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main.go
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// cmd/ipfs implements the primary CLI binary for ipfs
package main
import (
"errors"
"fmt"
"io"
"math/rand"
"os"
"os/signal"
"runtime"
"runtime/pprof"
"strings"
"sync"
"syscall"
"time"
ma "github.com/ipfs/go-ipfs/Godeps/_workspace/src/github.com/jbenet/go-multiaddr"
manet "github.com/ipfs/go-ipfs/Godeps/_workspace/src/github.com/jbenet/go-multiaddr-net"
context "github.com/ipfs/go-ipfs/Godeps/_workspace/src/golang.org/x/net/context"
cmds "github.com/ipfs/go-ipfs/commands"
cmdsCli "github.com/ipfs/go-ipfs/commands/cli"
cmdsHttp "github.com/ipfs/go-ipfs/commands/http"
core "github.com/ipfs/go-ipfs/core"
config "github.com/ipfs/go-ipfs/repo/config"
fsrepo "github.com/ipfs/go-ipfs/repo/fsrepo"
eventlog "github.com/ipfs/go-ipfs/thirdparty/eventlog"
u "github.com/ipfs/go-ipfs/util"
)
// log is the command logger
var log = eventlog.Logger("cmd/ipfs")
// signal to output help
var errHelpRequested = errors.New("Help Requested")
const (
EnvEnableProfiling = "IPFS_PROF"
cpuProfile = "ipfs.cpuprof"
heapProfile = "ipfs.memprof"
errorFormat = "ERROR: %v\n\n"
)
type cmdInvocation struct {
path []string
cmd *cmds.Command
req cmds.Request
node *core.IpfsNode
}
// main roadmap:
// - parse the commandline to get a cmdInvocation
// - if user requests, help, print it and exit.
// - run the command invocation
// - output the response
// - if anything fails, print error, maybe with help
func main() {
rand.Seed(time.Now().UnixNano())
runtime.GOMAXPROCS(3) // FIXME rm arbitrary choice for n
ctx := eventlog.ContextWithLoggable(context.Background(), eventlog.Uuid("session"))
var err error
var invoc cmdInvocation
defer invoc.close()
// we'll call this local helper to output errors.
// this is so we control how to print errors in one place.
printErr := func(err error) {
fmt.Fprintf(os.Stderr, "Error: %s\n", err.Error())
}
stopFunc, err := profileIfEnabled()
if err != nil {
printErr(err)
os.Exit(1)
}
defer stopFunc() // to be executed as late as possible
// this is a local helper to print out help text.
// there's some considerations that this makes easier.
printHelp := func(long bool, w io.Writer) {
helpFunc := cmdsCli.ShortHelp
if long {
helpFunc = cmdsCli.LongHelp
}
helpFunc("ipfs", Root, invoc.path, w)
}
// this is a message to tell the user how to get the help text
printMetaHelp := func(w io.Writer) {
cmdPath := strings.Join(invoc.path, " ")
fmt.Fprintf(w, "Use 'ipfs %s --help' for information about this command\n", cmdPath)
}
// Handle `ipfs help'
if len(os.Args) == 2 && os.Args[1] == "help" {
printHelp(false, os.Stdout)
os.Exit(0)
}
// parse the commandline into a command invocation
parseErr := invoc.Parse(ctx, os.Args[1:])
// BEFORE handling the parse error, if we have enough information
// AND the user requested help, print it out and exit
if invoc.req != nil {
longH, shortH, err := invoc.requestedHelp()
if err != nil {
printErr(err)
os.Exit(1)
}
if longH || shortH {
printHelp(longH, os.Stdout)
os.Exit(0)
}
}
// ok now handle parse error (which means cli input was wrong,
// e.g. incorrect number of args, or nonexistent subcommand)
if parseErr != nil {
printErr(parseErr)
// this was a user error, print help.
if invoc.cmd != nil {
// we need a newline space.
fmt.Fprintf(os.Stderr, "\n")
printMetaHelp(os.Stderr)
}
os.Exit(1)
}
// here we handle the cases where
// - commands with no Run func are invoked directly.
// - the main command is invoked.
if invoc.cmd == nil || invoc.cmd.Run == nil {
printHelp(false, os.Stdout)
os.Exit(0)
}
// ok, finally, run the command invocation.
intrh, ctx := invoc.SetupInterruptHandler(ctx)
defer intrh.Close()
output, err := invoc.Run(ctx)
if err != nil {
printErr(err)
// if this error was a client error, print short help too.
if isClientError(err) {
printMetaHelp(os.Stderr)
}
os.Exit(1)
}
// everything went better than expected :)
_, err = io.Copy(os.Stdout, output)
if err != nil {
printErr(err)
os.Exit(1)
}
}
func (i *cmdInvocation) Run(ctx context.Context) (output io.Reader, err error) {
// check if user wants to debug. option OR env var.
