// Copyright 2009 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. /* Package runtime contains operations that interact with Go's runtime system, such as functions to control goroutines. It also includes the low-level type information used by the reflect package; see reflect's documentation for the programmable interface to the run-time type system. Environment Variables The following environment variables ($name or %name%, depending on the host operating system) control the run-time behavior of Go programs. The meanings and use may change from release to release. The GOGC variable sets the initial garbage collection target percentage. A collection is triggered when the ratio of freshly allocated data to live data remaining after the previous collection reaches this percentage. The default is GOGC=100. Setting GOGC=off disables the garbage collector entirely. The runtime/debug package's SetGCPercent function allows changing this percentage at run time. See http://golang.org/pkg/runtime/debug/#SetGCPercent. The GODEBUG variable controls debugging variables within the runtime. It is a comma-separated list of name=val pairs setting these named variables: allocfreetrace: setting allocfreetrace=1 causes every allocation to be profiled and a stack trace printed on each object's allocation and free. efence: setting efence=1 causes the allocator to run in a mode where each object is allocated on a unique page and addresses are never recycled. gccheckmark: setting gccheckmark=1 enables verification of the garbage collector's concurrent mark phase by performing a second mark pass while the world is stopped. If the second pass finds a reachable object that was not found by concurrent mark, the garbage collector will panic. gcpacertrace: setting gcpacertrace=1 causes the garbage collector to print information about the internal state of the concurrent pacer. gcshrinkstackoff: setting gcshrinkstackoff=1 disables moving goroutines onto smaller stacks. In this mode, a goroutine's stack can only grow. gcstackbarrieroff: setting gcstackbarrieroff=1 disables the use of stack barriers that allow the garbage collector to avoid repeating a stack scan during the mark termination phase. gcstoptheworld: setting gcstoptheworld=1 disables concurrent garbage collection, making every garbage collection a stop-the-world event. Setting gcstoptheworld=2 also disables concurrent sweeping after the garbage collection finishes. gctrace: setting gctrace=1 causes the garbage collector to emit a single line to standard error at each collection, summarizing the amount of memory collected and the length of the pause. Setting gctrace=2 emits the same summary but also repeats each collection. memprofilerate: setting memprofilerate=X will update the value of runtime.MemProfileRate. When set to 0 memory profiling is disabled. Refer to the description of MemProfileRate for the default value. invalidptr: defaults to invalidptr=1, causing the garbage collector and stack copier to crash the program if an invalid pointer value (for example, 1) is found in a pointer-typed location. Setting invalidptr=0 disables this check. This should only be used as a temporary workaround to diagnose buggy code. The real fix is to not store integers in pointer-typed locations. sbrk: setting sbrk=1 replaces the memory allocator and garbage collector with a trivial allocator that obtains memory from the operating system and never reclaims any memory. scavenge: scavenge=1 enables debugging mode of heap scavenger. scheddetail: setting schedtrace=X and scheddetail=1 causes the scheduler to emit detailed multiline info every X milliseconds, describing state of the scheduler, processors, threads and goroutines. schedtrace: setting schedtrace=X causes the scheduler to emit a single line to standard error every X milliseconds, summarizing the scheduler state. The GOMAXPROCS variable limits the number of operating system threads that can execute user-level Go code simultaneously. There is no limit to the number of threads that can be blocked in system calls on behalf of Go code; those do not count against the GOMAXPROCS limit. This package's GOMAXPROCS function queries and changes the limit. The GOTRACEBACK variable controls the amount of output generated when a Go program fails due to an unrecovered panic or an unexpected runtime condition. By default, a failure prints a stack trace for every extant goroutine, eliding functions internal to the run-time system, and then exits with exit code 2. If GOTRACEBACK=0, the per-goroutine stack traces are omitted entirely. If GOTRACEBACK=1, the default behavior is used. If GOTRACEBACK=2, the per-goroutine stack traces include run-time functions. If GOTRACEBACK=crash, the per-goroutine stack traces include run-time functions, and if possible the program crashes in an operating-specific manner instead of exiting. For example, on Unix systems, the program raises SIGABRT to trigger a core dump. The GOARCH, GOOS, GOPATH, and GOROOT environment variables complete the set of Go environment variables. They influence the building of Go programs (see http://golang.org/cmd/go and http://golang.org/pkg/go/build). GOARCH, GOOS, and GOROOT are recorded at compile time and made available by constants or functions in this package, but they do not influence the execution of the run-time system. */ package runtime // Caller reports file and line number information about function invocations on // the calling goroutine's stack. The argument skip is the number of stack frames // to ascend, with 0 identifying the caller of Caller. (For historical reasons the // meaning of skip differs between Caller and Callers.) The return values report the // program counter, file name, and line number within the file of the corresponding // call. The boolean ok is false if it was not possible to recover the information. func Caller(skip int) (pc uintptr, file string, line int, ok bool) { // Ask for two PCs: the one we were asked for // and what it called, so that we can see if it // "called" sigpanic. var rpc [2]uintptr if callers(1+skip-1, rpc[:]) < 2 { return } f := findfunc(rpc[1]) if f == nil { // TODO(rsc): Probably a bug? // The C version said "have retpc at least" // but actually returned pc=0. ok = true return } pc = rpc[1] xpc := pc g := findfunc(rpc[0]) // All architectures turn faults into apparent calls to sigpanic. // If we see a call to sigpanic, we do not back up the PC to find // the line number of the call instruction, because there is no call. if xpc > f.entry && (g == nil || g.entry != funcPC(sigpanic)) { xpc-- } file, line32 := funcline(f, xpc) line = int(line32) ok = true return } // Callers fills the slice pc with the return program counters of function invocations // on the calling goroutine's stack. The argument skip is the number of stack frames // to skip before recording in pc, with 0 identifying the frame for Callers itself and // 1 identifying the caller of Callers. // It returns the number of entries written to pc. // // Note that since each slice entry pc[i] is a return program counter, // looking up the file and line for pc[i] (for example, using (*Func).FileLine) // will return the file and line number of the instruction immediately // following the call. // To look up the file and line number of the call itself, use pc[i]-1. // As an exception to this rule, if pc[i-1] corresponds to the function // runtime.sigpanic, then pc[i] is the program counter of a faulting // instruction and should be used without any subtraction. func Callers(skip int, pc []uintptr) int { // runtime.callers uses pc.array==nil as a signal // to print a stack trace. Pick off 0-length pc here // so that we don't let a nil pc slice get to it. if len(pc) == 0 { return 0 } return callers(skip, pc) } // GOROOT returns the root of the Go tree. // It uses the GOROOT environment variable, if set, // or else the root used during the Go build. func GOROOT() string { s := gogetenv("GOROOT") if s != "" { return s } return defaultGoroot } // Version returns the Go tree's version string. // It is either the commit hash and date at the time of the build or, // when possible, a release tag like "go1.3". func Version() string { return theVersion } // GOOS is the running program's operating system target: // one of darwin, freebsd, linux, and so on. const GOOS string = theGoos // GOARCH is the running program's architecture target: // 386, amd64, or arm. const GOARCH string = theGoarch