/** @file CRT wrapper functions for system call,the string operation functions are remodeled after edk2-libc. Copyright (c) 2019, Intel Corporation. All rights reserved.
(C) Copyright 2020 Hewlett Packard Enterprise Development LP
SPDX-License-Identifier: BSD-2-Clause-Patent **/ #include #include #include #include #include int errno = 0; char errnum_message[] = "We don't support to map errnum to the error message on edk2 Redfish\n"; // This is required to keep VC++ happy if you use floating-point int _fltused = 1; /** Determine if a particular character is an alphanumeric character @return Returns 1 if c is an alphanumeric character, otherwise returns 0. **/ int isalnum ( int c ) { // // ::= [0-9] | [a-z] | [A-Z] // return ((('0' <= (c)) && ((c) <= '9')) || (('a' <= (c)) && ((c) <= 'z')) || (('A' <= (c)) && ((c) <= 'Z'))); } /** Determine if a particular character is a digital character @return Returns 1 if c is an digital character, otherwise returns 0. **/ int isdchar ( int c ) { // // [0-9] | [e +-.] // return ((('0' <= (c)) && ((c) <= '9')) || (c == 'e') || (c == 'E') || (c == '+') || (c == '-') || (c == '.')); } /** Determine if a particular character is a space character @return Returns 1 if c is a space character **/ int isspace ( int c ) { // // ::= [ ] // return ((c) == ' ') || ((c) == '\t') || ((c) == '\r') || ((c) == '\n') || ((c) == '\v') || ((c) == '\f'); } /** Allocates memory blocks */ void * malloc ( size_t size ) { return AllocatePool ((UINTN)size); } /** De-allocates or frees a memory block */ void free ( void *ptr ) { // // In Standard C, free() handles a null pointer argument transparently. This // is not true of FreePool() below, so protect it. // if (ptr != NULL) { FreePool (ptr); } } /** NetBSD Compatibility Function strdup creates a duplicate copy of a string. @return Returns the pointer to duplicated string. **/ char * strdup ( const char *str ) { size_t len; char *copy; len = strlen (str) + 1; if ((copy = malloc (len)) == NULL) { return (NULL); } memcpy (copy, str, len); return (copy); } /** The toupper function converts a lowercase letter to a corresponding uppercase letter. @param[in] c The character to be converted. @return If the argument is a character for which islower is true and there are one or more corresponding characters, as specified by the current locale, for which isupper is true, the toupper function returns one of the corresponding characters (always the same one for any given locale); otherwise, the argument is returned unchanged. **/ int toupper ( IN int c ) { if ((c >= 'a') && (c <= 'z')) { c = c - ('a' - 'A'); } return c; } /** Digit to a value. @return Returns the value of digit. **/ int Digit2Val ( int c ) { if (((c >= 'a') && (c <= 'z')) || ((c >= 'A') && (c <= 'Z'))) { /* If c is one of [A-Za-z]... */ c = toupper (c) - 7; // Adjust so 'A' is ('9' + 1) } return c - '0'; // Value returned is between 0 and 35, inclusive. } /** The strtoll function converts the initial portion of the string pointed to by nptr to long long int representation. See the description for strtol for more information. @return The strtoll function returns the converted value, if any. If no conversion could be performed, zero is returned. If the correct value is outside the range of representable values, LLONG_MIN or LLONG_MAX is returned (according to the sign of the value, if any), and the value of the macro ERANGE is stored in errno. **/ long long strtoll ( const char *nptr, char **endptr, int base ) { const char *pEnd; long long Result = 0; long long Previous; int temp; BOOLEAN Negative = FALSE; pEnd = nptr; if ((base < 0) || (base == 1) || (base > 36)) { if (endptr != NULL) { *endptr = NULL; } return 0; } // Skip leading spaces. while (isspace (*nptr)) { ++nptr; } // Process Subject sequence: optional sign followed by digits. if (*nptr == '+') { Negative = FALSE; ++nptr; } else if (*nptr == '-') { Negative = TRUE; ++nptr; } if (*nptr == '0') { /* Might be