/* * 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. */ /* * Functions for interpreting LEB128 (little endian base 128) values */ #ifndef _LIBDEX_LEB128 #define _LIBDEX_LEB128 #include "DexFile.h" /* * Reads an unsigned LEB128 value, updating the given pointer to point * just past the end of the read value. This function tolerates * non-zero high-order bits in the fifth encoded byte. */ DEX_INLINE int readUnsignedLeb128(const u1** pStream) { const u1* ptr = *pStream; int result = *(ptr++); if (result > 0x7f) { int cur = *(ptr++); result = (result & 0x7f) | ((cur & 0x7f) << 7); if (cur > 0x7f) { cur = *(ptr++); result |= (cur & 0x7f) << 14; if (cur > 0x7f) { cur = *(ptr++); result |= (cur & 0x7f) << 21; if (cur > 0x7f) { /* * Note: We don't check to see if cur is out of * range here, meaning we tolerate garbage in the * high four-order bits. */ cur = *(ptr++); result |= cur << 28; } } } } *pStream = ptr; return result; } /* * Reads a signed LEB128 value, updating the given pointer to point * just past the end of the read value. This function tolerates * non-zero high-order bits in the fifth encoded byte. */ DEX_INLINE int readSignedLeb128(const u1** pStream) { const u1* ptr = *pStream; int result = *(ptr++); if (result <= 0x7f) { result = (result << 25) >> 25; } else { int cur = *(ptr++); result = (result & 0x7f) | ((cur & 0x7f) << 7); if (cur <= 0x7f) { result = (result << 18) >> 18; } else { cur = *(ptr++); result |= (cur & 0x7f) << 14; if (cur <= 0x7f) { result = (result << 11) >> 11; } else { cur = *(ptr++); result |= (cur & 0x7f) << 21; if (cur <= 0x7f) { result = (result << 4) >> 4; } else { /* * Note: We don't check to see if cur is out of * range here, meaning we tolerate garbage in the * high four-order bits. */ cur = *(ptr++); result |= cur << 28; } } } } *pStream = ptr; return result; } /* * Reads an unsigned LEB128 value, updating the given pointer to point * just past the end of the read value and also indicating whether the * value was syntactically valid. The only syntactically *invalid* * values are ones that are five bytes long where the final byte has * any but the low-order four bits set. Additionally, if the limit is * passed as non-NULL and bytes would need to be read past the limit, * then the read is considered invalid. */ int readAndVerifyUnsignedLeb128(const u1** pStream, const u1* limit, bool* okay); /* * Reads a signed LEB128 value, updating the given pointer to point * just past the end of the read value and also indicating whether the * value was syntactically valid. The only syntactically *invalid* * values are ones that are five bytes long where the final byte has * any but the low-order four bits set. Additionally, if the limit is * passed as non-NULL and bytes would need to be read past the limit, * then the read is considered invalid. */ int readAndVerifySignedLeb128(const u1** pStream, const u1* limit, bool* okay); /* * Writes a 32-bit value in unsigned ULEB128 format. * * Returns the updated pointer. */ DEX_INLINE u1* writeUnsignedLeb128(u1* ptr, u4 data) { while (true) { u1 out = data & 0x7f; if (out != data) { *ptr++ = out | 0x80; data >>= 7; } else { *ptr++ = out; break; } } return ptr; } /* * Returns the number of bytes needed to encode "val" in ULEB128 form. */ DEX_INLINE int unsignedLeb128Size(u4 data) { int count = 0; do { data >>= 7; count++; } while (data != 0); return count; } #endif