/* * 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. */ /* * Miscellaneous utility functions. */ #ifndef DALVIK_MISC_H_ #define DALVIK_MISC_H_ #include <string> #include <stdarg.h> #include <stdio.h> #include <sys/types.h> #include <sys/time.h> #include "Inlines.h" /* * Used to shut up the compiler when a parameter isn't used. */ #define UNUSED_PARAMETER(p) (void)(p) /* * Floating point conversion functions. These are necessary to avoid * strict-aliasing problems ("dereferencing type-punned pointer will break * strict-aliasing rules"). According to the gcc info page, this usage * is allowed, even with "-fstrict-aliasing". * * The code generated by gcc-4.1.1 appears to be much better than a * type cast dereference ("int foo = *(int*)&myfloat") when the conversion * function is inlined. It also allows us to take advantage of the * optimizations that strict aliasing rules allow. */ INLINE float dvmU4ToFloat(u4 val) { union { u4 in; float out; } conv; conv.in = val; return conv.out; } INLINE u4 dvmFloatToU4(float val) { union { float in; u4 out; } conv; conv.in = val; return conv.out; } /* * Print a hex dump to the log file. * * "local" mode prints a hex dump starting from offset 0 (roughly equivalent * to "xxd -g1"). * * "mem" mode shows the actual memory address, and will offset the start * so that the low nibble of the address is always zero. * * If "tag" is NULL the default tag ("dalvikvm") will be used. */ enum HexDumpMode { kHexDumpLocal, kHexDumpMem }; void dvmPrintHexDumpEx(int priority, const char* tag, const void* vaddr, size_t length, HexDumpMode mode); /* * Print a hex dump, at INFO level. */ INLINE void dvmPrintHexDump(const void* vaddr, size_t length) { dvmPrintHexDumpEx(ANDROID_LOG_INFO, LOG_TAG, vaddr, length, kHexDumpLocal); } /* * Print a hex dump at VERBOSE level. This does nothing in non-debug builds. */ INLINE void dvmPrintHexDumpDbg(const void* vaddr, size_t length,const char* tag) { #if !LOG_NDEBUG dvmPrintHexDumpEx(ANDROID_LOG_VERBOSE, (tag != NULL) ? tag : LOG_TAG, vaddr, length, kHexDumpLocal); #endif } enum DebugTargetKind { kDebugTargetUnknown = 0, kDebugTargetLog, kDebugTargetFile, }; /* * We pass one of these around when we want code to be able to write debug * info to either the log or to a file (or stdout/stderr). */ struct DebugOutputTarget { /* where to? */ DebugTargetKind which; /* additional bits */ union { struct { int priority; const char* tag; } log; struct { FILE* fp; } file; } data; }; /* * Fill in a DebugOutputTarget struct. */ void dvmCreateLogOutputTarget(DebugOutputTarget* target, int priority, const char* tag); void dvmCreateFileOutputTarget(DebugOutputTarget* target, FILE* fp); /* * Print a debug message. */ void dvmPrintDebugMessage(const DebugOutputTarget* target, const char* format, ...) #if defined(__GNUC__) __attribute__ ((format(printf, 2, 3))) #endif ; /* * Return a newly-allocated string in which all occurrences of '.' have * been changed to '/'. If we find a '/' in the original string, NULL * is returned to avoid ambiguity. */ char* dvmDotToSlash(const char* str); /* * Return a newly-allocated string containing a human-readable equivalent * of 'descriptor'. So "I" would be "int", "[[I" would be "int[][]", * "[Ljava/lang/String;" would be "java.lang.String[]", and so forth. */ std::string dvmHumanReadableDescriptor(const char* descriptor); /** * Returns a human-readable string form of the name of the class of * the given object. So given a java.lang.String, the output would * be "java.lang.String". Given an array of int, the output would be "int[]". * Given String.class, the output would be "java.lang.Class<java.lang.String>". */ std::string dvmHumanReadableType(const Object* obj); /** * Returns a human-readable string of the form "package.Class.fieldName". */ struct Field; std::string dvmHumanReadableField(const Field* field); /** * Returns a human-readable string of the form "package.Class.methodName" * or "package.Class.methodName(Ljava/lang/String;I)V". */ struct Method; std::string dvmHumanReadableMethod(const Method* method, bool withSignature); /* * Return a newly-allocated string for the "dot version" of the class * name for the given type descriptor. That is, The initial "L" and * final ";" (if any) have been removed and all occurrences of '/' * have been changed to '.'