v1.1
* Changed the internal structure to support request handlers on endpoints and generic requests that do not match an endpoint
* websockets, uploads, etc should now create an appropriate handler and attach to an endpoint with the server.on() syntax
* Added PsychicClient to abstract away some of the internals of ESP-IDF sockets + add convenience
* onOpen and onClose callbacks have changed as a result
* Added support for EventSource / SSE
* Added support for multipart file uploads
* changed getParam() to return a PsychicWebParameter in line with ESPAsyncWebserver
* Renamed various classes / files:
* PsychicHttpFileResponse -> PsychicFileResponse
* PsychicHttpServerEndpoint -> PsychicEndpoint
* PsychicHttpServerRequest -> PsychicRequest
* PsychicHttpServerResponse -> PsychicResponse
* PsychicHttpWebsocket.h -> PsychicWebSocket.h
* Websocket => WebSocket

2
lib/AsyncTCP/LICENSE → lib/PsychicHttp/LICENSE
View File

@@ -1,7 +1,7 @@
GNU LESSER GENERAL PUBLIC LICENSE
Version 3, 29 June 2007
Copyright (C) 2007 Free Software Foundation, Inc. <http://fsf.org/>
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.

44
lib/PsychicHttp/library.json Normal file
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@@ -0,0 +1,44 @@
{
"name": "PsychicHttp",
"version": "1.0.1",
"description": "Arduino style wrapper around ESP-IDF HTTP library. HTTP server with SSL + websockets. Works on esp32 and probably esp8266",
"keywords": "network,http,https,tcp,ssl,tls,websocket,espasyncwebserver",
"repository": {
"type": "git",
"url": "https://github.com/hoeken/PsychicHttp"
},
"authors": [
{
"name": "Zach Hoeken",
"email": "hoeken@gmail.com",
"maintainer": true
}
],
"license": "LGPL-3.0-or-later",
"examples": [
{
"name": "platformio",
"base": "examples/platformio",
"files": ["src/main.cpp"]
}
],
"frameworks": "arduino",
"platforms": "espressif32",
"dependencies": [
{
"owner": "bblanchon",
"name": "ArduinoJson",
"version": "^6.21.4"
},
{
"owner": "bblanchon",
"name": "ArduinoTrace",
"version": "^1.2.0"
},
{
"owner": "plageoj",
"name": "UrlEncode",
"version": "^1.0.1"
}
]
}

11
lib/PsychicHttp/library.properties Normal file
View File

@@ -0,0 +1,11 @@
name=PsychicHttp
version=1.0.1
author=Zach Hoeken <hoeken@gmail.com>
maintainer=Zach Hoeken <hoeken@gmail.com>
sentence=PsychicHttp is a robust webserver that supports http/https + websockets.
paragraph=This library is based on the ESP-IDF HTTP Server library which is asynchronous, does http / https+ssl and supports websockets.
category=Communication
architectures=esp32
url=https://github.com/hoeken/PsychicHttp
includes=PsychicHttp.h
depends=ArduinoJson,ArduinoTrace,UrlEncode

56
lib/PsychicHttp/src/ChunkPrinter.h Normal file
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@@ -0,0 +1,56 @@
#ifndef ChunkPrinter_h
#define ChunkPrinter_h
// #include "PsychicCore.h"
#include "PsychicResponse.h"
#include <Print.h>
class ChunkPrinter : public Print
{
private:
PsychicResponse *_response;
uint8_t *_buffer;
size_t _length;
size_t _pos;
public:
ChunkPrinter(PsychicResponse *response, uint8_t *buffer, size_t len) :
_response(response),
_buffer(buffer),
_length(len),
_pos(0)
{}
virtual ~ChunkPrinter() {}
size_t write(uint8_t c)
{
esp_err_t err;
_buffer[_pos] = c;
_pos++;
//if we're full, send a chunk
if (_pos == _length)
{
_pos = 0;
err = _response->sendChunk(_buffer, _length);
if (err != ESP_OK)
return 0;
}
return 1;
}
virtual void flush() override
{
if (_pos)
{
_response->sendChunk(_buffer, _pos);
_pos = 0;
}
}
};
#endif

72
lib/PsychicHttp/src/PsychicClient.cpp Normal file
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@@ -0,0 +1,72 @@
#include "PsychicClient.h"
#include "PsychicHttpServer.h"
#include <lwip/sockets.h>
PsychicClient::PsychicClient(httpd_handle_t server, int socket) :
_server(server),
_socket(socket),
_friend(NULL),
isNew(false)
{}
PsychicClient::~PsychicClient() {
}
httpd_handle_t PsychicClient::server() {
return _server;
}
int PsychicClient::socket() {
return _socket;
}
// I'm not sure this is entirely safe to call. I was having issues with race conditions when highly loaded using this.
esp_err_t PsychicClient::close()
{
esp_err_t err = httpd_sess_trigger_close(_server, _socket);
//PsychicHttpServer::closeCallback(_server, _socket); // call this immediately so the client is taken off the list.
return err;
}
IPAddress PsychicClient::localIP()
{
IPAddress address(0,0,0,0);
char ipstr[INET6_ADDRSTRLEN];
struct sockaddr_in6 addr; // esp_http_server uses IPv6 addressing
socklen_t addr_size = sizeof(addr);
if (getsockname(_socket, (struct sockaddr *)&addr, &addr_size) < 0) {
ESP_LOGE(PH_TAG, "Error getting client IP");
return address;
}
// Convert to IPv4 string
inet_ntop(AF_INET, &addr.sin6_addr.un.u32_addr[3], ipstr, sizeof(ipstr));
ESP_LOGI(PH_TAG, "Client Local IP => %s", ipstr);
address.fromString(ipstr);
return address;
}
IPAddress PsychicClient::remoteIP()
{
IPAddress address(0,0,0,0);
char ipstr[INET6_ADDRSTRLEN];
struct sockaddr_in6 addr; // esp_http_server uses IPv6 addressing
socklen_t addr_size = sizeof(addr);
if (getpeername(_socket, (struct sockaddr *)&addr, &addr_size) < 0) {
ESP_LOGE(PH_TAG, "Error getting client IP");
return address;
}
// Convert to IPv4 string
inet_ntop(AF_INET, &addr.sin6_addr.un.u32_addr[3], ipstr, sizeof(ipstr));
ESP_LOGI(PH_TAG, "Client Remote IP => %s", ipstr);
address.fromString(ipstr);
return address;
}

35
lib/PsychicHttp/src/PsychicClient.h Normal file
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@@ -0,0 +1,35 @@
#ifndef PsychicClient_h
#define PsychicClient_h
#include "PsychicCore.h"
/*
* PsychicClient :: Generic wrapper around the ESP-IDF socket
*/
class PsychicClient {
protected:
httpd_handle_t _server;
int _socket;
public:
PsychicClient(httpd_handle_t server, int socket);
~PsychicClient();
//no idea if this is the right way to do it or not, but lets see.
//pointer to our derived class (eg. PsychicWebSocketConnection)
void *_friend;
bool isNew = false;
bool operator==(PsychicClient& rhs) const { return _socket == rhs.socket(); }
httpd_handle_t server();
int socket();
esp_err_t close();
IPAddress localIP();
IPAddress remoteIP();
};
#endif

115
lib/PsychicHttp/src/PsychicCore.h Normal file
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@@ -0,0 +1,115 @@
#ifndef PsychicCore_h
#define PsychicCore_h
#define PH_TAG "psychic"
// version numbers
#define PSYCHIC_HTTP_VERSION_MAJOR 1
#define PSYCHIC_HTTP_VERSION_MINOR 1
#define PSYCHIC_HTTP_VERSION_PATCH 0
#ifndef MAX_COOKIE_SIZE
#define MAX_COOKIE_SIZE 512
#endif
#ifndef FILE_CHUNK_SIZE
#define FILE_CHUNK_SIZE 8 * 1024
#endif
#ifndef STREAM_CHUNK_SIZE
#define STREAM_CHUNK_SIZE 1024
#endif
#ifndef MAX_UPLOAD_SIZE
#define MAX_UPLOAD_SIZE (2048 * 1024) // 2MB
#endif
#ifndef MAX_REQUEST_BODY_SIZE
#define MAX_REQUEST_BODY_SIZE (16 * 1024) // 16K
#endif
#ifdef ARDUINO
#include <Arduino.h>
#include <ArduinoTrace.h>
#endif
#include <esp_http_server.h>
#include <map>
#include <list>
#include <libb64/cencode.h>
#include "esp_random.h"
#include "MD5Builder.h"
#include <UrlEncode.h>
#include "FS.h"
#include <ArduinoJson.h>
enum HTTPAuthMethod
{
BASIC_AUTH,
DIGEST_AUTH
};
String urlDecode(const char *encoded);
class PsychicHttpServer;
class PsychicRequest;
class PsychicWebSocketRequest;
class PsychicClient;
// filter function definition
typedef std::function<bool(PsychicRequest *request)> PsychicRequestFilterFunction;
// client connect callback
typedef std::function<void(PsychicClient *client)> PsychicClientCallback;
// callback definitions
typedef std::function<esp_err_t(PsychicRequest *request)> PsychicHttpRequestCallback;
typedef std::function<esp_err_t(PsychicRequest *request, JsonVariant &json)> PsychicJsonRequestCallback;
struct HTTPHeader
{
char *field;
char *value;
};
class DefaultHeaders
{
std::list<HTTPHeader> _headers;
public:
DefaultHeaders() {}
void addHeader(const String &field, const String &value)
{
addHeader(field.c_str(), value.c_str());
}
void addHeader(const char *field, const char *value)
{
HTTPHeader header;
// these are just going to stick around forever.
header.field = (char *)malloc(strlen(field) + 1);
header.value = (char *)malloc(strlen(value) + 1);
strlcpy(header.field, field, strlen(field) + 1);
strlcpy(header.value, value, strlen(value) + 1);
_headers.push_back(header);
}
const std::list<HTTPHeader> &getHeaders() { return _headers; }
// delete the copy constructor, singleton class
DefaultHeaders(DefaultHeaders const &) = delete;
DefaultHeaders &operator=(DefaultHeaders const &) = delete;
// single static class interface
static DefaultHeaders &Instance()
{
static DefaultHeaders instance;
return instance;
}
};
#endif // PsychicCore_h

90
lib/PsychicHttp/src/PsychicEndpoint.cpp Normal file
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@@ -0,0 +1,90 @@
#include "PsychicEndpoint.h"
#include "PsychicHttpServer.h"
PsychicEndpoint::PsychicEndpoint() :
_server(NULL),
_uri(""),
_method(HTTP_GET),
_handler(NULL)
{
}
PsychicEndpoint::PsychicEndpoint(PsychicHttpServer *server, http_method method, const char * uri) :
_server(server),
_uri(uri),
_method(method),
_handler(NULL)
{
}
PsychicEndpoint * PsychicEndpoint::setHandler(PsychicHandler *handler)
{
//clean up old / default handler
if (_handler != NULL)
delete _handler;
//get our new pointer
_handler = handler;
//keep a pointer to the server
_handler->_server = _server;
return this;
}
PsychicHandler * PsychicEndpoint::handler()
{
return _handler;
}
String PsychicEndpoint::uri() {
return _uri;
}
esp_err_t PsychicEndpoint::requestCallback(httpd_req_t *req)
{
#ifdef ENABLE_ASYNC
if (is_on_async_worker_thread() == false) {
if (submit_async_req(req, PsychicEndpoint::requestCallback) == ESP_OK) {
return ESP_OK;
} else {
httpd_resp_set_status(req, "503 Busy");
httpd_resp_sendstr(req, "No workers available. Server busy.</div>");
return ESP_OK;
}
}
#endif
PsychicEndpoint *self = (PsychicEndpoint *)req->user_ctx;
PsychicHandler *handler = self->handler();
PsychicRequest request(self->_server, req);
//make sure we have a handler
if (handler != NULL)
{
if (handler->filter(&request) && handler->canHandle(&request))
{
//check our credentials
if (handler->needsAuthentication(&request))
return handler->authenticate(&request);
//pass it to our handler
return handler->handleRequest(&request);
}
//pass it to our generic handlers
else
return PsychicHttpServer::notFoundHandler(req, HTTPD_500_INTERNAL_SERVER_ERROR);
}
else
return request.reply(500, "text/html", "No handler registered.");
}
PsychicEndpoint* PsychicEndpoint::setFilter(PsychicRequestFilterFunction fn) {
_handler->setFilter(fn);
return this;
}
PsychicEndpoint* PsychicEndpoint::setAuthentication(const char *username, const char *password, HTTPAuthMethod method, const char *realm, const char *authFailMsg) {
_handler->setAuthentication(username, password, method, realm, authFailMsg);
return this;
};

37
lib/PsychicHttp/src/PsychicEndpoint.h Normal file
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@@ -0,0 +1,37 @@
#ifndef PsychicEndpoint_h
#define PsychicEndpoint_h
#include "PsychicCore.h"
class PsychicHandler;
#ifdef ENABLE_ASYNC
#include "async_worker.h"
#endif
class PsychicEndpoint
{
friend PsychicHttpServer;
private:
PsychicHttpServer *_server;
String _uri;
http_method _method;
PsychicHandler *_handler;
public:
PsychicEndpoint();
PsychicEndpoint(PsychicHttpServer *server, http_method method, const char * uri);
PsychicEndpoint *setHandler(PsychicHandler *handler);
PsychicHandler *handler();
PsychicEndpoint* setFilter(PsychicRequestFilterFunction fn);
PsychicEndpoint* setAuthentication(const char *username, const char *password, HTTPAuthMethod method = BASIC_AUTH, const char *realm = "", const char *authFailMsg = "");
String uri();
static esp_err_t requestCallback(httpd_req_t *req);
};
#endif // PsychicEndpoint_h