Octal or Hex */ if (toupper (nptr[1]) == 'X') { /* Looks like Hex */ if ((base == 0) || (base == 16)) { nptr += 2; /* Skip the "0X" */ base = 16; /* In case base was 0 */ } } else { /* Looks like Octal */ if ((base == 0) || (base == 8)) { ++nptr; /* Skip the leading "0" */ base = 8; /* In case base was 0 */ } } } if (base == 0) { /* If still zero then must be decimal */ base = 10; } if (*nptr == '0') { for ( ; *nptr == '0'; ++nptr) { /* Skip any remaining leading zeros */ } pEnd = nptr; } while ( isalnum (*nptr) && ((temp = Digit2Val (*nptr)) < base)) { Previous = Result; Result = MultS64x64 (Result, base) + (long long int)temp; if ( Result <= Previous) { // Detect Overflow if (Negative) { Result = LLONG_MIN; } else { Result = LLONG_MAX; } Negative = FALSE; errno = ERANGE; break; } pEnd = ++nptr; } if (Negative) { Result = -Result; } // Save pointer to final sequence if (endptr != NULL) { *endptr = (char *)pEnd; } return Result; } /** The strtol, strtoll, strtoul, and strtoull functions convert the initial portion of the string pointed to by nptr to long int, long long int, unsigned long int, and unsigned long long int representation, respectively. First, they decompose the input string into three parts: an initial, possibly empty, sequence of white-space characters (as specified by the isspace function), a subject sequence resembling an integer represented in some radix determined by the value of base, and a final string of one or more unrecognized characters, including the terminating null character of the input string. Then, they attempt to convert the subject sequence to an integer, and return the result. If the value of base is zero, the expected form of the subject sequence is that of an integer constant, optionally preceded by a plus or minus sign, but not including an integer suffix. If the value of base is between 2 and 36 (inclusive), the expected form of the subject sequence is a sequence of letters and digits representing an integer with the radix specified by base, optionally preceded by a plus or minus sign, but not including an integer suffix. The letters from a (or A) through z (or Z) are ascribed the values 10 through 35; only letters and digits whose ascribed values are less than that of base are permitted. If the value of base is 16, the characters 0x or 0X may optionally precede the sequence of letters and digits, following the sign if present. The subject sequence is defined as the longest initial subsequence of the input string, starting with the first non-white-space character, that is of the expected form. The subject sequence contains no characters if the input string is empty or consists entirely of white space, or if the first non-white-space character is other than a sign or a permissible letter or digit. If the subject sequence has the expected form and the value of base is zero, the sequence of characters starting with the first digit is interpreted as an integer constant. If the subject sequence has the expected form and the value of base is between 2 and 36, it is used as the base for conversion, ascribing to each letter its value as given above. If the subject sequence begins with a minus sign, the value resulting from the conversion is negated (in the return type). A pointer to the final string is stored in the object pointed to by endptr, provided that endptr is not a null pointer. In other than the "C" locale, additional locale-specific subject sequence forms may be accepted. If the subject sequence is empty or does not have the expected form, no conversion is performed; the value of nptr is stored in the object pointed to by endptr, provided that endptr is not a null pointer. @return The strtol, strtoll, strtoul, and strtoull functions return the converted value, if any. If no conversion could be performed, zero is returned. If the correct value is outside the range of representable values, LONG_MIN, LONG_MAX, LLONG_MIN, LLONG_MAX, ULONG_MAX, or