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mirror of https://github.com/rclone/rclone synced 2024-12-22 13:03:02 +01:00
rclone/fs/rc/internal.go
Nick Craig-Wood 61b27cda80 build: fix govet lint errors with golangci-lint v1.60.1
There were a lot of instances of this lint error

    printf: non-constant format string in call to github.com/rclone/rclone/fs.Logf (govet)

Which were fixed by re-arranging the arguments and adding "%s".

There were quite a few genuine bugs which were found too.
2024-08-14 18:25:40 +01:00

569 lines
15 KiB
Go

// Define the internal rc functions
package rc
import (
"context"
"fmt"
"net/http"
"os"
"os/exec"
"runtime"
"strings"
"time"
"github.com/coreos/go-semver/semver"
"github.com/rclone/rclone/fs"
"github.com/rclone/rclone/fs/config/obscure"
"github.com/rclone/rclone/lib/atexit"
"github.com/rclone/rclone/lib/buildinfo"
"github.com/rclone/rclone/lib/debug"
)
func init() {
Add(Call{
Path: "rc/noopauth",
AuthRequired: true,
Fn: rcNoop,
Title: "Echo the input to the output parameters requiring auth",
Help: `
This echoes the input parameters to the output parameters for testing
purposes. It can be used to check that rclone is still alive and to
check that parameter passing is working properly.`,
})
Add(Call{
Path: "rc/noop",
Fn: rcNoop,
Title: "Echo the input to the output parameters",
Help: `
This echoes the input parameters to the output parameters for testing
purposes. It can be used to check that rclone is still alive and to
check that parameter passing is working properly.`,
})
}
// Echo the input to the output parameters
func rcNoop(ctx context.Context, in Params) (out Params, err error) {
return in, nil
}
func init() {
Add(Call{
Path: "rc/error",
Fn: rcError,
Title: "This returns an error",
Help: `
This returns an error with the input as part of its error string.
Useful for testing error handling.`,
})
}
// Return an error regardless
func rcError(ctx context.Context, in Params) (out Params, err error) {
return nil, fmt.Errorf("arbitrary error on input %+v", in)
}
func init() {
Add(Call{
Path: "rc/list",
Fn: rcList,
Title: "List all the registered remote control commands",
Help: `
This lists all the registered remote control commands as a JSON map in
the commands response.`,
})
}
// List the registered commands
func rcList(ctx context.Context, in Params) (out Params, err error) {
out = make(Params)
out["commands"] = Calls.List()
return out, nil
}
func init() {
Add(Call{
Path: "core/pid",
Fn: rcPid,
Title: "Return PID of current process",
Help: `
This returns PID of current process.
Useful for stopping rclone process.`,
})
}
// Return PID of current process
func rcPid(ctx context.Context, in Params) (out Params, err error) {
out = make(Params)
out["pid"] = os.Getpid()
return out, nil
}
func init() {
Add(Call{
Path: "core/memstats",
Fn: rcMemStats,
Title: "Returns the memory statistics",
Help: `
This returns the memory statistics of the running program. What the values mean
are explained in the go docs: https://golang.org/pkg/runtime/#MemStats
The most interesting values for most people are:
- HeapAlloc - this is the amount of memory rclone is actually using
- HeapSys - this is the amount of memory rclone has obtained from the OS
- Sys - this is the total amount of memory requested from the OS
- It is virtual memory so may include unused memory
`,
})
}
// Return the memory statistics
func rcMemStats(ctx context.Context, in Params) (out Params, err error) {
out = make(Params)
var m runtime.MemStats
runtime.ReadMemStats(&m)
out["Alloc"] = m.Alloc
out["TotalAlloc"] = m.TotalAlloc
out["Sys"] = m.Sys
out["Mallocs"] = m.Mallocs
out["Frees"] = m.Frees
out["HeapAlloc"] = m.HeapAlloc
out["HeapSys"] = m.HeapSys
out["HeapIdle"] = m.HeapIdle
out["HeapInuse"] = m.HeapInuse
out["HeapReleased"] = m.HeapReleased
out["HeapObjects"] = m.HeapObjects
out["StackInuse"] = m.StackInuse
out["StackSys"] = m.StackSys
out["MSpanInuse"] = m.MSpanInuse
out["MSpanSys"] = m.MSpanSys