227
lib/PsychicHttp/src/PsychicEventSource.cpp Normal file
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@@ -0,0 +1,227 @@
/*
Asynchronous WebServer library for Espressif MCUs
Copyright (c) 2016 Hristo Gochkov. All rights reserved.
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 "PsychicEventSource.h"
/*****************************************/
// PsychicEventSource - Handler
/*****************************************/
PsychicEventSource::PsychicEventSource() :
PsychicHandler(),
_onOpen(NULL),
_onClose(NULL)
{}
PsychicEventSource::~PsychicEventSource() {
}
PsychicEventSourceClient * PsychicEventSource::getClient(int socket)
{
PsychicClient *client = PsychicHandler::getClient(socket);
if (client == NULL)
return NULL;
return (PsychicEventSourceClient *)client->_friend;
}
PsychicEventSourceClient * PsychicEventSource::getClient(PsychicClient *client) {
return getClient(client->socket());
}
esp_err_t PsychicEventSource::handleRequest(PsychicRequest *request)
{
//start our open ended HTTP response
PsychicEventSourceResponse response(request);
esp_err_t err = response.send();
//lookup our client
PsychicClient *client = checkForNewClient(request->client());
if (client->isNew)
{
//did we get our last id?
if(request->hasHeader("Last-Event-ID"))
{
PsychicEventSourceClient *buddy = getClient(client);
buddy->_lastId = atoi(request->header("Last-Event-ID").c_str());
}
//let our handler know.
openCallback(client);
}
return err;
}
PsychicEventSource * PsychicEventSource::onOpen(PsychicEventSourceClientCallback fn) {
_onOpen = fn;
return this;
}
PsychicEventSource * PsychicEventSource::onClose(PsychicEventSourceClientCallback fn) {
_onClose = fn;
return this;
}
void PsychicEventSource::addClient(PsychicClient *client) {
client->_friend = new PsychicEventSourceClient(client);
PsychicHandler::addClient(client);
}
void PsychicEventSource::removeClient(PsychicClient *client) {
PsychicHandler::removeClient(client);
delete (PsychicEventSourceClient*)client->_friend;
client->_friend = NULL;
}
void PsychicEventSource::openCallback(PsychicClient *client) {
PsychicEventSourceClient *buddy = getClient(client);
if (buddy == NULL)
{
TRACE();
return;
}
if (_onOpen != NULL)
_onOpen(buddy);
}
void PsychicEventSource::closeCallback(PsychicClient *client) {
PsychicEventSourceClient *buddy = getClient(client);
if (buddy == NULL)
{
TRACE();
return;
}
if (_onClose != NULL)
_onClose(getClient(buddy));
}
void PsychicEventSource::send(const char *message, const char *event, uint32_t id, uint32_t reconnect)
{
String ev = generateEventMessage(message, event, id, reconnect);
for(PsychicClient *c : _clients) {
((PsychicEventSourceClient*)c->_friend)->sendEvent(ev.c_str());
}
}
/*****************************************/
// PsychicEventSourceClient
/*****************************************/
PsychicEventSourceClient::PsychicEventSourceClient(PsychicClient *client) :
PsychicClient(client->server(), client->socket()),
_lastId(0)
{
}
PsychicEventSourceClient::~PsychicEventSourceClient(){
}
void PsychicEventSourceClient::send(const char *message, const char *event, uint32_t id, uint32_t reconnect){
String ev = generateEventMessage(message, event, id, reconnect);
sendEvent(ev.c_str());
}
void PsychicEventSourceClient::sendEvent(const char *event) {
int result;
do {
result = httpd_socket_send(this->server(), this->socket(), event, strlen(event), 0);
} while (result == HTTPD_SOCK_ERR_TIMEOUT);
//if (result < 0)
//error log here
}
/*****************************************/
// PsychicEventSourceResponse
/*****************************************/
PsychicEventSourceResponse::PsychicEventSourceResponse(PsychicRequest *request)
: PsychicResponse(request)
{
}
esp_err_t PsychicEventSourceResponse::send() {
//build our main header
String out = String();
out.concat("HTTP/1.1 200 OK\r\n");
out.concat("Content-Type: text/event-stream\r\n");
out.concat("Cache-Control: no-cache\r\n");
out.concat("Connection: keep-alive\r\n");
//get our global headers out of the way first
for (HTTPHeader header : DefaultHeaders::Instance().getHeaders())
out.concat(String(header.field) + ": " + String(header.value) + "\r\n");
//separator
out.concat("\r\n");
int result;
do {
result = httpd_send(_request->request(), out.c_str(), out.length());
} while (result == HTTPD_SOCK_ERR_TIMEOUT);
if (result < 0)
ESP_LOGE(PH_TAG, "EventSource send failed with %s", esp_err_to_name(result));
if (result > 0)
return ESP_OK;
else
return ESP_ERR_HTTPD_RESP_SEND;
}
/*****************************************/
// Event Message Generator
/*****************************************/
String generateEventMessage(const char *message, const char *event, uint32_t id, uint32_t reconnect) {
String ev = "";
if(reconnect){
ev += "retry: ";
ev += String(reconnect);
ev += "\r\n";
}
if(id){
ev += "id: ";
ev += String(id);
ev += "\r\n";
}
if(event != NULL){
ev += "event: ";
ev += String(event);
ev += "\r\n";
}
if(message != NULL){
ev += "data: ";
ev += String(message);
ev += "\r\n";
}
ev += "\r\n";
return ev;
}

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/*
Asynchronous WebServer library for Espressif MCUs
Copyright (c) 2016 Hristo Gochkov. All rights reserved.
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 PsychicEventSource_H_
#define PsychicEventSource_H_
#include "PsychicCore.h"
#include "PsychicHandler.h"
#include "PsychicClient.h"
#include "PsychicResponse.h"
class PsychicEventSource;
class PsychicEventSourceResponse;
class PsychicEventSourceClient;
class PsychicResponse;
typedef std::function<void(PsychicEventSourceClient *client)> PsychicEventSourceClientCallback;
class PsychicEventSourceClient : public PsychicClient {
friend PsychicEventSource;
protected:
uint32_t _lastId;
public:
PsychicEventSourceClient(PsychicClient *client);
~PsychicEventSourceClient();
uint32_t lastId() const { return _lastId; }
void send(const char *message, const char *event=NULL, uint32_t id=0, uint32_t reconnect=0);
void sendEvent(const char *event);
};
class PsychicEventSource : public PsychicHandler {
private:
PsychicEventSourceClientCallback _onOpen;
PsychicEventSourceClientCallback _onClose;
public:
PsychicEventSource();
~PsychicEventSource();
PsychicEventSourceClient * getClient(int socket) override;
PsychicEventSourceClient * getClient(PsychicClient *client) override;
void addClient(PsychicClient *client) override;
void removeClient(PsychicClient *client) override;
void openCallback(PsychicClient *client) override;
void closeCallback(PsychicClient *client) override;
PsychicEventSource *onOpen(PsychicEventSourceClientCallback fn);
PsychicEventSource *onClose(PsychicEventSourceClientCallback fn);
esp_err_t handleRequest(PsychicRequest *request) override final;
void send(const char *message, const char *event=NULL, uint32_t id=0, uint32_t reconnect=0);
};
class PsychicEventSourceResponse: public PsychicResponse {
public:
PsychicEventSourceResponse(PsychicRequest *request);
virtual esp_err_t send() override;
};
String generateEventMessage(const char *message, const char *event, uint32_t id, uint32_t reconnect);
#endif /* PsychicEventSource_H_ */

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#include "PsychicFileResponse.h"
#include "PsychicResponse.h"
#include "PsychicRequest.h"
PsychicFileResponse::PsychicFileResponse(PsychicRequest *request, FS &fs, const String& path, const String& contentType, bool download)
: PsychicResponse(request) {
//_code = 200;
_path = path;
if(!download && !fs.exists(_path) && fs.exists(_path+".gz")){
_path = _path+".gz";
addHeader("Content-Encoding", "gzip");
_sendContentLength = true;
_chunked = false;
}
_content = fs.open(_path, "r");
_contentLength = _content.size();
if(contentType == "")
_setContentType(path);
else
_contentType = contentType;
setContentType(_contentType.c_str());
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(buf, sizeof (buf), "attachment; filename=\"%s\"", filename);
} else {
// set filename and force rendering
snprintf(buf, sizeof (buf), "inline; filename=\"%s\"", filename);
}
addHeader("Content-Disposition", buf);
}
PsychicFileResponse::PsychicFileResponse(PsychicRequest *request, File content, const String& path, const String& contentType, bool download)
: PsychicResponse(request) {
_path = path;
if(!download && String(content.name()).endsWith(".gz") && !path.endsWith(".gz")){
addHeader("Content-Encoding", "gzip");
_sendContentLength = true;
_chunked = false;
}
_content = content;
_contentLength = _content.size();
setContentLength(_contentLength);
if(contentType == "")
_setContentType(path);
else
_contentType = contentType;
setContentType(_contentType.c_str());
int filenameStart = path.lastIndexOf('/') + 1;
char buf[26+path.length()-filenameStart];
char* filename = (char*)path.c_str() + filenameStart;
if(download) {
snprintf(buf, sizeof (buf), "attachment; filename=\"%s\"", filename);
} else {
snprintf(buf, sizeof (buf), "inline; filename=\"%s\"", filename);
}
addHeader("Content-Disposition", buf);
}
PsychicFileResponse::~PsychicFileResponse()
{
if(_content)
_content.close();
}
void PsychicFileResponse::_setContentType(const String& path){
if (path.endsWith(".html")) _contentType = "text/html";
else if (path.endsWith(".htm")) _contentType = "text/html";
else if (path.endsWith(".css")) _contentType = "text/css";
else if (path.endsWith(".json")) _contentType = "application/json";
else if (path.endsWith(".js")) _contentType = "application/javascript";
else if (path.endsWith(".png")) _contentType = "image/png";
else if (path.endsWith(".gif")) _contentType = "image/gif";
else if (path.endsWith(".jpg")) _contentType = "image/jpeg";
else if (path.endsWith(".ico")) _contentType = "image/x-icon";
else if (path.endsWith(".svg")) _contentType = "image/svg+xml";
else if (path.endsWith(".eot")) _contentType = "font/eot";
else if (path.endsWith(".woff")) _contentType = "font/woff";
else if (path.endsWith(".woff2")) _contentType = "font/woff2";
else if (path.endsWith(".ttf")) _contentType = "font/ttf";
else if (path.endsWith(".xml")) _contentType = "text/xml";
else if (path.endsWith(".pdf")) _contentType = "application/pdf";
else if (path.endsWith(".zip")) _contentType = "application/zip";
else if(path.endsWith(".gz")) _contentType = "application/x-gzip";
else _contentType = "text/plain";
}
esp_err_t PsychicFileResponse::send()
{
esp_err_t err = ESP_OK;
//just send small files directly
size_t size = getContentLength();
if (size < FILE_CHUNK_SIZE)
{
uint8_t *buffer = (uint8_t *)malloc(size);
int readSize = _content.readBytes((char *)buffer, size);
this->setContent(buffer, size);
err = PsychicResponse::send();
free(buffer);
}
else
{
/* Retrieve the pointer to scratch buffer for temporary storage */
char *chunk = (char *)malloc(FILE_CHUNK_SIZE);
if (chunk == NULL)
{
/* Respond with 500 Internal Server Error */
httpd_resp_send_err(this->_request->request(), HTTPD_500_INTERNAL_SERVER_ERROR, "Unable to allocate memory.");
return ESP_FAIL;
}
this->sendHeaders();
size_t chunksize;
do {
/* Read file in chunks into the scratch buffer */
chunksize = _content.readBytes(chunk, FILE_CHUNK_SIZE);
if (chunksize > 0)
{
err = this->sendChunk((uint8_t *)chunk, chunksize);
if (err != ESP_OK)
break;
}
/* Keep looping till the whole file is sent */
} while (chunksize != 0);
//keep track of our memory
free(chunk);
if (err == ESP_OK)
{
ESP_LOGI(PH_TAG, "File sending complete");
this->finishChunking();
}
/* Close file after sending complete */
_content.close();
}
return err;
}

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#ifndef PsychicFileResponse_h
#define PsychicFileResponse_h
#include "PsychicCore.h"
#include "PsychicResponse.h"
class PsychicRequest;
class PsychicFileResponse: public PsychicResponse
{
using File = fs::File;
using FS = fs::FS;
private:
File _content;
String _path;
bool _sendContentLength;
bool _chunked;
String _contentType;
void _setContentType(const String& path);
public:
PsychicFileResponse(PsychicRequest *request, FS &fs, const String& path, const String& contentType=String(), bool download=false);
PsychicFileResponse(PsychicRequest *request, File content, const String& path, const String& contentType=String(), bool download=false);
~PsychicFileResponse();
esp_err_t send();
};
#endif // PsychicFileResponse_h