ULLONG_MAX is returned (according to the return type and sign of the value, if any), and the value of the macro ERANGE is stored in errno. **/ long strtol ( const char *nptr, char **endptr, int base ) { const char *pEnd; long Result = 0; long Previous; int temp; BOOLEAN Negative = FALSE; pEnd = nptr; if ((base < 0) || (base == 1) || (base > 36)) { if (endptr != NULL) { *endptr = NULL; } return 0; } // Skip leading spaces. while (isspace (*nptr)) { ++nptr; } // Process Subject sequence: optional sign followed by digits. if (*nptr == '+') { Negative = FALSE; ++nptr; } else if (*nptr == '-') { Negative = TRUE; ++nptr; } if (*nptr == '0') { /* Might be Octal or Hex */ if (toupper (nptr[1]) == 'X') { /* Looks like Hex */ if ((base == 0) || (base == 16)) { nptr += 2; /* Skip the "0X" */ base = 16; /* In case base was 0 */ } } else { /* Looks like Octal */ if ((base == 0) || (base == 8)) { ++nptr; /* Skip the leading "0" */ base = 8; /* In case base was 0 */ } } } if (base == 0) { /* If still zero then must be decimal */ base = 10; } if (*nptr == '0') { for ( ; *nptr == '0'; ++nptr) { /* Skip any remaining leading zeros */ } pEnd = nptr; } while ( isalnum (*nptr) && ((temp = Digit2Val (*nptr)) < base)) { Previous = Result; Result = (Result * base) + (long int)temp; if ( Result <= Previous) { // Detect Overflow if (Negative) { Result = LONG_MIN; } else { Result = LONG_MAX; } Negative = FALSE; errno = ERANGE; break; } pEnd = ++nptr; } if (Negative) { Result = -Result; } // Save pointer to final sequence if (endptr != NULL) { *endptr = (char *)pEnd; } return Result; } /** The strtoull function converts the initial portion of the string pointed to by nptr to unsigned long long int representation. See the description for strtol for more information. @return The strtoull function returns the converted value, if any. If no conversion could be performed, zero is returned. If the correct value is outside the range of representable values, ULLONG_MAX is returned and the value of the macro ERANGE is stored in errno. **/ unsigned long long strtoull ( const char *nptr, char **endptr, int base ) { const char *pEnd; unsigned long long Result = 0; unsigned long long Previous; int temp; pEnd = nptr; if ((base < 0) || (base == 1) || (base > 36)) { if (endptr != NULL) { *endptr = NULL; } return 0; } // Skip leading spaces. while (isspace (*nptr)) { ++nptr; } // Process Subject sequence: optional + sign followed by digits. if (*nptr == '+') { ++nptr; } if (*nptr == '0') { /* Might be Octal or Hex */ if (toupper (nptr[1]) == 'X') { /* Looks like Hex */ if ((base == 0) || (base == 16)) { nptr += 2; /* Skip the "0X" */ base = 16; /* In case base was 0 */ } } else { /* Looks like Octal */ if ((base == 0) || (base == 8)) { ++nptr; /* Skip the leading "0" */ base = 8; /* In case base was 0 */ } } } if (base == 0) { /* If still zero then must be decimal */ base = 10; } if (*nptr == '0') { for ( ; *nptr == '0'; ++nptr) { /* Skip any remaining leading zeros */ } pEnd = nptr; } while ( isalnum (*nptr) && ((temp = Digit2Val (*nptr)) < base)) { Previous = Result; Result = DivU64x32 (Result, base) + (unsigned long long)temp; if ( Result < Previous) { // If we overflowed Result = ULLONG_MAX; errno = ERANGE; break; } pEnd = ++nptr; } // Save pointer to final sequence if (endptr != NULL) { *endptr = (char *)pEnd; } return Result; } /** edk2 Jansson port does not support doubles, simply return 0. These conversion functions convert the initial portion of the string pointed to by nptr to double, float, and long double representation, respectively. The strtod(), strtof(), and strtold() functions return the converted value, if any. If endptr is not NULL, a pointer to the character after the last charac- ter used in the conversion is stored in the location referenced by endptr. If no conversion is performed, zero is returned and the value of nptr is stored in the location referenced by endptr. If the correct value would cause