out["MCacheInuse"] = m.MCacheInuse
out["MCacheSys"] = m.MCacheSys
out["BuckHashSys"] = m.BuckHashSys
out["GCSys"] = m.GCSys
out["OtherSys"] = m.OtherSys
return out, nil
}
func init() {
Add(Call{
Path: "core/gc",
Fn: rcGc,
Title: "Runs a garbage collection.",
Help: `
This tells the go runtime to do a garbage collection run. It isn't
necessary to call this normally, but it can be useful for debugging
memory problems.
`,
})
}
// Do a garbage collection run
func rcGc(ctx context.Context, in Params) (out Params, err error) {
runtime.GC()
return nil, nil
}
func init() {
Add(Call{
Path: "core/version",
Fn: rcVersion,
Title: "Shows the current version of rclone and the go runtime.",
Help: `
This shows the current version of go and the go runtime:
- version - rclone version, e.g. "v1.53.0"
- decomposed - version number as [major, minor, patch]
- isGit - boolean - true if this was compiled from the git version
- isBeta - boolean - true if this is a beta version
- os - OS in use as according to Go
- arch - cpu architecture in use according to Go
- goVersion - version of Go runtime in use
- linking - type of rclone executable (static or dynamic)
- goTags - space separated build tags or "none"
`,
})
}
// Return version info
func rcVersion(ctx context.Context, in Params) (out Params, err error) {
version, err := semver.NewVersion(fs.Version[1:])
if err != nil {
return nil, err
}
linking, tagString := buildinfo.GetLinkingAndTags()
out = Params{
"version": fs.Version,
"decomposed": version.Slice(),
"isGit": strings.HasSuffix(fs.Version, "-DEV"),
"isBeta": version.PreRelease != "",
"os": runtime.GOOS,
"arch": runtime.GOARCH,
"goVersion": runtime.Version(),
"linking": linking,
"goTags": tagString,
}
return out, nil
}
func init() {
Add(Call{
Path: "core/obscure",
Fn: rcObscure,
Title: "Obscures a string passed in.",
Help: `
Pass a clear string and rclone will obscure it for the config file:
- clear - string
Returns:
- obscured - string
`,
})
}
// Return obscured string
func rcObscure(ctx context.Context, in Params) (out Params, err error) {
clear, err := in.GetString("clear")
if err != nil {
return nil, err
}
obscured, err := obscure.Obscure(clear)
if err != nil {
return nil, err
}
out = Params{
"obscured": obscured,
}
return out, nil
}
func init() {
Add(Call{
Path: "core/quit",
Fn: rcQuit,
Title: "Terminates the app.",
Help: `
(Optional) Pass an exit code to be used for terminating the app:
- exitCode - int
`,
})
}
// Terminates app
func rcQuit(ctx context.Context, in Params) (out Params, err error) {
code, err := in.GetInt64("exitCode")
if IsErrParamInvalid(err) {
return nil, err
}
if IsErrParamNotFound(err) {
code = 0
}
exitCode := int(code)
go func(exitCode int) {
time.Sleep(time.Millisecond * 1500)
atexit.Run()
os.Exit(exitCode)
}(exitCode)
return nil, nil
}
func init() {
Add(Call{
Path: "debug/set-mutex-profile-fraction",
Fn: rcSetMutexProfileFraction,
Title: "Set runtime.SetMutexProfileFraction for mutex profiling.",
Help: `
SetMutexProfileFraction controls the fraction of mutex contention
events that are reported in the mutex profile. On average 1/rate
events are reported. The previous rate is returned.
To turn off profiling entirely, pass rate 0. To just read the current
rate, pass rate < 0. (For n>1 the details of sampling may change.)
Once this is set you can look use this to profile the mutex contention:
go tool pprof http://localhost:5572/debug/pprof/mutex
Parameters:
- rate - int
Results:
- previousRate - int
`,
})
}
func rcSetMutexProfileFraction(ctx context.Context, in Params) (out Params, err error) {
rate, err := in.GetInt64("rate")
if err != nil {
return nil, err
}
previousRate := runtime.SetMutexProfileFraction(int(rate))
out = make(Params)
out["previousRate"] = previousRate
return out, nil
}
func init() {
Add(Call{
Path: "debug/set-block-profile-rate",
Fn: rcSetBlockProfileRate,
Title: "Set runtime.SetBlockProfileRate for blocking profiling.",
Help: `
SetBlockProfileRate controls the fraction of goroutine blocking events
