Common stuff for all my devices' web server pages: css, login, log, ipv4, ipv6, firmware update, clock, reset info etc.
Dependents: oldheating gps motorhome heating
Security
A password has to be set whenever there has been a software reset. Resets following faults or power on do not require a new password as the hash is restored from the RTC GPREG register.
The password is not saved on the device; instead a 32 bit hash of the password is saved. It would take 2^31 attempts to brute force the password: this could be done in under a month if an attempt were possible every millisecond. To prevent this a 200 ms delay is introduced in the reply to the login form, that gives a more reasonable 13 years to brute force the password.
Once the password is accepted a random session id is created. This is 36 bit to give six base 64 characters but without an extra delay. If an attempt could be made every ms then this would still take over a year to brute force.
The most likely attack would to use a dictionary with, say, 10 million entries against the password which would still take 20 days to do.
http/http.h
- Committer:
- andrewboyson
- Date:
- 2019-09-24
- Revision:
- 130:9a5b8fe308f1
- Child:
- 135:c1490f7e95be
File content as of revision 130:9a5b8fe308f1:
#include <stdbool.h> #include <stdarg.h> #include <stdint.h> #include <time.h> #define HTTP_WAIT 0 #define HTTP_FINISHED 1 #define HTTP_HAVE_SOMETHING_TO_SEND 2 extern void HttpReset (int connectionId); extern bool HttpResponse(int connectionId, bool clientFinished, int* pWindowSize, char* pWindow, uint32_t windowPositionInStream); extern bool HttpAdd (int connectionId, int* pWindowSize, char* pWindow, uint32_t windowPositionInStream); //returns true if finished; false if not extern int HttpPoll (int connectionId, bool clientFinished); //returns true if something to send; false if not extern void HttpRequest (int connectionId, int windowSize, char* pWindow, uint32_t windowPositionInStream); extern bool HttpGetTrace(void); extern void HttpAddStart (uint32_t position, int mss, char *pData); extern int HttpAddLength (void); extern bool HttpAddFilled (void); extern void HttpAddChar (char c); extern void HttpAddFillChar (char c, int length); extern int HttpAddText (const char* text); extern int HttpAddV (char *fmt, va_list argptr); extern int HttpAddF (char *fmt, ...); extern void HttpAddData (const char* data, int length); extern void HttpAddStream (void (*startFunction)(void), int (*enumerateFunction)(void)); extern void HttpAddNibbleAsHex (int value); extern void HttpAddByteAsHex (int value); extern void HttpAddInt12AsHex (int value); extern void HttpAddInt16AsHex (int value); extern void HttpAddInt32AsHex (int value); extern void HttpAddInt64AsHex (int64_t value); extern void HttpAddBytesAsHex (const uint8_t* value, int size); extern void HttpAddBytesAsHexRev(const uint8_t* value, int size); extern void HttpAddTm (struct tm* ptm); extern void HttpOk(const char* contentType, const char* cacheControl, const char* lastModifiedDate, const char* lastModifiedTime); extern char* HttpOkCookieName; extern char* HttpOkCookieValue; extern int HttpOkCookieMaxAge; extern void HttpNotFound (void); extern void HttpNotModified (void); extern int HttpRequestRead(char *p, int len, char** ppMethod, char** ppPath, char** ppQuery, char** ppLastModified, char** ppCookies, int* pContentLength); extern char* HttpCookiesSplit (char* pCookies, char** ppName, char** ppValue); extern char* HttpQuerySplit (char* pQuery, char** ppName, char** ppValue); extern int HttpQueryValueAsInt(char* pValue); extern void HttpQueryUnencode (char* pValue); extern void HttpDateFromDateTime(const char* date, const char *ptime, char* ptext); extern void HttpDateFromNow(char* pText); extern bool HttpSameStr (const char* pa, const char* pb); extern bool HttpSameStrCaseInsensitive(const char* pa, const char* pb); extern bool HttpSameDate (const char* date, const char* time, const char* pOtherDate); #define HTTP_DATE_LENGTH 30