/* * Copyright (C) 2005 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. */ #include <hwbinder/Debug.h> #include <hwbinder/ProcessState.h> #include <utils/misc.h> #include <stdio.h> #include <stdlib.h> #include <ctype.h> namespace android { namespace hardware { // --------------------------------------------------------------------- static const char indentStr[] = " " " "; const char* stringForIndent(int32_t indentLevel) { ssize_t off = sizeof(indentStr)-1-(indentLevel*2); return indentStr + (off < 0 ? 0 : off); } // --------------------------------------------------------------------- static void defaultPrintFunc(void* /*cookie*/, const char* txt) { printf("%s", txt); } // --------------------------------------------------------------------- static inline int isident(int c) { return isalnum(c) || c == '_'; } static inline bool isasciitype(char c) { if( c >= ' ' && c < 127 && c != '\'' && c != '\\' ) return true; return false; } static inline char makehexdigit(uint32_t val) { return "0123456789abcdef"[val&0xF]; } static char* appendhexnum(uint32_t val, char* out) { for( int32_t i=28; i>=0; i-=4 ) { *out++ = makehexdigit( val>>i ); } *out = 0; return out; } static char* appendcharornum(char c, char* out, bool skipzero = true) { if (skipzero && c == 0) return out; if (isasciitype(c)) { *out++ = c; return out; } *out++ = '\\'; *out++ = 'x'; *out++ = makehexdigit(c>>4); *out++ = makehexdigit(c); return out; } static char* typetostring(uint32_t type, char* out, bool fullContext = true, bool strict = false) { char* pos = out; char c[4]; c[0] = (char)((type>>24)&0xFF); c[1] = (char)((type>>16)&0xFF); c[2] = (char)((type>>8)&0xFF); c[3] = (char)(type&0xFF); bool valid; if( !strict ) { // now even less strict! // valid = isasciitype(c[3]); valid = true; int32_t i = 0; bool zero = true; while (valid && i<3) { if (c[i] == 0) { if (!zero) valid = false; } else { zero = false; //if (!isasciitype(c[i])) valid = false; } i++; } // if all zeros, not a valid type code. if (zero) valid = false; } else { valid = isident(c[3]) ? true : false; int32_t i = 0; bool zero = true; while (valid && i<3) { if (c[i] == 0) { if (!zero) valid = false; } else { zero = false; if (!isident(c[i])) valid = false; } i++; } } if( valid && (!fullContext || c[0] != '0' || c[1] != 'x') ) { if( fullContext ) *pos++ = '\''; pos = appendcharornum(c[0], pos); pos = appendcharornum(c[1], pos); pos = appendcharornum(c[2], pos); pos = appendcharornum(c[3], pos); if( fullContext ) *pos++ = '\''; *pos = 0; return pos; } if( fullContext ) { *pos++ = '0'; *pos++ = 'x'; } return appendhexnum(type, pos); } void printTypeCode(uint32_t typeCode, debugPrintFunc func, void* cookie) { char buffer[32]; char* end = typetostring(typeCode, buffer); *end = 0; func ? (*func)(cookie, buffer) : defaultPrintFunc(cookie, buffer); } void printHexData(int32_t indent, const void *buf, size_t length, size_t bytesPerLine, int32_t singleLineBytesCutoff, size_t alignment, bool cStyle, debugPrintFunc func, void* cookie) { if (alignment == 0) { if (bytesPerLine >= 16) alignment = 4; else if (bytesPerLine >= 8) alignment = 2; else alignment = 1; } if (func == NULL) func = defaultPrintFunc; size_t offset; unsigned char *pos = (unsigned char *)buf; if (pos == NULL) { if (singleLineBytesCutoff < 0) func(cookie, "\n"); func(cookie, "(NULL)"); return; } if (length == 0) { if (singleLineBytesCutoff < 0) func(cookie, "\n"); func(cookie, "(empty)"); return; } if ((int32_t)length < 0) { if (singleLineBytesCutoff < 0) func(cookie, "\n"); char buf[64]; sprintf(buf, "(bad length: %zu)", length); func(cookie, buf); return; } char buffer[256]; static const size_t maxBytesPerLine = (sizeof(buffer)-1-11-4)/(3+1); if (bytesPerLine > maxBytesPerLine) bytesPerLine = maxBytesPerLine; const bool oneLine = (int32_t)length <= singleLineBytesCutoff; bool newLine = false; if (cStyle) { indent++; func(cookie, "{\n"); newLine = true; } else if (!oneLine) { func(cookie, "\n"); newLine = true; } for (offset = 0; ; offset += bytesPerLine, pos += bytesPerLine) { long remain = length; char* c = buffer; if (!oneLine && !cStyle) { sprintf(c, "0x%08x: ", (int)offset); c += 12; } size_t index; size_t word; for (word = 0; word < bytesPerLine; ) { size_t align_offset = alignment-(alignment?1:0); if (remain > 0 && (size_t)remain <= align_offset) { align_offset = remain - 1; } const size_t startIndex = word+align_offset; for (index = 0; index < alignment || (alignment == 0 && index < bytesPerLine); index++) { if (!cStyle) { if (index == 0 && word > 0 && alignment > 0) { *c++ = ' '; } if (remain-- > 0) { const unsigned char val = *(pos+startIndex-index); *c++ = makehexdigit(val>>4); *c++ = makehexdigit(val); } else if (!oneLine) { *c++ = ' '; *c++ = ' '; } } else { if (remain > 0) { if (index == 0 && word > 0) { *c++ = ','; *c++ = ' '; } if (index == 0) { *c++ = '0'; *c++ = 'x'; } const unsigned char val = *(pos+startIndex-index); *c++ = makehexdigit(val>>4); *c++ = makehexdigit(val); remain--; } } } word += index; } if (!cStyle) { remain = length; *c++ = ' '; *c++ = '\''; for (index = 0; index < bytesPerLine; index++) { if (remain-- > 0) { const unsigned char val = pos[index]; *c++ = (val >= ' ' && val < 127) ? val : '.'; } else if (!oneLine) { *c++ = ' '; } } *c++ = '\''; if (length > bytesPerLine) *c++ = '\n'; } else { if (remain > 0) *c++ = ','; *c++ = '\n'; } if (newLine && indent) func(cookie, stringForIndent(indent)); *c = 0; func(cookie, buffer); newLine = true; if (length <= bytesPerLine) break; length -= bytesPerLine; } if (cStyle) { if (indent > 0) func(cookie, stringForIndent(indent-1)); func(cookie, "};"); } } ssize_t getHWBinderKernelReferences(size_t count, uintptr_t* buf) { sp<ProcessState> proc = ProcessState::selfOrNull(); if (proc.get() == NULL) { return 0; } return proc->getKernelReferences(count, buf); } }; // namespace hardware }; // namespace android