Beispiel #1
0
func (*progressSuite) TestProgressCmds(c *gc.C) {
	initCmd := cloudinit.InitProgressCmd()
	re := regexp.MustCompile(`test -e /proc/self/fd/([0-9]+) \|\| exec ([0-9]+)>&2`)
	submatch := re.FindStringSubmatch(initCmd)
	c.Assert(submatch, gc.HasLen, 3)
	c.Assert(submatch[0], gc.Equals, initCmd)
	c.Assert(submatch[1], gc.Equals, submatch[2])
	logCmd := cloudinit.LogProgressCmd("he'llo\"!")
	c.Assert(logCmd, gc.Equals, `echo 'he'"'"'llo"!' >&`+submatch[1])
}
Beispiel #2
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// ConfigureScript generates the bash script that applies
// the specified cloud-config.
func ConfigureScript(cloudcfg *cloudinit.Config) (string, error) {
	// TODO(axw): 2013-08-23 bug 1215777
	// Carry out configuration for ssh-keys-per-user,
	// machine-updates-authkeys, using cloud-init config.
	//
	// We should work with smoser to get a supported
	// command in (or next to) cloud-init for manually
	// invoking cloud-config. This would address the
	// above comment by removing the need to generate a
	// script "by hand".

	// Bootcmds must be run before anything else,
	// as they may affect package installation.
	bootcmds, err := cmdlist(cloudcfg.BootCmds())
	if err != nil {
		return "", err
	}

	// Add package sources and packages.
	pkgcmds, err := addPackageCommands(cloudcfg)
	if err != nil {
		return "", err
	}

	// Runcmds come last.
	runcmds, err := cmdlist(cloudcfg.RunCmds())
	if err != nil {
		return "", err
	}

	// We prepend "set -xe". This is already in runcmds,
	// but added here to avoid relying on that to be
	// invariant.
	script := []string{"#!/bin/bash", "set -e"}
	// We must initialise progress reporting before entering
	// the subshell and redirecting stderr.
	script = append(script, cloudinit.InitProgressCmd())
	stdout, stderr := cloudcfg.Output(cloudinit.OutAll)
	script = append(script, "(")
	if stderr != "" {
		script = append(script, "(")
	}
	script = append(script, bootcmds...)
	script = append(script, pkgcmds...)
	script = append(script, runcmds...)
	if stderr != "" {
		script = append(script, ") "+stdout)
		script = append(script, ") "+stderr)
	} else {
		script = append(script, ") "+stdout+" 2>&1")
	}
	return strings.Join(script, "\n"), nil
}
Beispiel #3
0
// ConfigureJuju updates the provided cloudinit.Config with configuration
// to initialise a Juju machine agent.
func ConfigureJuju(cfg *MachineConfig, c *cloudinit.Config) error {
	if err := verifyConfig(cfg); err != nil {
		return err
	}

	// Initialise progress reporting. We need to do separately for runcmd
	// and (possibly, below) for bootcmd, as they may be run in different
	// shell sessions.
	initProgressCmd := cloudinit.InitProgressCmd()
	c.AddRunCmd(initProgressCmd)

	// If we're doing synchronous bootstrap or manual provisioning, then
	// ConfigureBasic won't have been invoked; thus, the output log won't
	// have been set. We don't want to show the log to the user, so simply
	// append to the log file rather than teeing.
	if stdout, _ := c.Output(cloudinit.OutAll); stdout == "" {
		c.SetOutput(cloudinit.OutAll, ">> "+cfg.CloudInitOutputLog, "")
		c.AddBootCmd(initProgressCmd)
		c.AddBootCmd(cloudinit.LogProgressCmd("Logging to %s on remote host", cfg.CloudInitOutputLog))
	}

	if !cfg.DisablePackageCommands {
		AddAptCommands(cfg.AptProxySettings, c)
	}

	// Write out the normal proxy settings so that the settings are
	// sourced by bash, and ssh through that.
	c.AddScripts(
		// We look to see if the proxy line is there already as
		// the manual provider may have had it aleady. The ubuntu
		// user may not exist (local provider only).
		`([ ! -e /home/ubuntu/.profile ] || grep -q '.juju-proxy' /home/ubuntu/.profile) || ` +
			`printf '\n# Added by juju\n[ -f "$HOME/.juju-proxy" ] && . "$HOME/.juju-proxy"\n' >> /home/ubuntu/.profile`)
	if (cfg.ProxySettings != osenv.ProxySettings{}) {
		exportedProxyEnv := cfg.ProxySettings.AsScriptEnvironment()
		c.AddScripts(strings.Split(exportedProxyEnv, "\n")...)
		c.AddScripts(
			fmt.Sprintf(
				`[ -e /home/ubuntu ] && (printf '%%s\n' %s > /home/ubuntu/.juju-proxy && chown ubuntu:ubuntu /home/ubuntu/.juju-proxy)`,
				shquote(cfg.ProxySettings.AsScriptEnvironment())))
	}