. * * "Dot version" names are used in the class loading machinery. * See also dvmHumanReadableDescriptor. */ char* dvmDescriptorToDot(const char* str); /* * Return a newly-allocated string for the type descriptor * corresponding to the "dot version" of the given class name. That * is, non-array names are surrounded by "L" and ";", and all * occurrences of '.' have been changed to '/'. * * "Dot version" names are used in the class loading machinery. */ char* dvmDotToDescriptor(const char* str); /* * Return a newly-allocated string for the internal-form class name for * the given type descriptor. That is, the initial "L" and final ";" (if * any) have been removed. */ char* dvmDescriptorToName(const char* str); /* * Return a newly-allocated string for the type descriptor for the given * internal-form class name. That is, a non-array class name will get * surrounded by "L" and ";", while array names are left as-is. */ char* dvmNameToDescriptor(const char* str); /* * Get the current time, in nanoseconds. This is "relative" time, meaning * it could be wall-clock time or a monotonic counter, and is only suitable * for computing time deltas. */ u8 dvmGetRelativeTimeNsec(void); /* * Get the current time, in microseconds. This is "relative" time, meaning * it could be wall-clock time or a monotonic counter, and is only suitable * for computing time deltas. */ INLINE u8 dvmGetRelativeTimeUsec(void) { return dvmGetRelativeTimeNsec() / 1000; } /* * Get the current time, in milliseconds. This is "relative" time, * meaning it could be wall-clock time or a monotonic counter, and is * only suitable for computing time deltas. The value returned from * this function is a u4 and should only be used for debugging * messages. TODO: make this value relative to the start-up time of * the VM. */ INLINE u4 dvmGetRelativeTimeMsec(void) { return (u4)(dvmGetRelativeTimeUsec() / 1000); } /* * Get the current per-thread CPU time. This clock increases monotonically * when the thread is running, but not when it's sleeping or blocked on a * synchronization object. * * The absolute value of the clock may not be useful, so this should only * be used for time deltas. * * If the thread CPU clock is not available, this always returns (u8)-1. */ u8 dvmGetThreadCpuTimeNsec(void); /* * Per-thread CPU time, in micros. */ INLINE u8 dvmGetThreadCpuTimeUsec(void) { return dvmGetThreadCpuTimeNsec() / 1000; } /* * Like dvmGetThreadCpuTimeNsec, but for a different thread. */ u8 dvmGetOtherThreadCpuTimeNsec(pthread_t thread); INLINE u8 dvmGetOtherThreadCpuTimeUsec(pthread_t thread) { return dvmGetOtherThreadCpuTimeNsec(thread) / 1000; } /* * Sleep for increasingly longer periods, until "maxTotalSleep" microseconds * have elapsed. Pass in the start time, which must be a value returned by * dvmGetRelativeTimeUsec(). * * Returns "false" if we were unable to sleep because our time is up. */ bool dvmIterativeSleep(int iteration, int maxTotalSleep, u8 relStartTime); /* * Set the "close on exec" flag on a file descriptor. */ bool dvmSetCloseOnExec(int fd); /* * Unconditionally abort the entire VM. Try not to use this. * * NOTE: if this is marked ((noreturn)), gcc will merge multiple dvmAbort() * calls in a single function together. This is good, in that it reduces * code size slightly, but also bad, because the native stack trace we * get from the abort may point at the wrong call site. Best to leave * it undecorated. */ extern "C" void dvmAbort(void); void dvmPrintNativeBackTrace(void); #if (!HAVE_STRLCPY) /* Implementation of strlcpy() for platforms that don't already have it. */ extern "C" size_t strlcpy(char *dst, const char *src, size_t size); #endif /* * Allocates a memory region using ashmem and mmap, initialized to * zero. Actual allocation rounded up to page multiple. Returns * NULL on failure. */ void *dvmAllocRegion(size_t size, int prot, const char *name); /* * Get some per-thread stats from /proc/self/task/N/stat. */ struct ProcStatData { char state; /* process state, e.g. 'R', 'S', 'D' */ unsigned long utime; /* number of jiffies scheduled in user mode */ unsigned long stime; /* number of jiffies scheduled in kernel mode */ int processor; /* number of CPU that last executed thread */ }; bool dvmGetThreadStats(ProcStatData* pData, pid_t tid); /* * Returns the pointer to the "absolute path" part of the given path * string, treating first (if any) instance of "/./" as a sentinel * indicating the start of the absolute path. If the path isn't absolute * in the usual way (i.e., starts with "/") and doesn't have the sentinel, * then this returns NULL. * * For example: * "/foo/bar/baz" returns "/foo/bar/baz" * "foo/./bar/baz" returns "/bar/baz" * "foo/bar/baz" returns NULL * * The sentinel is used specifically to aid in cross-optimization, where * a host is processing dex files in a build tree, and where we don't want * the build tree's directory structure to be baked into the output (such * as, for example, in the dependency paths of optimized dex files). */ const char* dvmPathToAbsolutePortion(const char* path); /** * Returns a string corresponding to printf-like formatting of the arguments. */ std::string StringPrintf(const char* fmt, ...) __attribute__((__format__ (__printf__, 1, 2))); /** * Appends a printf-like formatting of the arguments to 'dst'. */ void StringAppendF(std::string* dst, const char* fmt, ...) __attribute__((__format__ (__printf__, 2, 3))); /** * Appends a printf-like formatting of the arguments to 'dst'. */ void StringAppendV(std::string* dst, const char* format, va_list ap); #endif // DALVIK_MISC_H_