/* * Copyright (C) 2008 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* * Some handy functions for manipulating bits and bytes. * * These get inlined, so prefer small size over maximum speed. */ #ifndef DALVIK_BITS_H_ #define DALVIK_BITS_H_ #include "Common.h" #include "Inlines.h" #include #include /* * Get 1 byte. (Included to make the code more legible.) */ INLINE u1 get1(unsigned const char* pSrc) { return *pSrc; } /* * Get 2 big-endian bytes. */ INLINE u2 get2BE(unsigned char const* pSrc) { return (pSrc[0] << 8) | pSrc[1]; } /* * Get 4 big-endian bytes. */ INLINE u4 get4BE(unsigned char const* pSrc) { return (pSrc[0] << 24) | (pSrc[1] << 16) | (pSrc[2] << 8) | pSrc[3]; } /* * Get 8 big-endian bytes. */ INLINE u8 get8BE(unsigned char const* pSrc) { u4 low, high; high = pSrc[0]; high = (high << 8) | pSrc[1]; high = (high << 8) | pSrc[2]; high = (high << 8) | pSrc[3]; low = pSrc[4]; low = (low << 8) | pSrc[5]; low = (low << 8) | pSrc[6]; low = (low << 8) | pSrc[7]; return ((u8) high << 32) | (u8) low; } /* * Get 2 little-endian bytes. */ INLINE u2 get2LE(unsigned char const* pSrc) { return pSrc[0] | (pSrc[1] << 8); } /* * Get 4 little-endian bytes. */ INLINE u4 get4LE(unsigned char const* pSrc) { u4 result; result = pSrc[0]; result |= pSrc[1] << 8; result |= pSrc[2] << 16; result |= pSrc[3] << 24; return result; } /* * Get 8 little-endian bytes. */ INLINE u8 get8LE(unsigned char const* pSrc) { u4 low, high; low = pSrc[0]; low |= pSrc[1] << 8; low |= pSrc[2] << 16; low |= pSrc[3] << 24; high = pSrc[4]; high |= pSrc[5] << 8; high |= pSrc[6] << 16; high |= pSrc[7] << 24; return ((u8) high << 32) | (u8) low; } /* * Grab 1 byte and advance the data pointer. */ INLINE u1 read1(unsigned const char** ppSrc) { return *(*ppSrc)++; } /* * Grab 2 big-endian bytes and advance the data pointer. */ INLINE u2 read2BE(unsigned char const** ppSrc) { const unsigned char* pSrc = *ppSrc; *ppSrc = pSrc + 2; return pSrc[0] << 8 | pSrc[1]; } /* * Grab 4 big-endian bytes and advance the data pointer. */ INLINE u4 read4BE(unsigned char const** ppSrc) { const unsigned char* pSrc = *ppSrc; u4 result; result = pSrc[0] << 24; result |= pSrc[1] << 16; result |= pSrc[2] << 8; result |= pSrc[3]; *ppSrc = pSrc + 4; return result; } /* * Get 8 big-endian bytes and advance the data pointer. */ INLINE u8 read8BE(unsigned char const** ppSrc) { const unsigned char* pSrc = *ppSrc; u4 low, high; high = pSrc[0]; high = (high << 8) | pSrc[1]; high = (high << 8) | pSrc[2]; high = (high << 8) | pSrc[3]; low = pSrc[4]; low = (low << 8) | pSrc[5]; low = (low << 8) | pSrc[6]; low = (low << 8) | pSrc[7]; *ppSrc = pSrc + 8; return ((u8) high << 32) | (u8) low; } /* * Grab 2 little-endian bytes and advance the data pointer. */ INLINE u2 read2LE(unsigned char const** ppSrc) { const unsigned char* pSrc = *ppSrc; *ppSrc = pSrc + 2; return pSrc[0] | pSrc[1] << 8; } /* * Grab 4 little-endian bytes and advance the data pointer. */ INLINE u4 read4LE(unsigned char const** ppSrc) { const unsigned