overflow, plus or minus HUGE_VAL, HUGE_VALF, or HUGE_VALL is returned (according to the sign and type of the return value), and ERANGE is stored in errno. If the correct value would cause underflow, zero is returned and ERANGE is stored in errno. @return Return 0. **/ double strtod ( const char *__restrict nptr, char **__restrict endptr ) { DEBUG ((DEBUG_INFO, "We don't supprot double type on edk2 yet!")); ASSERT (FALSE); return (double)0; } static UINT8 BitMask[] = { 0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80 }; #define WHICH8(c) ((unsigned char)(c) >> 3) #define WHICH_BIT(c) (BitMask[((c) & 0x7)]) #define BITMAP64 ((UINT64 *)bitmap) static void BuildBitmap ( unsigned char *bitmap, const char *s2, int n ) { unsigned char bit; int index; // Initialize bitmap. Bit 0 is always 1 which corresponds to '\0' for (BITMAP64[0] = index = 1; index < n; index++) { BITMAP64[index] = 0; } // Set bits in bitmap corresponding to the characters in s2 for ( ; *s2 != '\0'; s2++) { index = WHICH8 (*s2); bit = WHICH_BIT (*s2); bitmap[index] = bitmap[index] | bit; } } /** The strpbrk function locates the first occurrence in the string pointed to by s1 of any character from the string pointed to by s2. @return The strpbrk function returns a pointer to the character, or a null pointer if no character from s2 occurs in s1. **/ char * strpbrk ( const char *s1, const char *s2 ) { UINT8 bitmap[(((UCHAR_MAX + 1) / CHAR_BIT) + (CHAR_BIT - 1)) & ~7U]; UINT8 bit; int index; BuildBitmap (bitmap, s2, sizeof (bitmap) / sizeof (UINT64)); for ( ; *s1 != '\0'; ++s1) { index = WHICH8 (*s1); bit = WHICH_BIT (*s1); if ((bitmap[index] & bit) != 0) { return (char *)s1; } } return NULL; } /** The strerror function maps the number in errnum to a message string. Typically, the values for errnum come from errno, but strerror shall map any value of type int to a message. The implementation shall behave as if no library function calls the strerror function. @return The strerror function returns a pointer to the string, the contents of which are locale specific. The array pointed to shall not be modified by the program, but may be overwritten by a subsequent call to the strerror function. **/ char * strerror ( int errnum ) { return errnum_message; } /** Allocate and zero-initialize array. **/ void * calloc ( size_t Num, size_t Size ) { void *RetVal; size_t NumSize; NumSize = Num * Size; RetVal = NULL; if (NumSize != 0) { RetVal = malloc (NumSize); if ( RetVal != NULL) { (VOID)ZeroMem (RetVal, NumSize); } } DEBUG ((DEBUG_POOL, "0x%p = calloc(%d, %d)\n", RetVal, Num, Size)); return RetVal; } // // The arrays give the cumulative number of days up to the first of the // month number used as the index (1 -> 12) for regular and leap years. // The value at index 13 is for the whole year. // UINTN CumulativeDays[2][14] = { { 0, 0, 31, 31 + 28, 31 + 28 + 31, 31 + 28 + 31 + 30, 31 + 28 + 31 + 30 + 31, 31 + 28 + 31 + 30 + 31 + 30, 31 + 28 + 31 + 30 + 31 + 30 + 31, 31 + 28 + 31 + 30 + 31 + 30 + 31 + 31, 31 + 28 + 31 + 30 + 31 + 30 + 31 + 31 + 30, 31 + 28 + 31 + 30 + 31 + 30 + 31 + 31 + 30 + 31, 31 + 28 + 31 + 30 + 31 + 30 + 31 + 31 + 30 + 31 + 30, 31 + 28 + 31 + 30 + 31 + 30 + 31 + 31 + 30 + 31 + 30 + 31 }, { 0, 0, 31, 31 + 29, 31 + 29 + 31, 31 + 29 + 31 + 30, 31 + 29 + 31 + 30 + 31, 31 + 29 + 31 + 30 + 31 + 30, 31 + 29 + 31 + 30 + 31 + 30 + 31, 31 + 29 + 31 + 30 + 31 + 30 + 31 + 31, 31 + 29 + 31 + 30 + 31 + 30 + 31 + 31 + 30, 31 + 29 + 31 + 30 + 31 + 30 + 31 + 31 + 30 + 31, 31 + 29 + 31 + 30 + 31 + 30 + 31 + 31 + 30 + 31 + 30, 31 + 29 + 31 + 30 + 31 + 30 + 31 + 31 + 30 + 31 + 30 + 31 } }; #define IsLeap(y) (((y) % 4) == 0 && (((y) % 100) != 0 || ((y) % 400) == 0)) #define SECSPERMIN (60) #define SECSPERHOUR (60 * 60) #define SECSPERDAY (24 * SECSPERHOUR) /** Get the system time as seconds elapsed since midnight, January 1, 1970. **/ time_t time ( time_t *timer ) { EFI_TIME Time; time_t CalTime; UINTN Year; // // Get the current time