esp32_https_server/src/HTTPURLEncodedBodyParser.cpp at master · SysAdmin74/esp32_https_server

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#include "HTTPURLEncodedBodyParser.hpp"

#define CHUNKSIZE 512

#define MINCHUNKSIZE 64

namespace httpsserver {

HTTPURLEncodedBodyParser::HTTPURLEncodedBodyParser(HTTPRequest * req):

HTTPBodyParser(req),

bodyBuffer(NULL),

bodyPtr(NULL),

bodyLength(0),

fieldBuffer(""),

fieldPtr(NULL),

fieldRemainingLength(0)

{

bodyLength = _request->getContentLength();

if (bodyLength) {

// We know the body length. We try to read that much and give an error if it fails.

bodyBuffer = (char *)malloc(bodyLength+1);

if (bodyBuffer == NULL) {

HTTPS_LOGE("HTTPURLEncodedBodyParser: out of memory");

return;

}

bodyPtr = bodyBuffer;

size_t toRead = bodyLength;

while(toRead > 0) {

size_t didRead = _request->readChars(bodyPtr, toRead);

if (didRead == 0) {

HTTPS_LOGE("HTTPURLEncodedBodyParser: short read");

bodyLength = bodyPtr - bodyBuffer;

break;

}

bodyPtr += didRead;

toRead -= didRead;

}

} else {

// We don't know the length. Read as much as possible.

bodyBuffer = (char *)malloc(CHUNKSIZE+1);

if (bodyBuffer == NULL) {

HTTPS_LOGE("HTTPURLEncodedBodyParser: out of memory");

return;

}

bodyPtr = bodyBuffer;

size_t bufferUsed = 0;

size_t bufferAvailable = CHUNKSIZE;

while(!_request->requestComplete()) {

if (bufferAvailable < MINCHUNKSIZE) {

char *pBuf = (char *)realloc(bodyBuffer, bufferUsed + CHUNKSIZE+1);

if (pBuf == NULL) {

HTTPS_LOGE("HTTPURLEncodedBodyParser: out of memory");

free(bodyBuffer);

bodyBuffer = NULL;

return;

}

bodyBuffer = pBuf;

bufferAvailable = CHUNKSIZE;

}

size_t didRead = _request->readChars(bodyBuffer+bufferUsed, bufferAvailable);

bufferUsed += didRead;

bufferAvailable -= didRead;

}

bodyLength = bufferUsed;

}

bodyPtr = bodyBuffer;

bodyBuffer[bodyLength] = '\0';

}

HTTPURLEncodedBodyParser::~HTTPURLEncodedBodyParser() {

if (bodyBuffer) {

free(bodyBuffer);

}

bodyBuffer = NULL;

}

bool HTTPURLEncodedBodyParser::nextField() {

fieldBuffer = "";

fieldPtr = NULL;

fieldRemainingLength = 0;

char *equalPtr = index(bodyPtr, '=');

if (equalPtr == NULL) {

return false;

}

fieldName = std::string(bodyPtr, equalPtr-bodyPtr);

char *valuePtr = equalPtr + 1;

char *endPtr = index(valuePtr, '&');

if (endPtr == NULL) {

endPtr = equalPtr + strlen(equalPtr);

bodyPtr = endPtr;

} else {

bodyPtr = endPtr+1;

}

fieldBuffer = std::string(valuePtr, endPtr - valuePtr);

fieldBuffer = urlDecode(fieldBuffer);

fieldRemainingLength = fieldBuffer.size();

fieldPtr = fieldBuffer.c_str();

return true;

}

std::string HTTPURLEncodedBodyParser::getFieldName() {

return fieldName;

}

std::string HTTPURLEncodedBodyParser::getFieldFilename() {

return "";

}

std::string HTTPURLEncodedBodyParser::getFieldMimeType() {

return std::string("text/plain");

}

bool HTTPURLEncodedBodyParser::endOfField() {

return fieldRemainingLength <= 0;

}

size_t HTTPURLEncodedBodyParser::read(byte* buffer, size_t bufferSize) {

if (bufferSize > fieldRemainingLength) {

bufferSize = fieldRemainingLength;

}

memcpy(buffer, fieldPtr, bufferSize);

fieldRemainingLength -= bufferSize;

fieldPtr += bufferSize;

return bufferSize;

}

} /* namespace httpsserver */

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