char* pSrc = *ppSrc; u4 result; result = pSrc[0]; result |= pSrc[1] << 8; result |= pSrc[2] << 16; result |= pSrc[3] << 24; *ppSrc = pSrc + 4; return result; } /* * Get 8 little-endian bytes and advance the data pointer. */ INLINE u8 read8LE(unsigned char const** ppSrc) { const unsigned char* pSrc = *ppSrc; u4 low, high; low = pSrc[0]; low |= pSrc[1] << 8; low |= pSrc[2] << 16; low |= pSrc[3] << 24; high = pSrc[4]; high |= pSrc[5] << 8; high |= pSrc[6] << 16; high |= pSrc[7] << 24; *ppSrc = pSrc + 8; return ((u8) high << 32) | (u8) low; } /* * Skip over a UTF-8 string (preceded by a 4-byte length). */ INLINE void skipUtf8String(unsigned char const** ppSrc) { u4 length = read4BE(ppSrc); (*ppSrc) += length; } /* * Read a UTF-8 string into a fixed-size buffer, and null-terminate it. * * Returns the length of the original string. */ INLINE int readUtf8String(unsigned char const** ppSrc, char* buf, size_t bufLen) { u4 length = read4BE(ppSrc); size_t copyLen = (length < bufLen) ? length : bufLen-1; memcpy(buf, *ppSrc, copyLen); buf[copyLen] = '\0'; (*ppSrc) += length; return length; } /* * Read a UTF-8 string into newly-allocated storage, and null-terminate it. * * Returns the string and its length. (The latter is probably unnecessary * for the way we're using UTF8.) */ INLINE char* readNewUtf8String(unsigned char const** ppSrc, size_t* pLength) { u4 length = read4BE(ppSrc); char* buf; buf = (char*) malloc(length+1); memcpy(buf, *ppSrc, length); buf[length] = '\0'; (*ppSrc) += length; *pLength = length; return buf; } /* * Set 1 byte. (Included to make code more consistent/legible.) */ INLINE void set1(u1* buf, u1 val) { *buf = (u1)(val); } /* * Set 2 big-endian bytes. */ INLINE void set2BE(u1* buf, u2 val) { *buf++ = (u1)(val >> 8); *buf = (u1)(val); } /* * Set 4 big-endian bytes. */ INLINE void set4BE(u1* buf, u4 val) { *buf++ = (u1)(val >> 24); *buf++ = (u1)(val >> 16); *buf++ = (u1)(val >> 8); *buf = (u1)(val); } /* * Set 8 big-endian bytes. */ INLINE void set8BE(u1* buf, u8 val) { *buf++ = (u1)(val >> 56); *buf++ = (u1)(val >> 48); *buf++ = (u1)(val >> 40); *buf++ = (u1)(val >> 32); *buf++ = (u1)(val >> 24); *buf++ = (u1)(val >> 16); *buf++ = (u1)(val >> 8); *buf = (u1)(val); } /* * Set 2 little-endian bytes. */ INLINE void set2LE(u1* buf, u2 val) { *buf++ = (u1)(val); *buf = (u1)(val >> 8); } /* * Set 4 little-endian bytes. */ INLINE void set4LE(u1* buf, u4 val) { *buf++ = (u1)(val); *buf++ = (u1)(val >> 8); *buf++ = (u1)(val >> 16); *buf = (u1)(val >> 24); } /* * Set 8 little-endian bytes. */ INLINE void set8LE(u1* buf, u8 val) { *buf++ = (u1)(val); *buf++ = (u1)(val >> 8); *buf++ = (u1)(val >> 16); *buf++ = (u1)(val >> 24); *buf++ = (u1)(val >> 32); *buf++ = (u1)(val >> 40); *buf++ = (u1)(val >> 48); *buf = (u1)(val >> 56); } /* * Stuff a UTF-8 string into the buffer. */ INLINE void setUtf8String(u1* buf, const u1* str) { u4 strLen = strlen((const char*)str); set4BE(buf, strLen); memcpy(buf + sizeof(u4), str, strLen); } #endif // DALVIK_BITS_H_