	// Make the lock dir and change the ownership of the lock dir itself to
	// ubuntu:ubuntu from root:root so the juju-run command run as the ubuntu
	// user is able to get access to the hook execution lock (like the uniter
	// itself does.)
	lockDir := path.Join(cfg.DataDir, "locks")
	c.AddScripts(
		fmt.Sprintf("mkdir -p %s", lockDir),
		// We only try to change ownership if there is an ubuntu user
		// defined, and we determine this by the existance of the home dir.
		fmt.Sprintf("[ -e /home/ubuntu ] && chown ubuntu:ubuntu %s", lockDir),
		fmt.Sprintf("mkdir -p %s", cfg.LogDir),
		fmt.Sprintf("chown syslog:adm %s", cfg.LogDir),
	)

	// Make a directory for the tools to live in, then fetch the
	// tools and unarchive them into it.
	var copyCmd string
	if strings.HasPrefix(cfg.Tools.URL, fileSchemePrefix) {
		copyCmd = fmt.Sprintf("cp %s $bin/tools.tar.gz", shquote(cfg.Tools.URL[len(fileSchemePrefix):]))
	} else {
		curlCommand := "curl -sSfw 'tools from %{url_effective} downloaded: HTTP %{http_code}; time %{time_total}s; size %{size_download} bytes; speed %{speed_download} bytes/s '"
		if cfg.DisableSSLHostnameVerification {
			curlCommand += " --insecure"
		}
		copyCmd = fmt.Sprintf("%s -o $bin/tools.tar.gz %s", curlCommand, shquote(cfg.Tools.URL))
		c.AddRunCmd(cloudinit.LogProgressCmd("Fetching tools: %s", copyCmd))
	}
	toolsJson, err := json.Marshal(cfg.Tools)
	if err != nil {
		return err
	}
	c.AddScripts(
		"bin="+shquote(cfg.jujuTools()),
		"mkdir -p $bin",
		copyCmd,
		fmt.Sprintf("sha256sum $bin/tools.tar.gz > $bin/juju%s.sha256", cfg.Tools.Version),
		fmt.Sprintf(`grep '%s' $bin/juju%s.sha256 || (echo "Tools checksum mismatch"; exit 1)`,
			cfg.Tools.SHA256, cfg.Tools.Version),
		fmt.Sprintf("tar zxf $bin/tools.tar.gz -C $bin"),
		fmt.Sprintf("rm $bin/tools.tar.gz && rm $bin/juju%s.sha256", cfg.Tools.Version),
		fmt.Sprintf("printf %%s %s > $bin/downloaded-tools.txt", shquote(string(toolsJson))),
	)

	// We add the machine agent's configuration info
	// before running bootstrap-state so that bootstrap-state
	// has a chance to rerwrite it to change the password.
	// It would be cleaner to change bootstrap-state to
	// be responsible for starting the machine agent itself,
	// but this would not be backwardly compatible.
	machineTag := names.MachineTag(cfg.MachineId)
	_, err = cfg.addAgentInfo(c, machineTag)
	if err != nil {
		return err
	}

	// Add the cloud archive cloud-tools pocket to apt sources
	// for series that need it. This gives us up-to-date LXC,
	// MongoDB, and other infrastructure.
	if !cfg.DisablePackageCommands {
		series := cfg.Tools.Version.Series
		MaybeAddCloudArchiveCloudTools(c, series)
	}

	if cfg.Bootstrap {
		cons := cfg.Constraints.String()
		if cons != "" {
			cons = " --constraints " + shquote(cons)
		}
		var hardware string
		if cfg.HardwareCharacteristics != nil {
			if hardware = cfg.HardwareCharacteristics.String(); hardware != "" {
				hardware = " --hardware " + shquote(hardware)
			}
		}
		c.AddRunCmd(cloudinit.LogProgressCmd("Bootstrapping Juju machine agent"))
		c.AddScripts(
			// The bootstrapping is always run with debug on.
			cfg.jujuTools() + "/jujud bootstrap-state" +
				" --data-dir " + shquote(cfg.DataDir) +
				" --env-config " + shquote(base64yaml(cfg.Config)) +
				" --instance-id " + shquote(string(cfg.InstanceId)) +
				hardware +
				cons +
				" --debug",
		)
	}

	return cfg.addMachineAgentToBoot(c, machineTag, cfg.MachineId)
}