and date information // gRT->GetTime (&Time, NULL); // // Years Handling // UTime should now be set to 00:00:00 on Jan 1 of the current year. // for (Year = 1970, CalTime = 0; Year != Time.Year; Year++) { CalTime = CalTime + (time_t)(CumulativeDays[IsLeap (Year)][13] * SECSPERDAY); } // // Add in number of seconds for current Month, Day, Hour, Minute, Seconds, and TimeZone adjustment // CalTime = CalTime + (time_t)((Time.TimeZone != EFI_UNSPECIFIED_TIMEZONE) ? (Time.TimeZone * 60) : 0) + (time_t)(CumulativeDays[IsLeap (Time.Year)][Time.Month] * SECSPERDAY) + (time_t)(((Time.Day > 0) ? Time.Day - 1 : 0) * SECSPERDAY) + (time_t)(Time.Hour * SECSPERHOUR) + (time_t)(Time.Minute * 60) + (time_t)Time.Second; if (timer != NULL) { *timer = CalTime; } return CalTime; } /** Performs a quick sort **/ void qsort ( void *base, size_t num, size_t width, int ( *compare )(const void *, const void *) ) { ASSERT (base != NULL); ASSERT (compare != NULL); PerformQuickSort (base, (UINTN)num, (UINTN)width, (SORT_COMPARE)compare); return; } /** Get character from stream, we don't support file operastion on edk2 JSON library. @return Returns the character currently pointed by the internal file position indicator of the specified stream **/ int fgetc ( FILE *_File ) { return EOF; } /** Open stream file, we don't support file operastion on edk2 JSON library. @return 0 Unsupported **/ FILE * fopen ( const char *filename, const char *mode ) { return NULL; } /** Read stream from file, we don't support file operastion on edk2 JSON library. @return 0 Unsupported **/ size_t fread ( void *ptr, size_t size, size_t count, FILE *stream ) { return 0; } /** Write stream from file, we don't support file operastion on edk2 JSON library. @return 0 Unsupported **/ size_t fwrite ( const void *ptr, size_t size, size_t count, FILE *stream ) { return 0; } /** Close file, we don't support file operastion on edk2 JSON library. @return 0 Unsupported **/ int fclose ( FILE *stream ) { return EOF; } /** Write the formatted string to file, we don't support file operastion on edk2 JSON library. @return 0 Unsupported **/ int fprintf ( FILE *stream, const char *format, ... ) { return -1; } /** This function check if this is the formating string specifier. @param[in] FormatString A Null-terminated ASCII format string. @param[in,out] CurrentPosition The starting position at the given string to check for "[flags][width][.precision][length]s" string specifier. @param[in] StrLength Maximum string length. @return BOOLEAN TRUE means this is the formating string specifier. CurrentPosition is returned at the position of "s". FALSE means this is not the formating string specifier.. CurrentPosition is returned at the position of failed character. **/ BOOLEAN CheckFormatingString ( IN CONST CHAR8 *FormatString, IN OUT UINTN *CurrentPosition, IN UINTN StrLength ) { CHAR8 FormatStringParamater; while (*(FormatString + *CurrentPosition) != 's') { // // Loop until reach character 's' if the formating string is // compliant with "[flags][width][.precision][length]" format for // the string specifier. // FormatStringParamater = *(FormatString + *CurrentPosition); if ((FormatStringParamater != '-') && (FormatStringParamater != '+') && (FormatStringParamater != '*') && (FormatStringParamater != '.') && !(((UINTN)FormatStringParamater >= (UINTN)'0') && ((UINTN)FormatStringParamater <= (UINTN)'9')) ) { return FALSE; } (*CurrentPosition)++; if (*CurrentPosition >= StrLength) { return FALSE; } } return TRUE; } /** This function clones *FormatString however replaces "%s" with "%a" in the returned string. @param[in] A Null-terminated ASCII format string. @return The new format string. Caller has to free the memory of this string using FreePool(). **/ CHAR8 * ReplaceUnicodeToAsciiStrFormat ( IN CONST CHAR8 *FormatString ) { UINTN FormatStrSize; UINTN FormatStrIndex; UINTN FormatStrSpecifier; BOOLEAN PercentageMark; CHAR8 *TempFormatBuffer; BOOLEAN IsFormatString; // // Error