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#include "PsychicHandler.h"
PsychicHandler::PsychicHandler() :
_filter(NULL),
_server(NULL),
_username(""),
_password(""),
_method(DIGEST_AUTH),
_realm(""),
_authFailMsg("")
{}
PsychicHandler::~PsychicHandler() {
// actual PsychicClient deletion handled by PsychicServer
// for (PsychicClient *client : _clients)
// delete(client);
_clients.clear();
}
PsychicHandler* PsychicHandler::setFilter(PsychicRequestFilterFunction fn) {
_filter = fn;
return this;
}
bool PsychicHandler::filter(PsychicRequest *request){
return _filter == NULL || _filter(request);
}
PsychicHandler* PsychicHandler::setAuthentication(const char *username, const char *password, HTTPAuthMethod method, const char *realm, const char *authFailMsg) {
_username = String(username);
_password = String(password);
_method = method;
_realm = String(realm);
_authFailMsg = String(authFailMsg);
return this;
};
bool PsychicHandler::needsAuthentication(PsychicRequest *request) {
return (_username != "" && _password != "") && !request->authenticate(_username.c_str(), _password.c_str());
}
esp_err_t PsychicHandler::authenticate(PsychicRequest *request) {
return request->requestAuthentication(_method, _realm.c_str(), _authFailMsg.c_str());
}
PsychicClient * PsychicHandler::checkForNewClient(PsychicClient *client)
{
PsychicClient *c = PsychicHandler::getClient(client);
if (c == NULL)
{
c = client;
addClient(c);
c->isNew = true;
}
else
c->isNew = false;
return c;
}
void PsychicHandler::checkForClosedClient(PsychicClient *client)
{
if (hasClient(client))
{
closeCallback(client);
removeClient(client);
}
}
void PsychicHandler::addClient(PsychicClient *client) {
_clients.push_back(client);
}
void PsychicHandler::removeClient(PsychicClient *client) {
_clients.remove(client);
}
PsychicClient * PsychicHandler::getClient(int socket)
{
//make sure the server has it too.
if (!_server->hasClient(socket))
return NULL;
//what about us?
for (PsychicClient *client : _clients)
if (client->socket() == socket)
return client;
//nothing found.
return NULL;
}
PsychicClient * PsychicHandler::getClient(PsychicClient *client) {
return PsychicHandler::getClient(client->socket());
}
bool PsychicHandler::hasClient(PsychicClient *socket) {
return PsychicHandler::getClient(socket) != NULL;
}
const std::list<PsychicClient*>& PsychicHandler::getClientList() {
return _clients;
}

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#ifndef PsychicHandler_h
#define PsychicHandler_h
#include "PsychicCore.h"
#include "PsychicRequest.h"
class PsychicEndpoint;
class PsychicHttpServer;
/*
* HANDLER :: Can be attached to any endpoint or as a generic request handler.
*/
class PsychicHandler {
friend PsychicEndpoint;
protected:
PsychicRequestFilterFunction _filter;
PsychicHttpServer *_server;
String _username;
String _password;
HTTPAuthMethod _method;
String _realm;
String _authFailMsg;
std::list<PsychicClient*> _clients;
public:
PsychicHandler();
~PsychicHandler();
PsychicHandler* setFilter(PsychicRequestFilterFunction fn);
bool filter(PsychicRequest *request);
PsychicHandler* setAuthentication(const char *username, const char *password, HTTPAuthMethod method = BASIC_AUTH, const char *realm = "", const char *authFailMsg = "");
bool needsAuthentication(PsychicRequest *request);
esp_err_t authenticate(PsychicRequest *request);
virtual bool isWebSocket() { return false; };
PsychicClient * checkForNewClient(PsychicClient *client);
void checkForClosedClient(PsychicClient *client);
virtual void addClient(PsychicClient *client);
virtual void removeClient(PsychicClient *client);
virtual PsychicClient * getClient(int socket);
virtual PsychicClient * getClient(PsychicClient *client);
virtual void openCallback(PsychicClient *client) {};
virtual void closeCallback(PsychicClient *client) {};
bool hasClient(PsychicClient *client);
int count() { return _clients.size(); };
const std::list<PsychicClient*>& getClientList();
//derived classes must implement these functions
virtual bool canHandle(PsychicRequest *request) { return true; };
virtual esp_err_t handleRequest(PsychicRequest *request) = 0;
};
#endif

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#ifndef PsychicHttp_h
#define PsychicHttp_h
// #define ENABLE_ASYNC // This is something added in ESP-IDF 5.1.x where each request can be handled in its own thread
#include <http_status.h>
#include "PsychicHttpServer.h"
#include "PsychicRequest.h"
#include "PsychicResponse.h"
#include "PsychicEndpoint.h"
#include "PsychicHandler.h"
#include "PsychicStaticFileHandler.h"
#include "PsychicFileResponse.h"
#include "PsychicStreamResponse.h"
#include "PsychicUploadHandler.h"
#include "PsychicWebSocket.h"
#include "PsychicEventSource.h"
#include "PsychicJson.h"
#ifdef ENABLE_ASYNC
#include "async_worker.h"
#endif
#endif /* PsychicHttp_h */

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#include "PsychicHttpServer.h"
#include "PsychicEndpoint.h"
#include "PsychicHandler.h"
#include "PsychicWebHandler.h"
#include "PsychicStaticFileHandler.h"
#include "PsychicWebSocket.h"
#include "PsychicJson.h"
#include "WiFi.h"
PsychicHttpServer::PsychicHttpServer() :
_onOpen(NULL),
_onClose(NULL)
{
maxRequestBodySize = MAX_REQUEST_BODY_SIZE;
maxUploadSize = MAX_UPLOAD_SIZE;
defaultEndpoint = new PsychicEndpoint(this, HTTP_GET, "");
onNotFound(PsychicHttpServer::defaultNotFoundHandler);
//for a regular server
config = HTTPD_DEFAULT_CONFIG();
config.open_fn = PsychicHttpServer::openCallback;
config.close_fn = PsychicHttpServer::closeCallback;
config.uri_match_fn = httpd_uri_match_wildcard;
config.global_user_ctx = this;
config.global_user_ctx_free_fn = destroy;
config.max_uri_handlers = 20;
#ifdef ENABLE_ASYNC
// It is advisable that httpd_config_t->max_open_sockets > MAX_ASYNC_REQUESTS
// Why? This leaves at least one socket still available to handle
// quick synchronous requests. Otherwise, all the sockets will
// get taken by the long async handlers, and your server will no
// longer be responsive.
config.max_open_sockets = ASYNC_WORKER_COUNT + 1;
config.lru_purge_enable = true;
#endif
}
PsychicHttpServer::~PsychicHttpServer()
{
for (auto *client : _clients)
delete(client);
_clients.clear();
for (auto *endpoint : _endpoints)
delete(endpoint);
_endpoints.clear();
for (auto *handler : _handlers)
delete(handler);
_handlers.clear();
delete defaultEndpoint;
}
void PsychicHttpServer::destroy(void *ctx)
{
PsychicHttpServer *temp = (PsychicHttpServer *)ctx;
delete temp;
}
esp_err_t PsychicHttpServer::listen(uint16_t port)
{
this->_use_ssl = false;
this->config.server_port = port;
return this->_start();
}
esp_err_t PsychicHttpServer::_start()
{
esp_err_t ret;
#ifdef ENABLE_ASYNC
// start workers
start_async_req_workers();
#endif
//fire it up.
ret = _startServer();
if (ret != ESP_OK)
{
ESP_LOGE(PH_TAG, "Server start failed (%s)", esp_err_to_name(ret));
return ret;
}
// Register handler
ret = httpd_register_err_handler(server, HTTPD_404_NOT_FOUND, PsychicHttpServer::notFoundHandler);
if (ret != ESP_OK)
ESP_LOGE(PH_TAG, "Add 404 handler failed (%s)", esp_err_to_name(ret));
return ret;
}
esp_err_t PsychicHttpServer::_startServer() {
return httpd_start(&this->server, &this->config);
}
void PsychicHttpServer::stop()
{
httpd_stop(this->server);
}
PsychicHandler& PsychicHttpServer::addHandler(PsychicHandler* handler){
_handlers.push_back(handler);
return *handler;
}
void PsychicHttpServer::removeHandler(PsychicHandler *handler){
_handlers.remove(handler);
}
PsychicEndpoint* PsychicHttpServer::on(const char* uri) {
return on(uri, HTTP_GET);
}
PsychicEndpoint* PsychicHttpServer::on(const char* uri, http_method method)
{
PsychicWebHandler *handler = new PsychicWebHandler();
return on(uri, method, handler);
}
PsychicEndpoint* PsychicHttpServer::on(const char* uri, PsychicHandler *handler)
{
return on(uri, HTTP_GET, handler);
}
PsychicEndpoint* PsychicHttpServer::on(const char* uri, http_method method, PsychicHandler *handler)
{
//make our endpoint
PsychicEndpoint *endpoint = new PsychicEndpoint(this, method, uri);
//set our handler
endpoint->setHandler(handler);
// URI handler structure
httpd_uri_t my_uri {
.uri = uri,
.method = method,
.handler = PsychicEndpoint::requestCallback,
.user_ctx = endpoint,
.is_websocket = handler->isWebSocket()
};
// Register endpoint with ESP-IDF server
esp_err_t ret = httpd_register_uri_handler(this->server, &my_uri);
if (ret != ESP_OK)
ESP_LOGE(PH_TAG, "Add endpoint failed (%s)", esp_err_to_name(ret));
//save it for later
_endpoints.push_back(endpoint);
return endpoint;
}
PsychicEndpoint* PsychicHttpServer::on(const char* uri, PsychicHttpRequestCallback fn)
{
return on(uri, HTTP_GET, fn);
}
PsychicEndpoint* PsychicHttpServer::on(const char* uri, http_method method, PsychicHttpRequestCallback fn)
{
//these basic requests need a basic web handler
PsychicWebHandler *handler = new PsychicWebHandler();
handler->onRequest(fn);
return on(uri, method, handler);
}
PsychicEndpoint* PsychicHttpServer::on(const char* uri, PsychicJsonRequestCallback fn)
{
return on(uri, HTTP_GET, fn);
}
PsychicEndpoint* PsychicHttpServer::on(const char* uri, http_method method, PsychicJsonRequestCallback fn)
{
//these basic requests need a basic web handler
PsychicJsonHandler *handler = new PsychicJsonHandler();
handler->onRequest(fn);
return on(uri, method, handler);
}
void PsychicHttpServer::onNotFound(PsychicHttpRequestCallback fn)
{
PsychicWebHandler *handler = new PsychicWebHandler();
handler->onRequest(fn);
this->defaultEndpoint->setHandler(handler);
}
esp_err_t PsychicHttpServer::notFoundHandler(httpd_req_t *req, httpd_err_code_t err)
{
PsychicHttpServer *server = (PsychicHttpServer*)httpd_get_global_user_ctx(req->handle);
PsychicRequest request(server, req);
//loop through our global handlers and see if anyone wants it
for(auto *handler: server->_handlers)
{
//are we capable of handling this?
if (handler->filter(&request) && handler->canHandle(&request))
{
//check our credentials
if (handler->needsAuthentication(&request))
return handler->authenticate(&request);
else
return handler->handleRequest(&request);
}
}
//nothing found, give it to our defaultEndpoint
PsychicHandler *handler = server->defaultEndpoint->handler();
if (handler->filter(&request) && handler->canHandle(&request))
return handler->handleRequest(&request);
//not sure how we got this far.
return ESP_ERR_HTTPD_INVALID_REQ;
}
esp_err_t PsychicHttpServer::defaultNotFoundHandler(PsychicRequest *request)
{
request->reply(404, "text/html", "That URI does not exist.");
return ESP_OK;
}
void PsychicHttpServer::onOpen(PsychicClientCallback handler) {
this->_onOpen = handler;
}
esp_err_t PsychicHttpServer::openCallback(httpd_handle_t hd, int sockfd)
{
ESP_LOGI(PH_TAG, "New client connected %d", sockfd);
//get our global server reference
PsychicHttpServer *server = (PsychicHttpServer*)httpd_get_global_user_ctx(hd);
//lookup our client
PsychicClient *client = server->getClient(sockfd);
if (client == NULL)
{
client = new PsychicClient(hd, sockfd);
server->addClient(client);
}
//user callback
if (server->_onOpen != NULL)
server->_onOpen(client);
return ESP_OK;
}
void PsychicHttpServer::onClose(PsychicClientCallback handler) {
this->_onClose = handler;
}
void PsychicHttpServer::closeCallback(httpd_handle_t hd, int sockfd)
{
ESP_LOGI(PH_TAG, "Client disconnected %d", sockfd);
PsychicHttpServer *server = (PsychicHttpServer*)httpd_get_global_user_ctx(hd);
//lookup our client
PsychicClient *client = server->getClient(sockfd);
if (client != NULL)
{
//give our handlers a chance to handle a disconnect first
for (PsychicEndpoint * endpoint : server->_endpoints)
{
PsychicHandler *handler = endpoint->handler();
handler->checkForClosedClient(client);
}
//do we have a callback attached?
if (server->_onClose != NULL)
server->_onClose(client);
//remove it from our list
server->removeClient(client);
}
else
ESP_LOGE(PH_TAG, "No client record %d", sockfd);
//finally close it out.
close(sockfd);
}
PsychicStaticFileHandler* PsychicHttpServer::serveStatic(const char* uri, fs::FS& fs, const char* path, const char* cache_control)
{
PsychicStaticFileHandler* handler = new PsychicStaticFileHandler(uri, fs, path, cache_control);
this->addHandler(handler);
return handler;
}
void PsychicHttpServer::addClient(PsychicClient *client) {
_clients.push_back(client);
}
void PsychicHttpServer::removeClient(PsychicClient *client) {
_clients.remove(client);
delete client;
}
PsychicClient * PsychicHttpServer::getClient(int socket) {
for (PsychicClient * client : _clients)
if (client->socket() == socket)
return client;
return NULL;
}
PsychicClient * PsychicHttpServer::getClient(httpd_req_t *req) {
return getClient(httpd_req_to_sockfd(req));
}
bool PsychicHttpServer::hasClient(int socket) {
return getClient(socket) != NULL;
}
const std::list<PsychicClient*>& PsychicHttpServer::getClientList() {
return _clients;
}
bool ON_STA_FILTER(PsychicRequest *request) {
return WiFi.localIP() == request->client()->localIP();
}
bool ON_AP_FILTER(PsychicRequest *request) {
return WiFi.softAPIP() == request->client()->localIP();
}
String urlDecode(const char* encoded)
{
size_t length = strlen(encoded);
char* decoded = (char*)malloc(length + 1);
if (!decoded) {
return "";
}
size_t i, j = 0;
for (i = 0; i < length; ++i) {
if (encoded[i] == '%' && isxdigit(encoded[i + 1]) && isxdigit(encoded[i + 2])) {
// Valid percent-encoded sequence
int hex;
sscanf(encoded + i + 1, "%2x", &hex);
decoded[j++] = (char)hex;
i += 2; // Skip the two hexadecimal characters
} else if (encoded[i] == '+') {
// Convert '+' to space
decoded[j++] = ' ';
} else {
// Copy other characters as they are
decoded[j++] = encoded[i];
}
}
decoded[j] = '\0'; // Null-terminate the decoded string
String output(decoded);
free(decoded);
return output;
}