debug, _, err := i.req.Option("debug").Bool()
if err != nil {
return nil, err
}
if debug || u.GetenvBool("DEBUG") || os.Getenv("IPFS_LOGGING") == "debug" {
u.Debug = true
u.SetDebugLogging()
}
res, err := callCommand(ctx, i.req, Root, i.cmd)
if err != nil {
return nil, err
}
if err := res.Error(); err != nil {
return nil, err
}
return res.Reader()
}
func (i *cmdInvocation) constructNodeFunc(ctx context.Context) func() (*core.IpfsNode, error) {
return func() (*core.IpfsNode, error) {
if i.req == nil {
return nil, errors.New("constructing node without a request")
}
cmdctx := i.req.InvocContext()
if cmdctx == nil {
return nil, errors.New("constructing node without a request context")
}
r, err := fsrepo.Open(i.req.InvocContext().ConfigRoot)
if err != nil { // repo is owned by the node
return nil, err
}
// ok everything is good. set it on the invocation (for ownership)
// and return it.
n, err := core.NewIPFSNode(ctx, core.Standard(r, cmdctx.Online))
if err != nil {
return nil, err
}
i.node = n
return i.node, nil
}
}
func (i *cmdInvocation) close() {
// let's not forget teardown. If a node was initialized, we must close it.
// Note that this means the underlying req.Context().Node variable is exposed.
// this is gross, and should be changed when we extract out the exec Context.
if i.node != nil {
log.Info("Shutting down node...")
i.node.Close()
}
}
func (i *cmdInvocation) Parse(ctx context.Context, args []string) error {
var err error
i.req, i.cmd, i.path, err = cmdsCli.Parse(args, os.Stdin, Root)
if err != nil {
return err
}
repoPath, err := getRepoPath(i.req)
if err != nil {
return err
}
log.Debugf("config path is %s", repoPath)
// this sets up the function that will initialize the config lazily.
cmdctx := i.req.InvocContext()
cmdctx.ConfigRoot = repoPath
cmdctx.LoadConfig = loadConfig
// this sets up the function that will initialize the node
// this is so that we can construct the node lazily.
cmdctx.ConstructNode = i.constructNodeFunc(ctx)
// if no encoding was specified by user, default to plaintext encoding
// (if command doesn't support plaintext, use JSON instead)
if !i.req.Option("encoding").Found() {
if i.req.Command().Marshalers != nil && i.req.Command().Marshalers[cmds.Text] != nil {
i.req.SetOption("encoding", cmds.Text)
} else {
i.req.SetOption("encoding", cmds.JSON)
}
}
return nil
}
func (i *cmdInvocation) requestedHelp() (short bool, long bool, err error) {
longHelp, _, err := i.req.Option("help").Bool()
if err != nil {
return false, false, err
}
shortHelp, _, err := i.req.Option("h").Bool()
if err != nil {
return false, false, err
}
return longHelp, shortHelp, nil
}
func callPreCommandHooks(ctx context.Context, details cmdDetails, req cmds.Request, root *cmds.Command) error {
log.Event(ctx, "callPreCommandHooks", &details)
log.Debug("Calling pre-command hooks...")
return nil
}
func callCommand(ctx context.Context, req cmds.Request, root *cmds.Command, cmd *cmds.Command) (cmds.Response, error) {
log.Info(config.EnvDir, " ", req.InvocContext().ConfigRoot)
var res cmds.Response
err := req.SetRootContext(ctx)
if err != nil {
return nil, err
}
details, err := commandDetails(req.Path(), root)
if err != nil {
return nil, err
}
log.Debug("looking for running daemon...")
useDaemon, err := commandShouldRunOnDaemon(*details, req, root)
if err != nil {
return nil, err
}
err = callPreCommandHooks(ctx, *details, req, root)
if err != nil {
return nil, err
}
if cmd.PreRun != nil {
err = cmd.PreRun(req)
if err != nil {
return nil, err
}
}
if useDaemon {
cfg, err := req.InvocContext().GetConfig()
if err != nil {
return nil, err
}
addr, err := ma.NewMultiaddr(cfg.Addresses.API)
if err != nil {
return nil, err
}
log.Infof("Executing command on daemon running at %s", addr)
_, host, err := manet.DialArgs(addr)
if err != nil {
return nil, err
}
client := cmdsHttp.NewClient(host)
res, err = client.Send(req)
if err != nil {
return nil, err
}
} else {
log.Debug("Executing command locally")
err := req.SetRootContext(ctx)
if err != nil {
return nil, err
}
// Okay!!!!! NOW we can call the command.
res = root.Call(req)
}
if cmd.PostRun != nil {
cmd.PostRun(req, res)
}
return res, nil
}
// commandDetails returns a command's details for the command given by |path|
// within the |root| command tree.
//
// Returns an error if the command is not found in the Command tree.
func commandDetails(path []string, root *cmds.Command) (*cmdDetails, error) {
var details cmdDetails
// find the last command in path that has a cmdDetailsMap entry
cmd := root
for _, cmp := range path {
var found bool
cmd, found = cmd.Subcommands[cmp]
if !found {
return nil, fmt.Errorf("subcommand %s should be in root", cmp)
}
if cmdDetails, found := cmdDetailsMap[cmd]; found {
details = cmdDetails
}
}
return &details, nil
}
// commandShouldRunOnDaemon determines, from commmand details, whether a
// command ought to be executed on an IPFS daemon.