checking. // if (FormatString == NULL) { return NULL; } FormatStrSize = AsciiStrSize (FormatString); if (FormatStrSize == 0) { return NULL; } TempFormatBuffer = AllocatePool (FormatStrSize); // Allocate memory for the // new string. if (TempFormatBuffer == NULL) { return NULL; } // // Clone *FormatString but replace "%s" wih "%a". // "%%" is not considered as the format tag. // PercentageMark = FALSE; FormatStrIndex = 0; while (FormatStrIndex < FormatStrSize) { if (PercentageMark == TRUE) { // // Previous character is "%". // PercentageMark = FALSE; if (*(FormatString + FormatStrIndex) != '%') { // Check if this is double "%". FormatStrSpecifier = FormatStrIndex; // // Check if this is the formating string specifier. // IsFormatString = CheckFormatingString (FormatString, &FormatStrSpecifier, FormatStrSize); if ((FormatStrSpecifier - FormatStrIndex) != 0) { CopyMem ( (VOID *)(TempFormatBuffer + FormatStrIndex), (VOID *)(FormatString + FormatStrIndex), FormatStrSpecifier - FormatStrIndex ); } FormatStrIndex = FormatStrSpecifier; if (IsFormatString == TRUE) { // // Replace 's' with 'a' which is printed in ASCII // format on edk2 environment. // *(TempFormatBuffer + FormatStrSpecifier) = 'a'; FormatStrIndex++; } continue; } goto ContinueCheck; } if (*(FormatString + FormatStrIndex) == '%') { // // This character is "%", set the flag. // PercentageMark = TRUE; } ContinueCheck: // // Clone character to the new string and advance FormatStrIndex // to process next character. // *(TempFormatBuffer + FormatStrIndex) = *(FormatString + FormatStrIndex); FormatStrIndex++; } return TempFormatBuffer; } /** This is the Redfish version of CRT vsnprintf function, this function replaces "%s" to "%a" before invoking AsciiVSPrint(). That is because "%s" is unicode base on edk2 environment however "%s" is ascii code base on vsnprintf(). See definitions of AsciiVSPrint() for the details. @param StartOfBuffer A pointer to the output buffer for the produced Null-terminated ASCII string. @param BufferSize The size, in bytes, of the output buffer specified by StartOfBuffer. @param FormatString A Null-terminated ASCII format string. @param Marker VA_LIST marker for the variable argument list. @return The number of ASCII characters in the produced output buffer not including the Null-terminator. **/ UINTN EFIAPI RedfishAsciiVSPrint ( OUT CHAR8 *StartOfBuffer, IN UINTN BufferSize, IN CONST CHAR8 *FormatString, IN VA_LIST Marker ) { CHAR8 *TempFormatBuffer; UINTN LenStrProduced; // // Looking for "%s" in the format string and replace it // with "%a" for printing ASCII code characters on edk2 // environment. // TempFormatBuffer = ReplaceUnicodeToAsciiStrFormat (FormatString); if (TempFormatBuffer == NULL) { return 0; } LenStrProduced = AsciiVSPrint (StartOfBuffer, BufferSize, (CONST CHAR8 *)TempFormatBuffer, Marker); FreePool (TempFormatBuffer); return LenStrProduced; } /** This is the Redfish version of CRT snprintf function, this function replaces "%s" to "%a" before invoking AsciiSPrint(). That is because "%s" is unicode base on edk2 environment however "%s" is ascii code base on snprintf(). See definitions of AsciiSPrint() for the details. @param StartOfBuffer A pointer to the output buffer for the produced Null-terminated ASCII string. @param BufferSize The size, in bytes, of the output buffer specified by StartOfBuffer. @param FormatString A Null-terminated ASCII format string. @param ... Variable argument list whose contents are accessed based on the format string specified by FormatString. @return The number of ASCII characters in the produced output buffer not including the Null-terminator. **/ UINTN EFIAPI RedfishAsciiSPrint ( OUT CHAR8 *StartOfBuffer, IN UINTN BufferSize, IN CONST CHAR8 *FormatString, ... ) { VA_LIST Marker; UINTN LenStrProduced; VA_START (Marker, FormatString); LenStrProduced = RedfishAsciiVSPrint (StartOfBuffer, BufferSize, FormatString, Marker); return LenStrProduced; }