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#ifndef PsychicHttpServer_h
#define PsychicHttpServer_h
#include "PsychicCore.h"
#include "PsychicClient.h"
#include "PsychicHandler.h"
class PsychicEndpoint;
class PsychicHandler;
class PsychicStaticFileHandler;
class PsychicHttpServer
{
protected:
bool _use_ssl = false;
std::list<PsychicEndpoint*> _endpoints;
std::list<PsychicHandler*> _handlers;
std::list<PsychicClient*> _clients;
PsychicClientCallback _onOpen;
PsychicClientCallback _onClose;
esp_err_t _start();
virtual esp_err_t _startServer();
public:
PsychicHttpServer();
~PsychicHttpServer();
//esp-idf specific stuff
httpd_handle_t server;
httpd_config_t config;
//some limits on what we will accept
unsigned long maxUploadSize;
unsigned long maxRequestBodySize;
PsychicEndpoint *defaultEndpoint;
static void destroy(void *ctx);
esp_err_t listen(uint16_t port);
virtual void stop();
PsychicHandler& addHandler(PsychicHandler* handler);
void removeHandler(PsychicHandler* handler);
void addClient(PsychicClient *client);
void removeClient(PsychicClient *client);
PsychicClient* getClient(int socket);
PsychicClient* getClient(httpd_req_t *req);
bool hasClient(int socket);
int count() { return _clients.size(); };
const std::list<PsychicClient*>& getClientList();
PsychicEndpoint* on(const char* uri);
PsychicEndpoint* on(const char* uri, http_method method);
PsychicEndpoint* on(const char* uri, PsychicHandler *handler);
PsychicEndpoint* on(const char* uri, http_method method, PsychicHandler *handler);
PsychicEndpoint* on(const char* uri, PsychicHttpRequestCallback onRequest);
PsychicEndpoint* on(const char* uri, http_method method, PsychicHttpRequestCallback onRequest);
PsychicEndpoint* on(const char* uri, PsychicJsonRequestCallback onRequest);
PsychicEndpoint* on(const char* uri, http_method method, PsychicJsonRequestCallback onRequest);
static esp_err_t notFoundHandler(httpd_req_t *req, httpd_err_code_t err);
static esp_err_t defaultNotFoundHandler(PsychicRequest *request);
void onNotFound(PsychicHttpRequestCallback fn);
void onOpen(PsychicClientCallback handler);
void onClose(PsychicClientCallback handler);
static esp_err_t openCallback(httpd_handle_t hd, int sockfd);
static void closeCallback(httpd_handle_t hd, int sockfd);
PsychicStaticFileHandler* serveStatic(const char* uri, fs::FS& fs, const char* path, const char* cache_control = NULL);
};
bool ON_STA_FILTER(PsychicRequest *request);
bool ON_AP_FILTER(PsychicRequest *request);
#endif // PsychicHttpServer_h

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#include "PsychicHttpsServer.h"
PsychicHttpsServer::PsychicHttpsServer() : PsychicHttpServer()
{
//for a SSL server
ssl_config = HTTPD_SSL_CONFIG_DEFAULT();
ssl_config.httpd.open_fn = PsychicHttpServer::openCallback;
ssl_config.httpd.close_fn = PsychicHttpServer::closeCallback;
ssl_config.httpd.uri_match_fn = httpd_uri_match_wildcard;
ssl_config.httpd.global_user_ctx = this;
ssl_config.httpd.global_user_ctx_free_fn = destroy;
ssl_config.httpd.max_uri_handlers = 20;
// each SSL connection takes about 45kb of heap
// a barebones sketch with PsychicHttp has ~150kb of heap available
// if we set it higher than 2 and use all the connections, we get lots of memory errors.
// not to mention there is no heap left over for the program itself.
ssl_config.httpd.max_open_sockets = 2;
}
PsychicHttpsServer::~PsychicHttpsServer() {}
esp_err_t PsychicHttpsServer::listen(uint16_t port, const char *cert, const char *private_key)
{
this->_use_ssl = true;
this->ssl_config.port_secure = port;
this->ssl_config.cacert_pem = (uint8_t *)cert;
this->ssl_config.cacert_len = strlen(cert)+1;
this->ssl_config.prvtkey_pem = (uint8_t *)private_key;
this->ssl_config.prvtkey_len = strlen(private_key)+1;
return this->_start();
}
esp_err_t PsychicHttpsServer::_startServer()
{
if (this->_use_ssl)
return httpd_ssl_start(&this->server, &this->ssl_config);
else
return httpd_start(&this->server, &this->config);
}
void PsychicHttpsServer::stop()
{
if (this->_use_ssl)
httpd_ssl_stop(this->server);
else
httpd_stop(this->server);
}

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#ifndef PsychicHttpsServer_h
#define PsychicHttpsServer_h
#include "PsychicCore.h"
#include "PsychicHttpServer.h"
#include <esp_https_server.h>
#if !CONFIG_HTTPD_WS_SUPPORT
#error PsychicHttpsServer cannot be used unless HTTPD_WS_SUPPORT is enabled in esp-http-server component configuration
#endif
#define PSY_ENABLE_SSL //you can use this define in your code to enable/disable these features
class PsychicHttpsServer : public PsychicHttpServer
{
protected:
bool _use_ssl = false;
public:
PsychicHttpsServer();
~PsychicHttpsServer();
httpd_ssl_config_t ssl_config;
using PsychicHttpServer::listen; //keep the regular version
esp_err_t listen(uint16_t port, const char *cert, const char *private_key);
virtual esp_err_t _startServer() override final;
virtual void stop() override final;
};
#endif // PsychicHttpsServer_h

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#include "PsychicJson.h"
#ifdef ARDUINOJSON_5_COMPATIBILITY
PsychicJsonResponse::PsychicJsonResponse(PsychicRequest *request, bool isArray) : PsychicResponse(request)
{
setContentType(JSON_MIMETYPE);
if (isArray)
_root = _jsonBuffer.createArray();
else
_root = _jsonBuffer.createObject();
}
#else
PsychicJsonResponse::PsychicJsonResponse(PsychicRequest *request, bool isArray, size_t maxJsonBufferSize) :
PsychicResponse(request),
_jsonBuffer(maxJsonBufferSize)
{
setContentType(JSON_MIMETYPE);
if (isArray)
_root = _jsonBuffer.createNestedArray();
else
_root = _jsonBuffer.createNestedObject();
}
#endif
JsonVariant &PsychicJsonResponse::getRoot() { return _root; }
size_t PsychicJsonResponse::getLength()
{
#ifdef ARDUINOJSON_5_COMPATIBILITY
return _root.measureLength();
#else
return measureJson(_root);
#endif
}
esp_err_t PsychicJsonResponse::send()
{
esp_err_t err = ESP_OK;
size_t length = getLength();
size_t buffer_size;
char *buffer;
DUMP(length);
//how big of a buffer do we want?
if (length < JSON_BUFFER_SIZE)
buffer_size = length+1;
else
buffer_size = JSON_BUFFER_SIZE;
DUMP(buffer_size);
buffer = (char *)malloc(buffer_size);
if (buffer == NULL) {
httpd_resp_send_err(this->_request->request(), HTTPD_500_INTERNAL_SERVER_ERROR, "Unable to allocate memory.");
return ESP_FAIL;
}
//send it in one shot or no?
if (length < JSON_BUFFER_SIZE)
{
TRACE();
#ifdef ARDUINOJSON_5_COMPATIBILITY
_root.printTo(buffer, buffer_size);
#else
serializeJson(_root, buffer, buffer_size);
#endif
this->setContent((uint8_t *)buffer, length);
this->setContentType(JSON_MIMETYPE);
err = PsychicResponse::send();
}
else
{
//helper class that acts as a stream to print chunked responses
ChunkPrinter dest(this, (uint8_t *)buffer, buffer_size);
//keep our headers
this->sendHeaders();
//these commands write to the ChunkPrinter which does the sending
#ifdef ARDUINOJSON_5_COMPATIBILITY
_root.printTo(dest);
#else
serializeJson(_root, dest);
#endif
//send the last bits
dest.flush();
//done with our chunked response too
err = this->finishChunking();
}
//let the buffer go
free(buffer);
return err;
}
#ifdef ARDUINOJSON_5_COMPATIBILITY
PsychicJsonHandler::PsychicJsonHandler() :
_onRequest(NULL)
{};
PsychicJsonHandler::PsychicJsonHandler(PsychicJsonRequestCallback onRequest) :
_onRequest(onRequest)
{}
#else
PsychicJsonHandler::PsychicJsonHandler(size_t maxJsonBufferSize) :
_onRequest(NULL),
_maxJsonBufferSize(maxJsonBufferSize)
{};
PsychicJsonHandler::PsychicJsonHandler(PsychicJsonRequestCallback onRequest, size_t maxJsonBufferSize) :
_onRequest(onRequest),
_maxJsonBufferSize(maxJsonBufferSize)
{}
#endif
void PsychicJsonHandler::onRequest(PsychicJsonRequestCallback fn) { _onRequest = fn; }
esp_err_t PsychicJsonHandler::handleRequest(PsychicRequest *request)
{
//process basic stuff
PsychicWebHandler::handleRequest(request);
if (_onRequest)
{
#ifdef ARDUINOJSON_5_COMPATIBILITY
DynamicJsonBuffer jsonBuffer;
JsonVariant json = jsonBuffer.parse();
if (!json.success())
return request->reply(400);
#else
DynamicJsonDocument jsonBuffer(this->_maxJsonBufferSize);
DeserializationError error = deserializeJson(jsonBuffer, request->body());
if (error)
return request->reply(400);
JsonVariant json = jsonBuffer.as<JsonVariant>();
#endif
return _onRequest(request, json);
}
else
return request->reply(500);
}