//
// It returns true if the command should be executed on a daemon and false if
// it should be executed on a client. It returns an error if the command must
// NOT be executed on either.
func commandShouldRunOnDaemon(details cmdDetails, req cmds.Request, root *cmds.Command) (bool, error) {
path := req.Path()
// root command.
if len(path) < 1 {
return false, nil
}
if details.cannotRunOnClient && details.cannotRunOnDaemon {
return false, fmt.Errorf("command disabled: %s", path[0])
}
if details.doesNotUseRepo && details.canRunOnClient() {
return false, nil
}
// at this point need to know whether daemon is running. we defer
// to this point so that some commands dont open files unnecessarily.
daemonLocked, err := fsrepo.LockedByOtherProcess(req.InvocContext().ConfigRoot)
if err != nil {
return false, err
}
if daemonLocked {
log.Info("a daemon is running...")
if details.cannotRunOnDaemon {
e := "ipfs daemon is running. please stop it to run this command"
return false, cmds.ClientError(e)
}
return true, nil
}
if details.cannotRunOnClient {
return false, cmds.ClientError("must run on the ipfs daemon")
}
return false, nil
}
func isClientError(err error) bool {
// Somewhat suprisingly, the pointer cast fails to recognize commands.Error
// passed as values, so we check both.
// cast to cmds.Error
switch e := err.(type) {
case *cmds.Error:
return e.Code == cmds.ErrClient
case cmds.Error:
return e.Code == cmds.ErrClient
}
return false
}
func getRepoPath(req cmds.Request) (string, error) {
repoOpt, found, err := req.Option("config").String()
if err != nil {
return "", err
}
if found && repoOpt != "" {
return repoOpt, nil
}
repoPath, err := fsrepo.BestKnownPath()
if err != nil {
return "", err
}
return repoPath, nil
}
func loadConfig(path string) (*config.Config, error) {
return fsrepo.ConfigAt(path)
}
// startProfiling begins CPU profiling and returns a `stop` function to be
// executed as late as possible. The stop function captures the memprofile.
func startProfiling() (func(), error) {
// start CPU profiling as early as possible
ofi, err := os.Create(cpuProfile)
if err != nil {
return nil, err
}
pprof.StartCPUProfile(ofi)
go func() {
for _ = range time.NewTicker(time.Second * 30).C {
err := writeHeapProfileToFile()
if err != nil {
log.Error(err)
}
}
}()
stopProfiling := func() {
pprof.StopCPUProfile()
defer ofi.Close() // captured by the closure
}
return stopProfiling, nil
}
func writeHeapProfileToFile() error {
mprof, err := os.Create(heapProfile)
if err != nil {
return err
}
defer mprof.Close() // _after_ writing the heap profile
return pprof.WriteHeapProfile(mprof)
}
// IntrHandler helps set up an interrupt handler that can
// be cleanly shut down through the io.Closer interface.
type IntrHandler struct {
sig chan os.Signal
wg sync.WaitGroup
}
func NewIntrHandler() *IntrHandler {
ih := &IntrHandler{}
ih.sig = make(chan os.Signal, 1)
return ih
}
func (ih *IntrHandler) Close() error {
close(ih.sig)
ih.wg.Wait()
return nil
}
// Handle starts handling the given signals, and will call the handler
// callback function each time a signal is catched. The function is passed
// the number of times the handler has been triggered in total, as
// well as the handler itself, so that the handling logic can use the
// handler's wait group to ensure clean shutdown when Close() is called.
func (ih *IntrHandler) Handle(handler func(count int, ih *IntrHandler), sigs ...os.Signal) {
signal.Notify(ih.sig, sigs...)
ih.wg.Add(1)
go func() {
defer ih.wg.Done()
count := 0
for _ = range ih.sig {
count++
handler(count, ih)
}
signal.Stop(ih.sig)
}()
}
func (i *cmdInvocation) SetupInterruptHandler(ctx context.Context) (io.Closer, context.Context) {
intrh := NewIntrHandler()
ctx, cancelFunc := context.WithCancel(ctx)
handlerFunc := func(count int, ih *IntrHandler) {
switch count {
case 1:
fmt.Println() // Prevent un-terminated ^C character in terminal
ih.wg.Add(1)
go func() {
defer ih.wg.Done()
cancelFunc()
}()
default:
fmt.Println("Received another interrupt before graceful shutdown, terminating...")
os.Exit(-1)
}
}
intrh.Handle(handlerFunc, syscall.SIGHUP, syscall.SIGINT, syscall.SIGTERM)
return intrh, ctx
}
func profileIfEnabled() (func(), error) {
// FIXME this is a temporary hack so profiling of asynchronous operations
// works as intended.
if os.Getenv(EnvEnableProfiling) != "" {
stopProfilingFunc, err := startProfiling() // TODO maybe change this to its own option... profiling makes it slower.
if err != nil {
return nil, err
}
return stopProfilingFunc, nil
}
return func() {}, nil
}