// Copyright 2014 Google Inc. All Rights Reserved. // // 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. // Package driver provides an external entry point to the pprof driver. package driver import ( "io" "net/http" "regexp" "time" internaldriver "github.com/google/pprof/internal/driver" "github.com/google/pprof/internal/plugin" "github.com/google/pprof/profile" ) // PProf acquires a profile, and symbolizes it using a profile // manager. Then it generates a report formatted according to the // options selected through the flags package. func PProf(o *Options) error { return internaldriver.PProf(o.internalOptions()) } func (o *Options) internalOptions() *plugin.Options { var obj plugin.ObjTool if o.Obj != nil { obj = &internalObjTool{o.Obj} } var sym plugin.Symbolizer if o.Sym != nil { sym = &internalSymbolizer{o.Sym} } var httpServer func(args *plugin.HTTPServerArgs) error if o.HTTPServer != nil { httpServer = func(args *plugin.HTTPServerArgs) error { return o.HTTPServer(((*HTTPServerArgs)(args))) } } return &plugin.Options{ Writer: o.Writer, Flagset: o.Flagset, Fetch: o.Fetch, Sym: sym, Obj: obj, UI: o.UI, HTTPServer: httpServer, HTTPTransport: o.HTTPTransport, } } // HTTPServerArgs contains arguments needed by an HTTP server that // is exporting a pprof web interface. type HTTPServerArgs plugin.HTTPServerArgs // Options groups all the optional plugins into pprof. type Options struct { Writer Writer Flagset FlagSet Fetch Fetcher Sym Symbolizer Obj ObjTool UI UI HTTPServer func(*HTTPServerArgs) error HTTPTransport http.RoundTripper } // Writer provides a mechanism to write data under a certain name, // typically a filename. type Writer interface { Open(name string) (io.WriteCloser, error) } // A FlagSet creates and parses command-line flags. // It is similar to the standard flag.FlagSet. type FlagSet interface { // Bool, Int, Float64, and String define new flags, // like the functions of the same name in package flag. Bool(name string, def bool, usage string) *bool Int(name string, def int, usage string) *int Float64(name string, def float64, usage string) *float64 String(name string, def string, usage string) *string // StringList is similar to String but allows multiple values for a // single flag StringList(name string, def string, usage string) *[]*string // ExtraUsage returns any additional text that should be printed after the // standard usage message. The extra usage message returned includes all text // added with AddExtraUsage(). // The typical use of ExtraUsage is to show any custom flags defined by the // specific pprof plugins being used. ExtraUsage() string // AddExtraUsage appends additional text to the end of the extra usage message. AddExtraUsage(eu string) // Parse initializes the flags with their values for this run // and returns the non-flag command line arguments. // If an unknown flag is encountered or there are no arguments, // Parse should call usage and return nil. Parse(usage func()) []string } // A Fetcher reads and returns the profile named by src, using // the specified duration and timeout. It returns the fetched // profile and a string indicating a URL from where the profile // was fetched, which may be different than src. type Fetcher interface { Fetch(src string, duration, timeout time.Duration) (*profile.Profile, string, error) } // A Symbolizer introduces symbol information into a profile. type Symbolizer interface { Symbolize(mode string, srcs MappingSources, prof *profile.Profile) error } // MappingSources map each profile.Mapping to the source of the profile. // The key is either Mapping.File or Mapping.BuildId. type MappingSources map[string][]struct { Source string // URL of the source the mapping was collected from Start uint64 // delta applied to addresses from this source (to represent Merge adjustments) } // An ObjTool inspects shared libraries and executable files. type ObjTool interface { // Open opens the named object file. If the object is a shared // library, start/limit/offset are the addresses where it is mapped // into memory in the address space being inspected. If the object // is a linux kernel, relocationSymbol is the name of the symbol // corresponding to the start address. Open(file string, start, limit, offset uint64, relocationSymbol string) (ObjFile, error) // Disasm disassembles the named object file, starting at // the start address and stopping at (before) the end address. Disasm(file string, start, end uint64, intelSyntax bool) ([]Inst, error) } // An Inst is a single instruction in an assembly listing. type Inst struct { Addr