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// PsychicJson.h
/*
Async Response to use with ArduinoJson and AsyncWebServer
Written by Andrew Melvin (SticilFace) with help from me-no-dev and BBlanchon.
Ported to PsychicHttp by Zach Hoeken
*/
#ifndef PSYCHIC_JSON_H_
#define PSYCHIC_JSON_H_
#include <ArduinoJson.h>
#include "PsychicCore.h"
#include "PsychicResponse.h"
#include "ChunkPrinter.h"
#if ARDUINOJSON_VERSION_MAJOR == 5
#define ARDUINOJSON_5_COMPATIBILITY
#else
#ifndef DYNAMIC_JSON_DOCUMENT_SIZE
#define DYNAMIC_JSON_DOCUMENT_SIZE 4096
#endif
#endif
#ifndef JSON_BUFFER_SIZE
//#define JSON_BUFFER_SIZE 256
#define JSON_BUFFER_SIZE 4 * 1024
#endif
constexpr const char * JSON_MIMETYPE = "application/json";
/*
* Json Response
* */
class PsychicJsonResponse : public PsychicResponse {
protected:
#ifdef ARDUINOJSON_5_COMPATIBILITY
DynamicJsonBuffer _jsonBuffer;
#else
DynamicJsonDocument _jsonBuffer;
#endif
JsonVariant _root;
size_t _contentLength;
bool _msgPack; // added by proddy
public:
#ifdef ARDUINOJSON_5_COMPATIBILITY
PsychicJsonResponse(PsychicRequest * request, bool isArray = false)
: PsychicResponse(request) {
setContentType(JSON_MIMETYPE);
if (isArray)
_root = _jsonBuffer.createArray();
else
_root = _jsonBuffer.createObject();
}
#else
PsychicJsonResponse(PsychicRequest * request, bool isArray = false, size_t maxJsonBufferSize = DYNAMIC_JSON_DOCUMENT_SIZE, bool msgPack = false) // added by proddy
: PsychicResponse(request)
, _jsonBuffer(maxJsonBufferSize)
, _msgPack(msgPack) // added by proddy
{
setContentType(JSON_MIMETYPE);
if (isArray)
_root = _jsonBuffer.createNestedArray();
else
_root = _jsonBuffer.createNestedObject();
}
#endif
~PsychicJsonResponse() {
}
JsonVariant & getRoot() {
return _root;
}
size_t getLength() {
#ifdef ARDUINOJSON_5_COMPATIBILITY
return _root.measureLength();
#else
// return measureJson(_root);
return (_msgPack) ? measureMsgPack(_root) : measureJson(_root); // added by proddy
#endif
}
// size_t _fillBuffer(uint8_t *data, size_t len)
// {
// //TODO: fix
// //ChunkPrint dest(data, _sentLength, len);
// #ifdef ARDUINOJSON_5_COMPATIBILITY
// _root.printTo(dest);
// #else
// //serializeJson(_root, dest);
// #endif
// return len;
// }
virtual esp_err_t send() override {
esp_err_t err = ESP_OK;
// size_t length = getLength();
size_t length = JSON_BUFFER_SIZE; // TODO force chunking
size_t buffer_size;
char * buffer;
DUMP(length);
//how big of a buffer do we want?
if (length < JSON_BUFFER_SIZE)
buffer_size = length + 1;
else
buffer_size = JSON_BUFFER_SIZE;
DUMP(buffer_size);
buffer = (char *)malloc(buffer_size);
if (buffer == NULL) {
httpd_resp_send_err(this->_request->request(), HTTPD_500_INTERNAL_SERVER_ERROR, "Unable to allocate memory.");
return ESP_FAIL;
}
//send it in one shot or no?
if (length < JSON_BUFFER_SIZE) {
TRACE();
#ifdef ARDUINOJSON_5_COMPATIBILITY
_root.printTo(buffer, buffer_size);
#else
// serializeJson(_root, buffer, buffer_size)
(_msgPack) ? serializeMsgPack(_root, buffer, buffer_size) : serializeJson(_root, buffer, buffer_size); // added by proddy
#endif
this->setContent((uint8_t *)buffer, length);
this->setContentType(JSON_MIMETYPE);
err = PsychicResponse::send();
} else {
//helper class that acts as a stream to print chunked responses
ChunkPrinter dest(this, (uint8_t *)buffer, buffer_size);
//keep our headers
this->sendHeaders();
//these commands write to the ChunkPrinter which does the sending
#ifdef ARDUINOJSON_5_COMPATIBILITY
_root.printTo(dest);
#else
// serializeJson(_root, dest); // added by proddy
(_msgPack) ? serializeMsgPack(_root, dest) : serializeJson(_root, dest); // added by proddy
#endif
//send the last bits
dest.flush();
//done with our chunked response too
err = this->finishChunking();
}
//let the buffer go
free(buffer);
return err;
}
};
// class PrettyPsychicJsonResponse : public PsychicJsonResponse
// {
// public:
// #ifdef ARDUINOJSON_5_COMPATIBILITY
// PrettyPsychicJsonResponse(PsychicRequest *request, bool isArray = false) : PsychicJsonResponse(request, isArray) {}
// #else
// PrettyPsychicJsonResponse(
// PsychicRequest *request,
// bool isArray = false,
// size_t maxJsonBufferSize = DYNAMIC_JSON_DOCUMENT_SIZE)
// : PsychicJsonResponse{request, isArray, maxJsonBufferSize} {}
// #endif
// size_t setLength()
// {
// #ifdef ARDUINOJSON_5_COMPATIBILITY
// _contentLength = _root.measurePrettyLength();
// #else
// _contentLength = measureJsonPretty(_root);
// #endif
// return _contentLength;
// }
// };
typedef std::function<esp_err_t(PsychicRequest * request, JsonVariant & json)> PsychicJsonRequestCallback;
class PsychicJsonHandler : public PsychicWebHandler {
protected:
PsychicJsonRequestCallback _onRequest;
#ifndef ARDUINOJSON_5_COMPATIBILITY
const size_t _maxJsonBufferSize = DYNAMIC_JSON_DOCUMENT_SIZE;
#endif
public:
#ifdef ARDUINOJSON_5_COMPATIBILITY
PsychicJsonHandler()
: _onRequest(NULL){};
PsychicJsonHandler(PsychicJsonRequestCallback onRequest)
: _onRequest(onRequest) {
}
#else
PsychicJsonHandler(size_t maxJsonBufferSize = DYNAMIC_JSON_DOCUMENT_SIZE)
: _onRequest(NULL)
, _maxJsonBufferSize(maxJsonBufferSize){};
PsychicJsonHandler(PsychicJsonRequestCallback onRequest, size_t maxJsonBufferSize = DYNAMIC_JSON_DOCUMENT_SIZE)
: _onRequest(onRequest)
, _maxJsonBufferSize(maxJsonBufferSize) {
}
#endif
void onRequest(PsychicJsonRequestCallback fn) {
_onRequest = fn;
}
virtual esp_err_t handleRequest(PsychicRequest * request) override {
//process basic stuff
PsychicWebHandler::handleRequest(request);
if (_onRequest) {
#ifdef ARDUINOJSON_5_COMPATIBILITY
DynamicJsonBuffer jsonBuffer;
JsonVariant json = jsonBuffer.parse();
if (!json.success())
return request->reply(400);
#else
DynamicJsonDocument jsonBuffer(this->_maxJsonBufferSize);
DeserializationError error = deserializeJson(jsonBuffer, request->body());
if (error)
return request->reply(400);
JsonVariant json = jsonBuffer.as<JsonVariant>();
#endif
return _onRequest(request, json);
} else
return request->reply(500);
}
};
#endif

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#include "PsychicRequest.h"
#include "http_status.h"
#include "PsychicHttpServer.h"
PsychicRequest::PsychicRequest(PsychicHttpServer *server, httpd_req_t *req) :
_server(server),
_req(req),
_method(HTTP_GET),
_query(""),
_body(""),
_tempObject(NULL)
{
//load up our client.
this->_client = server->getClient(req);
//handle our session data
if (req->sess_ctx != NULL)
this->_session = (SessionData *)req->sess_ctx;
else
{
this->_session = new SessionData();
req->sess_ctx = this->_session;
}
//callback for freeing the session later
req->free_ctx = this->freeSession;
//load up some data
this->_uri = String(this->_req->uri);
}
PsychicRequest::~PsychicRequest()
{
//temorary user object
if (_tempObject != NULL)
free(_tempObject);
//our web parameters
for (auto *param : _params)
delete(param);
_params.clear();
}
void PsychicRequest::freeSession(void *ctx)
{
if (ctx != NULL)
{
SessionData *session = (SessionData*)ctx;
delete session;
}
}
PsychicHttpServer * PsychicRequest::server() {
return _server;
}
httpd_req_t * PsychicRequest::request() {
return _req;
}
PsychicClient * PsychicRequest::client() {
return _client;
}
const String PsychicRequest::getFilename()
{
//parse the content-disposition header
if (this->hasHeader("Content-Disposition"))
{
ContentDisposition cd = this->getContentDisposition();
if (cd.filename != "")
return cd.filename;
}
//fall back to passed in query string
PsychicWebParameter *param = getParam("_filename");
if (param != NULL)
return param->name();
//fall back to parsing it from url (useful for wildcard uploads)
String uri = this->uri();
int filenameStart = uri.lastIndexOf('/') + 1;
String filename = uri.substring(filenameStart);
if (filename != "")
return filename;
//finally, unknown.
ESP_LOGE(PH_TAG, "Did not get a valid filename from the upload.");
return "unknown.txt";
}
const ContentDisposition PsychicRequest::getContentDisposition()
{
ContentDisposition cd;
String header = this->header("Content-Disposition");
int start;
int end;
if (header.indexOf("form-data") == 0)
cd.disposition = FORM_DATA;
else if (header.indexOf("attachment") == 0)
cd.disposition = ATTACHMENT;
else if (header.indexOf("inline") == 0)
cd.disposition = INLINE;
else
cd.disposition = NONE;
start = header.indexOf("filename=");
if (start)
{
end = header.indexOf('"', start+10);
cd.filename = header.substring(start+10, end-1);
}
start = header.indexOf("name=");
if (start)
{
end = header.indexOf('"', start+6);
cd.name = header.substring(start+6, end-1);
}
return cd;
}
esp_err_t PsychicRequest::loadBody()
{
esp_err_t err = ESP_OK;
this->_body = String();
//Get header value string length and allocate memory for length + 1, extra byte for null termination
size_t remaining = this->_req->content_len;
char *buf = (char *)malloc(remaining+1);
//while loop for retries
while (remaining > 0)
{
//read our data from the socket
int received = httpd_req_recv(this->_req, buf, this->_req->content_len);
//Retry if timeout occurred
if (received == HTTPD_SOCK_ERR_TIMEOUT)
continue;
//bail if we got an error
else if (received == HTTPD_SOCK_ERR_FAIL)
{
err = ESP_FAIL;
break;
}
//keep track of our
remaining -= received;
}
//null terminate and make our string
buf[this->_req->content_len] = '\0';
this->_body = String(buf);
//keep track of that pesky memory
free(buf);
return err;
}
http_method PsychicRequest::method() {
return (http_method)this->_req->method;
}
const String PsychicRequest::methodStr() {
return String(http_method_str((http_method)this->_req->method));
}
const String PsychicRequest::path() {
int index = _uri.indexOf("?");
if(index == -1)
return _uri;
else
return _uri.substring(0, index);
}
const String& PsychicRequest::uri() {
return this->_uri;
}
const String& PsychicRequest::query() {
return this->_query;
}
// no way to get list of headers yet....
// int PsychicRequest::headers()
// {
// }
const String PsychicRequest::header(const char *name)
{
size_t header_len = httpd_req_get_hdr_value_len(this->_req, name);
//if we've got one, allocated it and load it
if (header_len)
{
char header[header_len+1];
httpd_req_get_hdr_value_str(this->_req, name, header, sizeof(header));
return String(header);
}
else
return "";
}
bool PsychicRequest::hasHeader(const char *name)
{
return httpd_req_get_hdr_value_len(this->_req, name) > 0;
}
const String PsychicRequest::host() {
return this->header("Host");
}
const String PsychicRequest::contentType() {
return header("Content-Type");
}
size_t PsychicRequest::contentLength() {
return this->_req->content_len;
}
const String& PsychicRequest::body()
{
return this->_body;
}
bool PsychicRequest::isMultipart()
{
const String& type = this->contentType();
return (this->contentType().indexOf("multipart/form-data") >= 0);
}
esp_err_t PsychicRequest::redirect(const char *url)
{
PsychicResponse response(this);
response.setCode(301);
response.addHeader("Location", url);
return response.send();
}
bool PsychicRequest::hasCookie(const char *key)
{
char cookie[MAX_COOKIE_SIZE];
size_t cookieSize = MAX_COOKIE_SIZE;
esp_err_t err = httpd_req_get_cookie_val(this->_req, key, cookie, &cookieSize);
//did we get anything?
if (err == ESP_OK)
return true;
else if (err == ESP_ERR_HTTPD_RESULT_TRUNC)
ESP_LOGE(PH_TAG, "cookie too large (%d bytes).\n", cookieSize);
return false;
}
const String PsychicRequest::getCookie(const char *key)
{
char cookie[MAX_COOKIE_SIZE];
size_t cookieSize = MAX_COOKIE_SIZE;
esp_err_t err = httpd_req_get_cookie_val(this->_req, key, cookie, &cookieSize);
//did we get anything?
if (err == ESP_OK)
return String(cookie);
else
return "";
}
void PsychicRequest::loadParams()
{
//did we get a query string?
size_t query_len = httpd_req_get_url_query_len(_req);
if (query_len)
{
char query[query_len+1];
httpd_req_get_url_query_str(_req, query, sizeof(query));
_query.concat(query);
//parse them.
_addParams(_query);
}
//did we get form data as body?
if (this->method() == HTTP_POST && this->contentType() == "application/x-www-form-urlencoded")
{
_addParams(_body);
}
}
void PsychicRequest::_addParams(const String& params){
size_t start = 0;
while (start < params.length()){
int end = params.indexOf('&', start);
if (end < 0) end = params.length();
int equal = params.indexOf('=', start);
if (equal < 0 || equal > end) equal = end;
String name = params.substring(start, equal);
String value = equal + 1 < end ? params.substring(equal + 1, end) : String();
addParam(name, value);
start = end + 1;
}
}
PsychicWebParameter * PsychicRequest::addParam(const String &name, const String &value, bool decode)
{
if (decode)
return addParam(new PsychicWebParameter(urlDecode(name.c_str()), urlDecode(value.c_str())));
else
return addParam(new PsychicWebParameter(name, value));
}
PsychicWebParameter * PsychicRequest::addParam(PsychicWebParameter *param) {
_params.push_back(param);
return param;
}
bool PsychicRequest::hasParam(const char *key)
{
return getParam(key) != NULL;
}
PsychicWebParameter * PsychicRequest::getParam(const char *key)
{
for (auto *param : _params)
if (param->name().equals(key))
return param;
return NULL;
}
bool PsychicRequest::hasSessionKey(const String& key)
{
return this->_session->find(key) != this->_session->end();
}
const String PsychicRequest::getSessionKey(const String& key)
{
auto it = this->_session->find(key);
if (it != this->_session->end())
return it->second;
else
return "";
}
void PsychicRequest::setSessionKey(const String& key, const String& value)
{
this->_session->insert(std::pair<String, String>(key, value));
}
static const String md5str(const String &in){
MD5Builder md5 = MD5Builder();
md5.begin();
md5.add(in);
md5.calculate();
return md5.toString();
}
bool PsychicRequest::authenticate(const char * username, const char * password)
{
if(hasHeader("Authorization"))
{
String authReq = header("Authorization");
if(authReq.startsWith("Basic")){
authReq = authReq.substring(6);
authReq.trim();
char toencodeLen = strlen(username)+strlen(password)+1;
char *toencode = new char[toencodeLen + 1];
if(toencode == NULL){
authReq = "";
return false;
}
char *encoded = new char[base64_encode_expected_len(toencodeLen)+1];
if(encoded == NULL){
authReq = "";
delete[] toencode;
return false;
}
sprintf(toencode, "%s:%s", username, password);
if(base64_encode_chars(toencode, toencodeLen, encoded) > 0 && authReq.equalsConstantTime(encoded)) {
authReq = "";
delete[] toencode;
delete[] encoded;
return true;
}
delete[] toencode;
delete[] encoded;
}
else if(authReq.startsWith(F("Digest")))
{
authReq = authReq.substring(7);
String _username = _extractParam(authReq,F("username=\""),'\"');
if(!_username.length() || _username != String(username)) {
authReq = "";
return false;
}
// extracting required parameters for RFC 2069 simpler Digest
String _realm = _extractParam(authReq, F("realm=\""),'\"');
String _nonce = _extractParam(authReq, F("nonce=\""),'\"');
String _uri = _extractParam(authReq, F("uri=\""),'\"');
String _resp = _extractParam(authReq, F("response=\""),'\"');
String _opaque = _extractParam(authReq, F("opaque=\""),'\"');
if((!_realm.length()) || (!_nonce.length()) || (!_uri.length()) || (!_resp.length()) || (!_opaque.length())) {
authReq = "";
return false;
}
if((_opaque != this->getSessionKey("opaque")) || (_nonce != this->getSessionKey("nonce")) || (_realm != this->getSessionKey("realm")))
{
// DUMP(_opaque);
// DUMP(this->getSessionKey("opaque"));
// DUMP(_nonce);
// DUMP(this->getSessionKey("nonce"));
// DUMP(_realm);
// DUMP(this->getSessionKey("realm"));
authReq = "";
return false;
}
// parameters for the RFC 2617 newer Digest
String _nc,_cnonce;
if(authReq.indexOf("qop=auth") != -1 || authReq.indexOf("qop=\"auth\"") != -1) {
_nc = _extractParam(authReq, F("nc="), ',');
_cnonce = _extractParam(authReq, F("cnonce=\""),'\"');
}
String _H1 = md5str(String(username) + ':' + _realm + ':' + String(password));
ESP_LOGD(PH_TAG, "Hash of user:realm:pass=%s", _H1);
String _H2 = "";
if(_method == HTTP_GET){
_H2 = md5str(String(F("GET:")) + _uri);
}else if(_method == HTTP_POST){
_H2 = md5str(String(F("POST:")) + _uri);
}else if(_method == HTTP_PUT){
_H2 = md5str(String(F("PUT:")) + _uri);
}else if(_method == HTTP_DELETE){
_H2 = md5str(String(F("DELETE:")) + _uri);
}else{
_H2 = md5str(String(F("GET:")) + _uri);
}
ESP_LOGD(PH_TAG, "Hash of GET:uri=%s", _H2);
String _responsecheck = "";
if(authReq.indexOf("qop=auth") != -1 || authReq.indexOf("qop=\"auth\"") != -1) {
_responsecheck = md5str(_H1 + ':' + _nonce + ':' + _nc + ':' + _cnonce + F(":auth:") + _H2);
} else {
_responsecheck = md5str(_H1 + ':' + _nonce + ':' + _H2);
}
ESP_LOGD(PH_TAG, "The Proper response=%s", _responsecheck);
if(_resp == _responsecheck){
authReq = "";
return true;
}
}
authReq = "";
}
return false;
}
const String PsychicRequest::_extractParam(const String& authReq, const String& param, const char delimit)
{
int _begin = authReq.indexOf(param);
if (_begin == -1)
return "";
return authReq.substring(_begin+param.length(),authReq.indexOf(delimit,_begin+param.length()));
}
const String PsychicRequest::_getRandomHexString()
{
char buffer[33]; // buffer to hold 32 Hex Digit + /0
int i;
for(i = 0; i < 4; i++) {
sprintf (buffer + (i*8), "%08lx", esp_random());
}
return String(buffer);
}
esp_err_t PsychicRequest::requestAuthentication(HTTPAuthMethod mode, const char* realm, const char* authFailMsg)
{
//what is thy realm, sire?
if(!strcmp(realm, ""))
this->setSessionKey("realm", "Login Required");
else
this->setSessionKey("realm", realm);
PsychicResponse response(this);
String authStr;
//what kind of auth?
if(mode == BASIC_AUTH)
{
authStr = "Basic realm=\"" + this->getSessionKey("realm") + "\"";
response.addHeader("WWW-Authenticate", authStr.c_str());
}
else
{
//only make new ones if we havent sent them yet
if (this->getSessionKey("nonce").isEmpty())
this->setSessionKey("nonce", _getRandomHexString());
if (this->getSessionKey("opaque").isEmpty())
this->setSessionKey("opaque", _getRandomHexString());
authStr = "Digest realm=\"" + this->getSessionKey("realm") + "\", qop=\"auth\", nonce=\"" + this->getSessionKey("nonce") + "\", opaque=\"" + this->getSessionKey("opaque") + "\"";
response.addHeader("WWW-Authenticate", authStr.c_str());
}
//DUMP(authStr);
response.setCode(401);
response.setContentType("text/html");
response.setContent(authStr.c_str());
return response.send();
}
esp_err_t PsychicRequest::reply(int code)
{
PsychicResponse response(this);
response.setCode(code);
response.setContentType("text/plain");
response.setContent(http_status_reason(code));
return response.send();
}
esp_err_t PsychicRequest::reply(const char *content)
{
PsychicResponse response(this);
response.setCode(200);
response.setContentType("text/html");
response.setContent(content);
return response.send();
}
esp_err_t PsychicRequest::reply(int code, const char *contentType, const char *content)
{
PsychicResponse response(this);
response.setCode(code);
response.setContentType(contentType);
response.setContent(content);
return response.send();
}

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#ifndef PsychicRequest_h
#define PsychicRequest_h
#include "PsychicCore.h"
#include "PsychicHttpServer.h"
#include "PsychicClient.h"
#include "PsychicWebParameter.h"
#include "PsychicResponse.h"
typedef std::map<String, String> SessionData;
enum Disposition { NONE, INLINE, ATTACHMENT, FORM_DATA};
struct ContentDisposition {
Disposition disposition;
String filename;
String name;
};
class PsychicRequest {
friend PsychicHttpServer;
protected:
PsychicHttpServer *_server;
httpd_req_t *_req;
SessionData *_session;
PsychicClient *_client;
http_method _method;
String _uri;
String _query;
String _body;
std::list<PsychicWebParameter*> _params;
void _addParams(const String& params);
void _parseGETParams();
void _parsePOSTParams();
const String _extractParam(const String& authReq, const String& param, const char delimit);
const String _getRandomHexString();
public:
PsychicRequest(PsychicHttpServer *server, httpd_req_t *req);
virtual ~PsychicRequest();
void *_tempObject;
PsychicHttpServer * server();
httpd_req_t * request();
virtual PsychicClient * client();
bool isMultipart();
esp_err_t loadBody();
const String header(const char *name);
bool hasHeader(const char *name);
static void freeSession(void *ctx);
bool hasSessionKey(const String& key);
const String getSessionKey(const String& key);
void setSessionKey(const String& key, const String& value);
bool hasCookie(const char * key);
const String getCookie(const char * key);
http_method method(); // returns the HTTP method used as enum value (eg. HTTP_GET)
const String methodStr(); // returns the HTTP method used as a string (eg. "GET")
const String path(); // returns the request path (eg /page?foo=bar returns "/page")
const String& uri(); // returns the full request uri (eg /page?foo=bar)
const String& query(); // returns the request query data (eg /page?foo=bar returns "foo=bar")
const String host(); // returns the requested host (request to http://psychic.local/foo will return "psychic.local")
const String contentType(); // returns the Content-Type header value
size_t contentLength(); // returns the Content-Length header value
const String& body(); // returns the body of the request
const ContentDisposition getContentDisposition();
const String& queryString() { return query(); } //compatability function. same as query()
const String& url() { return uri(); } //compatability function. same as uri()
void loadParams();
PsychicWebParameter * addParam(PsychicWebParameter *param);
PsychicWebParameter * addParam(const String &name, const String &value, bool decode = true);
bool hasParam(const char *key);
PsychicWebParameter * getParam(const char *name);
const String getFilename();
bool authenticate(const char * username, const char * password);
esp_err_t requestAuthentication(HTTPAuthMethod mode, const char* realm, const char* authFailMsg);
esp_err_t redirect(const char *url);
esp_err_t reply(int code);
esp_err_t reply(const char *content);
esp_err_t reply(int code, const char *contentType, const char *content);
};
#endif // PsychicRequest_h

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#include "PsychicResponse.h"
#include "PsychicRequest.h"
#include <http_status.h>
PsychicResponse::PsychicResponse(PsychicRequest *request) :
_request(request),
_code(200),
_status(""),
_contentLength(0),
_body("")
{
}
PsychicResponse::~PsychicResponse()
{
//clean up our header variables. we have to do this since httpd_resp_send doesn't store copies
for (HTTPHeader header : _headers)
{
free(header.field);
free(header.value);
}
_headers.clear();
}
void PsychicResponse::addHeader(const char *field, const char *value)
{
//these get freed during send()
HTTPHeader header;
header.field =(char *)malloc(strlen(field)+1);
header.value = (char *)malloc(strlen(value)+1);
strlcpy(header.field, field, strlen(field)+1);
strlcpy(header.value, value, strlen(value)+1);
_headers.push_back(header);
}
void PsychicResponse::setCookie(const char *name, const char *value, unsigned long secondsFromNow, const char *extras)
{
time_t now = time(nullptr);
String output;
output = urlEncode(name) + "=" + urlEncode(value);
//if current time isn't modern, default to using max age
if (now < 1700000000)
output += "; Max-Age=" + String(secondsFromNow);
//otherwise, set an expiration date
else
{
time_t expirationTimestamp = now + secondsFromNow;
// Convert the expiration timestamp to a formatted string for the "expires" attribute
struct tm* tmInfo = gmtime(&expirationTimestamp);
char expires[30];
strftime(expires, sizeof(expires), "%a, %d %b %Y %H:%M:%S GMT", tmInfo);
output += "; Expires=" + String(expires);
}
//did we get any extras?
if (strlen(extras))
output += "; " + String(extras);
//okay, add it in.
addHeader("Set-Cookie", output.c_str());
}
// time_t now = time(nullptr);
// // Set the cookie with the "expires" attribute
void PsychicResponse::setCode(int code)
{
_code = code;
}
void PsychicResponse::setContentType(const char *contentType)
{
httpd_resp_set_type(_request->request(), contentType);
}
void PsychicResponse::setContent(const char *content)
{
_body = content;
setContentLength(strlen(content));
}
void PsychicResponse::setContent(const uint8_t *content, size_t len)
{
_body = (char *)content;
setContentLength(len);
}
const char * PsychicResponse::getContent()
{
return _body;
}
size_t PsychicResponse::getContentLength()
{
return _contentLength;
}
esp_err_t PsychicResponse::send()
{
//esp-idf makes you set the whole status.
sprintf(_status, "%u %s", _code, http_status_reason(_code));
httpd_resp_set_status(_request->request(), _status);
//our headers too
this->sendHeaders();
//now send it off
esp_err_t err = httpd_resp_send(_request->request(), getContent(), getContentLength());
//did something happen?
if (err != ESP_OK)
ESP_LOGE(PH_TAG, "Send response failed (%s)", esp_err_to_name(err));
return err;
}
void PsychicResponse::sendHeaders()
{
//get our global headers out of the way first
for (HTTPHeader header : DefaultHeaders::Instance().getHeaders())
httpd_resp_set_hdr(_request->request(), header.field, header.value);
//now do our individual headers
for (HTTPHeader header : _headers)
httpd_resp_set_hdr(this->_request->request(), header.field, header.value);
}
esp_err_t PsychicResponse::sendChunk(uint8_t *chunk, size_t chunksize)
{
/* Send the buffer contents as HTTP response chunk */
esp_err_t err = httpd_resp_send_chunk(this->_request->request(), (char *)chunk, chunksize);
if (err != ESP_OK)
{
ESP_LOGE(PH_TAG, "File sending failed (%s)", esp_err_to_name(err));
/* Abort sending file */
httpd_resp_sendstr_chunk(this->_request->request(), NULL);
/* Respond with 500 Internal Server Error */
httpd_resp_send_err(this->_request->request(), HTTPD_500_INTERNAL_SERVER_ERROR, "Failed to send file");
}
return err;
}
esp_err_t PsychicResponse::finishChunking()
{
/* Respond with an empty chunk to signal HTTP response completion */
return httpd_resp_send_chunk(this->_request->request(), NULL, 0);
}

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#ifndef PsychicResponse_h
#define PsychicResponse_h
#include "PsychicCore.h"
#include "time.h"
class PsychicRequest;
class PsychicResponse
{
protected:
PsychicRequest *_request;
int _code;
char _status[60];
std::list<HTTPHeader> _headers;
int64_t _contentLength;
const char * _body;
public:
PsychicResponse(PsychicRequest *request);
virtual ~PsychicResponse();
void setCode(int code);
void setContentType(const char *contentType);
void setContentLength(int64_t contentLength) { _contentLength = contentLength; }
int64_t getContentLength(int64_t contentLength) { return _contentLength; }
void addHeader(const char *field, const char *value);
void setCookie(const char *key, const char *value, unsigned long max_age = 60*60*24*30, const char *extras = "");
void setContent(const char *content);
void setContent(const uint8_t *content, size_t len);
const char * getContent();
size_t getContentLength();
virtual esp_err_t send();
void sendHeaders();
esp_err_t sendChunk(uint8_t *chunk, size_t chunksize);
esp_err_t finishChunking();
};
#endif // PsychicResponse_h