uint64 // virtual address of instruction Text string // instruction text Function string // function name File string // source file Line int // source line } // An ObjFile is a single object file: a shared library or executable. type ObjFile interface { // Name returns the underlying file name, if available. Name() string // ObjAddr returns the objdump address corresponding to a runtime address. ObjAddr(addr uint64) (uint64, error) // BuildID returns the GNU build ID of the file, or an empty string. BuildID() string // SourceLine reports the source line information for a given // address in the file. Due to inlining, the source line information // is in general a list of positions representing a call stack, // with the leaf function first. SourceLine(addr uint64) ([]Frame, error) // Symbols returns a list of symbols in the object file. // If r is not nil, Symbols restricts the list to symbols // with names matching the regular expression. // If addr is not zero, Symbols restricts the list to symbols // containing that address. Symbols(r *regexp.Regexp, addr uint64) ([]*Sym, error) // Close closes the file, releasing associated resources. Close() error } // A Frame describes a single line in a source file. type Frame struct { Func string // name of function File string // source file name Line int // line in file Column int // column in file StartLine int // start line of function (if available) } // A Sym describes a single symbol in an object file. type Sym struct { Name []string // names of symbol (many if symbol was dedup'ed) File string // object file containing symbol Start uint64 // start virtual address End uint64 // virtual address of last byte in sym (Start+size-1) } // A UI manages user interactions. type UI interface { // ReadLine returns a line of text (a command) read from the user. // prompt is printed before reading the command. ReadLine(prompt string) (string, error) // Print shows a message to the user. // It formats the text as fmt.Print would and adds a final \n if not already present. // For line-based UI, Print writes to standard error. // (Standard output is reserved for report data.) Print(...interface{}) // PrintErr shows an error message to the user. // It formats the text as fmt.Print would and adds a final \n if not already present. // For line-based UI, PrintErr writes to standard error. PrintErr(...interface{}) // IsTerminal returns whether the UI is known to be tied to an // interactive terminal (as opposed to being redirected to a file). IsTerminal() bool // WantBrowser indicates whether browser should be opened with the -http option. WantBrowser() bool // SetAutoComplete instructs the UI to call complete(cmd) to obtain // the auto-completion of cmd, if the UI supports auto-completion at all. SetAutoComplete(complete func(string) string) } // internalObjTool is a wrapper to map from the pprof external // interface to the internal interface. type internalObjTool struct { ObjTool } func (o *internalObjTool) Open(file string, start, limit, offset uint64, relocationSymbol string) (plugin.ObjFile, error) { f, err := o.ObjTool.Open(file, start, limit, offset, relocationSymbol) if err != nil { return nil, err } return &internalObjFile{f}, err } type internalObjFile struct { ObjFile } func (f *internalObjFile) SourceLine(frame uint64) ([]plugin.Frame, error) { frames, err := f.ObjFile.SourceLine(frame) if err != nil { return nil, err } var pluginFrames []plugin.Frame for _, f := range frames { pluginFrames = append(pluginFrames, plugin.Frame(f)) } return pluginFrames, nil } func (f *internalObjFile) Symbols(r *regexp.Regexp, addr uint64) ([]*plugin.Sym, error) { syms, err := f.ObjFile.Symbols(r, addr) if err != nil { return nil, err } var pluginSyms []*plugin.Sym for _, s := range syms { ps := plugin.Sym(*s) pluginSyms = append(pluginSyms, &ps) } return pluginSyms, nil } func (o *internalObjTool) Disasm(file string, start, end uint64, intelSyntax bool) ([]plugin.Inst, error) { insts, err := o.ObjTool.Disasm(file, start, end, intelSyntax) if err != nil { return nil, err } var pluginInst []plugin.Inst for _, inst := range insts { pluginInst = append(pluginInst, plugin.Inst(inst)) } return pluginInst, nil } // internalSymbolizer is a wrapper to map from the pprof external // interface to the internal interface. type internalSymbolizer struct { Symbolizer } func (s *internalSymbolizer) Symbolize(mode string, srcs plugin.MappingSources, prof *profile.Profile) error { isrcs := MappingSources{} for m, s := range srcs { isrcs[m] = s } return s.Symbolizer.Symbolize(mode, isrcs, prof) }