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#include "PsychicStaticFileHandler.h"
/*************************************/
/* PsychicStaticFileHandler */
/*************************************/
PsychicStaticFileHandler::PsychicStaticFileHandler(const char* uri, FS& fs, const char* path, const char* cache_control)
: _fs(fs), _uri(uri), _path(path), _default_file("index.html"), _cache_control(cache_control), _last_modified("")
{
// Ensure leading '/'
if (_uri.length() == 0 || _uri[0] != '/') _uri = "/" + _uri;
if (_path.length() == 0 || _path[0] != '/') _path = "/" + _path;
// If path ends with '/' we assume a hint that this is a directory to improve performance.
// However - if it does not end with '/' we, can't assume a file, path can still be a directory.
_isDir = _path[_path.length()-1] == '/';
// Remove the trailing '/' so we can handle default file
// Notice that root will be "" not "/"
if (_uri[_uri.length()-1] == '/') _uri = _uri.substring(0, _uri.length()-1);
if (_path[_path.length()-1] == '/') _path = _path.substring(0, _path.length()-1);
// Reset stats
_gzipFirst = false;
_gzipStats = 0xF8;
}
PsychicStaticFileHandler& PsychicStaticFileHandler::setIsDir(bool isDir){
_isDir = isDir;
return *this;
}
PsychicStaticFileHandler& PsychicStaticFileHandler::setDefaultFile(const char* filename){
_default_file = String(filename);
return *this;
}
PsychicStaticFileHandler& PsychicStaticFileHandler::setCacheControl(const char* cache_control){
_cache_control = String(cache_control);
return *this;
}
PsychicStaticFileHandler& PsychicStaticFileHandler::setLastModified(const char* last_modified){
_last_modified = String(last_modified);
return *this;
}
PsychicStaticFileHandler& PsychicStaticFileHandler::setLastModified(struct tm* last_modified){
char result[30];
strftime (result,30,"%a, %d %b %Y %H:%M:%S %Z", last_modified);
return setLastModified((const char *)result);
}
bool PsychicStaticFileHandler::canHandle(PsychicRequest *request)
{
if(request->method() != HTTP_GET || !request->uri().startsWith(_uri) )
return false;
if (_getFile(request))
return true;
return false;
}
bool PsychicStaticFileHandler::_getFile(PsychicRequest *request)
{
// Remove the found uri
String path = request->uri().substring(_uri.length());
// We can skip the file check and look for default if request is to the root of a directory or that request path ends with '/'
bool canSkipFileCheck = (_isDir && path.length() == 0) || (path.length() && path[path.length()-1] == '/');
path = _path + path;
// Do we have a file or .gz file
if (!canSkipFileCheck && _fileExists(path))
return true;
// Can't handle if not default file
if (_default_file.length() == 0)
return false;
// Try to add default file, ensure there is a trailing '/' ot the path.
if (path.length() == 0 || path[path.length()-1] != '/')
path += "/";
path += _default_file;
return _fileExists(path);
}
#define FILE_IS_REAL(f) (f == true && !f.isDirectory())
bool PsychicStaticFileHandler::_fileExists(const String& path)
{
bool fileFound = false;
bool gzipFound = false;
String gzip = path + ".gz";
if (_gzipFirst) {
_file = _fs.open(gzip, "r");
gzipFound = FILE_IS_REAL(_file);
if (!gzipFound){
_file = _fs.open(path, "r");
fileFound = FILE_IS_REAL(_file);
}
} else {
_file = _fs.open(path, "r");
fileFound = FILE_IS_REAL(_file);
if (!fileFound){
_file = _fs.open(gzip, "r");
gzipFound = FILE_IS_REAL(_file);
}
}
bool found = fileFound || gzipFound;
if (found)
{
_filename = path;
// Calculate gzip statistic
_gzipStats = (_gzipStats << 1) + (gzipFound ? 1 : 0);
if (_gzipStats == 0x00) _gzipFirst = false; // All files are not gzip
else if (_gzipStats == 0xFF) _gzipFirst = true; // All files are gzip
else _gzipFirst = _countBits(_gzipStats) > 4; // IF we have more gzip files - try gzip first
}
return found;
}
uint8_t PsychicStaticFileHandler::_countBits(const uint8_t value) const
{
uint8_t w = value;
uint8_t n;
for (n=0; w!=0; n++) w&=w-1;
return n;
}
esp_err_t PsychicStaticFileHandler::handleRequest(PsychicRequest *request)
{
if (_file == true)
{
DUMP(_filename);
//is it not modified?
String etag = String(_file.size());
if (_last_modified.length() && _last_modified == request->header("If-Modified-Since"))
{
DUMP("Last Modified Hit");
TRACE();
_file.close();
request->reply(304); // Not modified
}
//does our Etag match?
else if (_cache_control.length() && request->hasHeader("If-None-Match") && request->header("If-None-Match").equals(etag))
{
DUMP("Etag Hit");
DUMP(etag);
DUMP(_cache_control);
_file.close();
PsychicResponse response(request);
response.addHeader("Cache-Control", _cache_control.c_str());
response.addHeader("ETag", etag.c_str());
response.setCode(304);
response.send();
}
//nope, send them the full file.
else
{
DUMP("No cache hit");
DUMP(_last_modified);
DUMP(_cache_control);
PsychicFileResponse response(request, _fs, _filename);
if (_last_modified.length())
response.addHeader("Last-Modified", _last_modified.c_str());
if (_cache_control.length()) {
response.addHeader("Cache-Control", _cache_control.c_str());
response.addHeader("ETag", etag.c_str());
}
return response.send();
}
} else {
return request->reply(404);
}
return ESP_OK;
}

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#ifndef PsychicStaticFileHandler_h
#define PsychicStaticFileHandler_h
#include "PsychicCore.h"
#include "PsychicWebHandler.h"
#include "PsychicRequest.h"
#include "PsychicResponse.h"
#include "PsychicFileResponse.h"
class PsychicStaticFileHandler : public PsychicWebHandler {
using File = fs::File;
using FS = fs::FS;
private:
bool _getFile(PsychicRequest *request);
bool _fileExists(const String& path);
uint8_t _countBits(const uint8_t value) const;
protected:
FS _fs;
File _file;
String _filename;
String _uri;
String _path;
String _default_file;
String _cache_control;
String _last_modified;
bool _isDir;
bool _gzipFirst;
uint8_t _gzipStats;
public:
PsychicStaticFileHandler(const char* uri, FS& fs, const char* path, const char* cache_control);
bool canHandle(PsychicRequest *request) override;
esp_err_t handleRequest(PsychicRequest *request) override;
PsychicStaticFileHandler& setIsDir(bool isDir);
PsychicStaticFileHandler& setDefaultFile(const char* filename);
PsychicStaticFileHandler& setCacheControl(const char* cache_control);
PsychicStaticFileHandler& setLastModified(const char* last_modified);
PsychicStaticFileHandler& setLastModified(struct tm* last_modified);
//PsychicStaticFileHandler& setTemplateProcessor(AwsTemplateProcessor newCallback) {_callback = newCallback; return *this;}
};
#endif /* PsychicHttp_h */

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lib/PsychicHttp/src/PsychicStreamResponse.cpp Normal file
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#include "PsychicStreamResponse.h"
#include "PsychicResponse.h"
#include "PsychicRequest.h"
PsychicStreamResponse::PsychicStreamResponse(PsychicRequest *request, const String& contentType)
: PsychicResponse(request), _buffer(NULL) {
setContentType(contentType.c_str());
addHeader("Content-Disposition", "inline");
}
PsychicStreamResponse::PsychicStreamResponse(PsychicRequest *request, const String& contentType, const String& name)
: PsychicResponse(request), _buffer(NULL) {
setContentType(contentType.c_str());
char buf[26+name.length()];
snprintf(buf, sizeof (buf), "attachment; filename=\"%s\"", name);
addHeader("Content-Disposition", buf);
}
PsychicStreamResponse::~PsychicStreamResponse()
{
endSend();
}
esp_err_t PsychicStreamResponse::beginSend()
{
if(_buffer)
return ESP_OK;
//Buffer to hold ChunkPrinter and stream buffer. Using placement new will keep us at a single allocation.
_buffer = (uint8_t*)malloc(STREAM_CHUNK_SIZE + sizeof(ChunkPrinter));
if(!_buffer)
{
/* Respond with 500 Internal Server Error */
httpd_resp_send_err(_request->request(), HTTPD_500_INTERNAL_SERVER_ERROR, "Unable to allocate memory.");
return ESP_FAIL;
}
_printer = new (_buffer) ChunkPrinter(this, _buffer + sizeof(ChunkPrinter), STREAM_CHUNK_SIZE);
sendHeaders();
return ESP_OK;
}
esp_err_t PsychicStreamResponse::endSend()
{
esp_err_t err = ESP_OK;
if(!_buffer)
err = ESP_FAIL;
else
{
//flush & send remaining data.
_printer->flush();
err = finishChunking();
//Free memory
_printer->~ChunkPrinter();
free(_buffer);
_buffer = NULL;
}
return err;
}
void PsychicStreamResponse::flush()
{
if(_buffer)
_printer->flush();
}
size_t PsychicStreamResponse::write(uint8_t data)
{
return _buffer ? _printer->write(data) : 0;
}
size_t PsychicStreamResponse::copyFrom(Stream &stream)
{
size_t sentCount = 0;
if(_buffer)
{
while(stream.available())
sentCount += _printer->write(stream.read());
}
return sentCount;
}

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lib/PsychicHttp/src/PsychicStreamResponse.h Normal file
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#ifndef PsychicStreamResponse_h
#define PsychicStreamResponse_h
#include "PsychicCore.h"
#include "PsychicResponse.h"
#include "ChunkPrinter.h"
class PsychicRequest;
class PsychicStreamResponse : public PsychicResponse, public Print
{
private:
ChunkPrinter *_printer;
uint8_t *_buffer;
public:
PsychicStreamResponse(PsychicRequest *request, const String& contentType);
PsychicStreamResponse(PsychicRequest *request, const String& contentType, const String& name); //Download
~PsychicStreamResponse();
esp_err_t beginSend();
esp_err_t endSend();
virtual void flush() override;
size_t write(uint8_t data);
size_t copyFrom(Stream &stream);
using Print::write;
};
#endif // PsychicStreamResponse_h

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lib/PsychicHttp/src/PsychicUploadHandler.cpp Normal file
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#include "PsychicUploadHandler.h"
PsychicUploadHandler::PsychicUploadHandler() :
PsychicWebHandler()
, _temp()
, _parsedLength(0)
, _multiParseState(EXPECT_BOUNDARY)
, _boundaryPosition(0)
, _itemStartIndex(0)
, _itemSize(0)
, _itemName()
, _itemFilename()
, _itemType()
, _itemValue()
, _itemBuffer(0)
, _itemBufferIndex(0)
, _itemIsFile(false)
{}
PsychicUploadHandler::~PsychicUploadHandler() {}
bool PsychicUploadHandler::canHandle(PsychicRequest *request) {
return true;
}
esp_err_t PsychicUploadHandler::handleRequest(PsychicRequest *request)
{
esp_err_t err = ESP_OK;
//save it for later (multipart)
_request = request;
/* File cannot be larger than a limit */
if (request->contentLength() > request->server()->maxUploadSize)
{
ESP_LOGE(PH_TAG, "File too large : %d bytes", request->contentLength());
/* Respond with 400 Bad Request */
char error[50];
sprintf(error, "File size must be less than %u bytes!", request->server()->maxUploadSize);
httpd_resp_send_err(request->request(), HTTPD_400_BAD_REQUEST, error);
/* Return failure to close underlying connection else the incoming file content will keep the socket busy */
return ESP_FAIL;
}
//we might want to access some of these params
request->loadParams();
//TODO: support for the 100 header. not sure if we can do it.
// if (request->header("Expect").equals("100-continue"))
// {
// char response[] = "100 Continue";
// httpd_socket_send(self->server, httpd_req_to_sockfd(req), response, strlen(response), 0);
// }
//2 types of upload requests
if (request->isMultipart())
err = _multipartUploadHandler(request);
else
err = _basicUploadHandler(request);
//we can also call onRequest for some final processing and response
if (err == ESP_OK)
{
if (_requestCallback != NULL)
err = _requestCallback(request);
else
err = request->reply("Upload Successful.");
}
else
request->reply(500, "text/html", "Error processing upload.");
return err;
}
esp_err_t PsychicUploadHandler::_basicUploadHandler(PsychicRequest *request)
{
esp_err_t err = ESP_OK;
String filename = request->getFilename();
/* Retrieve the pointer to scratch buffer for temporary storage */
char *buf = (char *)malloc(FILE_CHUNK_SIZE);
int received;
unsigned long index = 0;
/* Content length of the request gives the size of the file being uploaded */
int remaining = request->contentLength();
while (remaining > 0)
{
#ifdef ENABLE_ASYNC
httpd_sess_update_lru_counter(request->server()->server, request->client()->socket());
#endif
ESP_LOGI(PH_TAG, "Remaining size : %d", remaining);
/* Receive the file part by part into a buffer */
if ((received = httpd_req_recv(request->request(), buf, min(remaining, FILE_CHUNK_SIZE))) <= 0)
{
/* Retry if timeout occurred */
if (received == HTTPD_SOCK_ERR_TIMEOUT)
continue;
//bail if we got an error
else if (received == HTTPD_SOCK_ERR_FAIL)
{
ESP_LOGE(PH_TAG, "Socket error");
err = ESP_FAIL;
break;
}
}
//call our upload callback here.
if (_uploadCallback != NULL)
{
err = _uploadCallback(request, filename, index, (uint8_t *)buf, received, (remaining - received == 0));
if (err != ESP_OK)
break;
}
else
{
ESP_LOGE(PH_TAG, "No upload callback specified!");
err = ESP_FAIL;
break;
}
/* Keep track of remaining size of the file left to be uploaded */
remaining -= received;
index += received;
}
//dont forget to free our buffer
free(buf);
return err;
}
esp_err_t PsychicUploadHandler::_multipartUploadHandler(PsychicRequest *request)
{
esp_err_t err = ESP_OK;
String value = request->header("Content-Type");
if (value.startsWith("multipart/")){
_boundary = value.substring(value.indexOf('=')+1);
_boundary.replace("\"","");
} else {
ESP_LOGE(PH_TAG, "No multipart boundary found.");
return request->reply(400, "text/html", "No multipart boundary found.");
}
char *buf = (char *)malloc(FILE_CHUNK_SIZE);
int received;
unsigned long index = 0;
/* Content length of the request gives the size of the file being uploaded */
int remaining = request->contentLength();
while (remaining > 0)
{
#ifdef ENABLE_ASYNC
httpd_sess_update_lru_counter(request->server()->server, request->client()->socket());
#endif
ESP_LOGI(PH_TAG, "Remaining size : %d", remaining);
/* Receive the file part by part into a buffer */
if ((received = httpd_req_recv(request->request(), buf, min(remaining, FILE_CHUNK_SIZE))) <= 0)
{
/* Retry if timeout occurred */
if (received == HTTPD_SOCK_ERR_TIMEOUT)
continue;
//bail if we got an error
else if (received == HTTPD_SOCK_ERR_FAIL)
{
ESP_LOGE(PH_TAG, "Socket error");
err = ESP_FAIL;
break;
}
}
//parse it 1 byte at a time.
for (int i=0; i<received; i++)
{
/* Keep track of remaining size of the file left to be uploaded */
remaining--;
index++;
//send it to our parser
_parseMultipartPostByte(buf[i], !remaining);
_parsedLength++;
}
}
//dont forget to free our buffer
free(buf);
return err;
}
PsychicUploadHandler * PsychicUploadHandler::onUpload(PsychicUploadCallback fn) {
_uploadCallback = fn;
return this;
}
void PsychicUploadHandler::_handleUploadByte(uint8_t data, bool last)
{
_itemBuffer[_itemBufferIndex++] = data;
if(last || _itemBufferIndex == FILE_CHUNK_SIZE)
{
if(_uploadCallback)
_uploadCallback(_request, _itemFilename, _itemSize - _itemBufferIndex, _itemBuffer, _itemBufferIndex, last);
_itemBufferIndex = 0;
}
}
#define itemWriteByte(b) do { _itemSize++; if(_itemIsFile) _handleUploadByte(b, last); else _itemValue+=(char)(b); } while(0)
void PsychicUploadHandler::_parseMultipartPostByte(uint8_t data, bool last)
{
if (_multiParseState == PARSE_ERROR)
{
// not sure we can end up with an error during buffer fill, but jsut to be safe
if (_itemBuffer != NULL)
{
free(_itemBuffer);
_itemBuffer = NULL;
}
return;
}
if(!_parsedLength){
_multiParseState = EXPECT_BOUNDARY;
_temp = String();
_itemName = String();
_itemFilename = String();
_itemType = String();
}
if(_multiParseState == WAIT_FOR_RETURN1){
if(data != '\r'){
itemWriteByte(data);
} else {
_multiParseState = EXPECT_FEED1;
}
} else if(_multiParseState == EXPECT_BOUNDARY){
if(_parsedLength < 2 && data != '-'){
ESP_LOGE(PH_TAG, "Multipart: No boundary");
_multiParseState = PARSE_ERROR;
return;
} else if(_parsedLength - 2 < _boundary.length() && _boundary.c_str()[_parsedLength - 2] != data){
ESP_LOGE(PH_TAG, "Multipart: Multipart malformed");
_multiParseState = PARSE_ERROR;
return;
} else if(_parsedLength - 2 == _boundary.length() && data != '\r'){
ESP_LOGE(PH_TAG, "Multipart: Multipart missing carriage return");
_multiParseState = PARSE_ERROR;
return;
} else if(_parsedLength - 3 == _boundary.length()){
if(data != '\n'){
ESP_LOGE(PH_TAG, "Multipart: Multipart missing newline");
_multiParseState = PARSE_ERROR;
return;
}
_multiParseState = PARSE_HEADERS;
_itemIsFile = false;
}
} else if(_multiParseState == PARSE_HEADERS){
if((char)data != '\r' && (char)data != '\n')
_temp += (char)data;
if((char)data == '\n'){
if(_temp.length()){
if(_temp.length() > 12 && _temp.substring(0, 12).equalsIgnoreCase("Content-Type")){
_itemType = _temp.substring(14);
_itemIsFile = true;
} else if(_temp.length() > 19 && _temp.substring(0, 19).equalsIgnoreCase("Content-Disposition")){
_temp = _temp.substring(_temp.indexOf(';') + 2);
while(_temp.indexOf(';') > 0){
String name = _temp.substring(0, _temp.indexOf('='));
String nameVal = _temp.substring(_temp.indexOf('=') + 2, _temp.indexOf(';') - 1);
if(name == "name"){
_itemName = nameVal;
} else if(name == "filename"){
_itemFilename = nameVal;
_itemIsFile = true;
}
_temp = _temp.substring(_temp.indexOf(';') + 2);
}
String name = _temp.substring(0, _temp.indexOf('='));
String nameVal = _temp.substring(_temp.indexOf('=') + 2, _temp.length() - 1);
if(name == "name"){
_itemName = nameVal;
} else if(name == "filename"){
_itemFilename = nameVal;
_itemIsFile = true;
}
}
_temp = String();
} else {
_multiParseState = WAIT_FOR_RETURN1;
//value starts from here
_itemSize = 0;
_itemStartIndex = _parsedLength;
_itemValue = String();
if(_itemIsFile){
if(_itemBuffer)
free(_itemBuffer);
_itemBuffer = (uint8_t*)malloc(FILE_CHUNK_SIZE);
if(_itemBuffer == NULL){
ESP_LOGE(PH_TAG, "Multipart: Failed to allocate buffer");
_multiParseState = PARSE_ERROR;
return;
}
_itemBufferIndex = 0;
}
}
}
} else if(_multiParseState == EXPECT_FEED1){
if(data != '\n'){
_multiParseState = WAIT_FOR_RETURN1;
itemWriteByte('\r'); _parseMultipartPostByte(data, last);
} else {
_multiParseState = EXPECT_DASH1;
}
} else if(_multiParseState == EXPECT_DASH1){
if(data != '-'){
_multiParseState = WAIT_FOR_RETURN1;
itemWriteByte('\r'); itemWriteByte('\n'); _parseMultipartPostByte(data, last);
} else {
_multiParseState = EXPECT_DASH2;
}
} else if(_multiParseState == EXPECT_DASH2){
if(data != '-'){
_multiParseState = WAIT_FOR_RETURN1;
itemWriteByte('\r'); itemWriteByte('\n'); itemWriteByte('-'); _parseMultipartPostByte(data, last);
} else {
_multiParseState = BOUNDARY_OR_DATA;
_boundaryPosition = 0;
}
} else if(_multiParseState == BOUNDARY_OR_DATA){
if(_boundaryPosition < _boundary.length() && _boundary.c_str()[_boundaryPosition] != data){
_multiParseState = WAIT_FOR_RETURN1;
itemWriteByte('\r'); itemWriteByte('\n'); itemWriteByte('-'); itemWriteByte('-');
uint8_t i;
for(i=0; i<_boundaryPosition; i++)
itemWriteByte(_boundary.c_str()[i]);
_parseMultipartPostByte(data, last);
} else if(_boundaryPosition == _boundary.length() - 1){
_multiParseState = DASH3_OR_RETURN2;
if(!_itemIsFile){
_request->addParam(_itemName, _itemValue);
//_addParam(new AsyncWebParameter(_itemName, _itemValue, true));
} else {
if(_itemSize){
if(_uploadCallback)
_uploadCallback(_request, _itemFilename, _itemSize - _itemBufferIndex, _itemBuffer, _itemBufferIndex, true);
_itemBufferIndex = 0;
_request->addParam(new PsychicWebParameter(_itemName, _itemFilename, true, true, _itemSize));
}
free(_itemBuffer);
_itemBuffer = NULL;
}
} else {
_boundaryPosition++;
}
} else if(_multiParseState == DASH3_OR_RETURN2){
if(data == '-' && (_request->contentLength() - _parsedLength - 4) != 0){
ESP_LOGE(PH_TAG, "ERROR: The parser got to the end of the POST but is expecting more bytes!");
_multiParseState = PARSE_ERROR;
return;
}
if(data == '\r'){
_multiParseState = EXPECT_FEED2;
} else if(data == '-' && _request->contentLength() == (_parsedLength + 4)){
_multiParseState = PARSING_FINISHED;
} else {
_multiParseState = WAIT_FOR_RETURN1;
itemWriteByte('\r'); itemWriteByte('\n'); itemWriteByte('-'); itemWriteByte('-');
uint8_t i; for(i=0; i<_boundary.length(); i++) itemWriteByte(_boundary.c_str()[i]);
_parseMultipartPostByte(data, last);
}
} else if(_multiParseState == EXPECT_FEED2){
if(data == '\n'){
_multiParseState = PARSE_HEADERS;
_itemIsFile = false;
} else {
_multiParseState = WAIT_FOR_RETURN1;
itemWriteByte('\r'); itemWriteByte('\n'); itemWriteByte('-'); itemWriteByte('-');
uint8_t i; for(i=0; i<_boundary.length(); i++) itemWriteByte(_boundary.c_str()[i]);
itemWriteByte('\r'); _parseMultipartPostByte(data, last);
}
}
}

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lib/PsychicHttp/src/PsychicUploadHandler.h Normal file
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#ifndef PsychicUploadHandler_h
#define PsychicUploadHandler_h
#include "PsychicCore.h"
#include "PsychicHttpServer.h"
#include "PsychicRequest.h"
#include "PsychicWebHandler.h"
#include "PsychicWebParameter.h"
//callback definitions
typedef std::function<esp_err_t(PsychicRequest *request, const String& filename, uint64_t index, uint8_t *data, size_t len, bool final)> PsychicUploadCallback;
/*
* HANDLER :: Can be attached to any endpoint or as a generic request handler.
*/
class PsychicUploadHandler : public PsychicWebHandler {
protected:
PsychicUploadCallback _uploadCallback;
PsychicRequest *_request;
String _temp;
size_t _parsedLength;
uint8_t _multiParseState;
String _boundary;
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;
esp_err_t _basicUploadHandler(PsychicRequest *request);
esp_err_t _multipartUploadHandler(PsychicRequest *request);
void _handleUploadByte(uint8_t data, bool last);
void _parseMultipartPostByte(uint8_t data, bool last);
public:
PsychicUploadHandler();
~PsychicUploadHandler();
bool canHandle(PsychicRequest *request) override;
esp_err_t handleRequest(PsychicRequest *request) override;
PsychicUploadHandler * onUpload(PsychicUploadCallback fn);
};
enum {
EXPECT_BOUNDARY,
PARSE_HEADERS,
WAIT_FOR_RETURN1,
EXPECT_FEED1,
EXPECT_DASH1,
EXPECT_DASH2,
BOUNDARY_OR_DATA,
DASH3_OR_RETURN2,
EXPECT_FEED2,
PARSING_FINISHED,
PARSE_ERROR
};
#endif // PsychicUploadHandler_h

74
lib/PsychicHttp/src/PsychicWebHandler.cpp Normal file
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#include "PsychicWebHandler.h"
PsychicWebHandler::PsychicWebHandler() :
PsychicHandler(),
_requestCallback(NULL),
_onOpen(NULL),
_onClose(NULL)
{}
PsychicWebHandler::~PsychicWebHandler() {}
bool PsychicWebHandler::canHandle(PsychicRequest *request) {
return true;
}
esp_err_t PsychicWebHandler::handleRequest(PsychicRequest *request)
{
//lookup our client
PsychicClient *client = checkForNewClient(request->client());
if (client->isNew)
openCallback(client);
/* Request body cannot be larger than a limit */
if (request->contentLength() > request->server()->maxRequestBodySize)
{
ESP_LOGE(PH_TAG, "Request body too large : %d bytes", request->contentLength());
/* Respond with 400 Bad Request */
char error[60];
sprintf(error, "Request body must be less than %u bytes!", request->server()->maxRequestBodySize);
httpd_resp_send_err(request->request(), HTTPD_400_BAD_REQUEST, error);
/* Return failure to close underlying connection else the incoming file content will keep the socket busy */
return ESP_FAIL;
}
//get our body loaded up.
esp_err_t err = request->loadBody();
if (err != ESP_OK)
return err;
//load our params in.
request->loadParams();
//okay, pass on to our callback.
if (this->_requestCallback != NULL)
err = this->_requestCallback(request);
return err;
}
PsychicWebHandler * PsychicWebHandler::onRequest(PsychicHttpRequestCallback fn) {
_requestCallback = fn;
return this;
}
void PsychicWebHandler::openCallback(PsychicClient *client) {
if (_onOpen != NULL)
_onOpen(client);
}
void PsychicWebHandler::closeCallback(PsychicClient *client) {
if (_onClose != NULL)
_onClose(getClient(client));
}
PsychicWebHandler * PsychicWebHandler::onOpen(PsychicClientCallback fn) {
_onOpen = fn;
return this;
}
PsychicWebHandler * PsychicWebHandler::onClose(PsychicClientCallback fn) {
_onClose = fn;
return this;
}

34
lib/PsychicHttp/src/PsychicWebHandler.h Normal file
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#ifndef PsychicWebHandler_h
#define PsychicWebHandler_h
// #include "PsychicCore.h"
// #include "PsychicHttpServer.h"
// #include "PsychicRequest.h"
#include "PsychicHandler.h"
/*
* HANDLER :: Can be attached to any endpoint or as a generic request handler.
*/
class PsychicWebHandler : public PsychicHandler {
protected:
PsychicHttpRequestCallback _requestCallback;
PsychicClientCallback _onOpen;
PsychicClientCallback _onClose;
public:
PsychicWebHandler();
~PsychicWebHandler();
virtual bool canHandle(PsychicRequest *request) override;
virtual esp_err_t handleRequest(PsychicRequest *request) override;
PsychicWebHandler * onRequest(PsychicHttpRequestCallback fn);
virtual void openCallback(PsychicClient *client);
virtual void closeCallback(PsychicClient *client);
PsychicWebHandler *onOpen(PsychicClientCallback fn);
PsychicWebHandler *onClose(PsychicClientCallback fn);
};
#endif

25
lib/PsychicHttp/src/PsychicWebParameter.h Normal file
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#ifndef PsychicWebParameter_h
#define PsychicWebParameter_h
/*
* PARAMETER :: Chainable object to hold GET/POST and FILE parameters
* */
class PsychicWebParameter {
private:
String _name;
String _value;
size_t _size;
bool _isForm;
bool _isFile;
public:
PsychicWebParameter(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; }
};
#endif //PsychicWebParameter_h

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