that are reported in the blocking profile. The profiler aims to sample
an average of one blocking event per rate nanoseconds spent blocked.
To include every blocking event in the profile, pass rate = 1. To turn
off profiling entirely, pass rate <= 0.
After calling this you can use this to see the blocking profile:
go tool pprof http://localhost:5572/debug/pprof/block
Parameters:
- rate - int
`,
})
}
func rcSetBlockProfileRate(ctx context.Context, in Params) (out Params, err error) {
rate, err := in.GetInt64("rate")
if err != nil {
return nil, err
}
runtime.SetBlockProfileRate(int(rate))
return nil, nil
}
func init() {
Add(Call{
Path: "debug/set-soft-memory-limit",
Fn: rcSetSoftMemoryLimit,
Title: "Call runtime/debug.SetMemoryLimit for setting a soft memory limit for the runtime.",
Help: `
SetMemoryLimit provides the runtime with a soft memory limit.
The runtime undertakes several processes to try to respect this memory limit, including
adjustments to the frequency of garbage collections and returning memory to the underlying
system more aggressively. This limit will be respected even if GOGC=off (or, if SetGCPercent(-1) is executed).
The input limit is provided as bytes, and includes all memory mapped, managed, and not
released by the Go runtime. Notably, it does not account for space used by the Go binary
and memory external to Go, such as memory managed by the underlying system on behalf of
the process, or memory managed by non-Go code inside the same process.
Examples of excluded memory sources include: OS kernel memory held on behalf of the process,
memory allocated by C code, and memory mapped by syscall.Mmap (because it is not managed by the Go runtime).
A zero limit or a limit that's lower than the amount of memory used by the Go runtime may cause
the garbage collector to run nearly continuously. However, the application may still make progress.
The memory limit is always respected by the Go runtime, so to effectively disable this behavior,
set the limit very high. math.MaxInt64 is the canonical value for disabling the limit, but values
much greater than the available memory on the underlying system work just as well.
See https://go.dev/doc/gc-guide for a detailed guide explaining the soft memory limit in more detail,
as well as a variety of common use-cases and scenarios.
SetMemoryLimit returns the previously set memory limit. A negative input does not adjust the limit,
and allows for retrieval of the currently set memory limit.
Parameters:
- mem-limit - int
`,
})
}
func rcSetSoftMemoryLimit(ctx context.Context, in Params) (out Params, err error) {
memLimit, err := in.GetInt64("mem-limit")
if err != nil {
return nil, err
}
oldMemLimit := debug.SetMemoryLimit(memLimit)
out = Params{
"existing-mem-limit": oldMemLimit,
}
return out, nil
}
func init() {
Add(Call{
Path: "debug/set-gc-percent",
Fn: rcSetGCPercent,
Title: "Call runtime/debug.SetGCPercent for setting the garbage collection target percentage.",
Help: `
SetGCPercent sets the 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. SetGCPercent returns the previous setting. The initial setting is the
value of the GOGC environment variable at startup, or 100 if the variable is not set.
This setting may be effectively reduced in order to maintain a memory limit.
A negative percentage effectively disables garbage collection, unless the memory limit is reached.
See https://pkg.go.dev/runtime/debug#SetMemoryLimit for more details.
Parameters:
- gc-percent - int
`,
})
}
func rcSetGCPercent(ctx context.Context, in Params) (out Params, err error) {
gcPercent, err := in.GetInt64("gc-percent")
if err != nil {
return nil, err
}
oldGCPercent := debug.SetGCPercent(int(gcPercent))
out = Params{
"existing-gc-percent": oldGCPercent,
}
return out, nil
}
func init() {
Add(Call{
Path: "core/command",
AuthRequired: true,
Fn: rcRunCommand,
NeedsRequest: true,
NeedsResponse: true,
Title: "Run a rclone terminal command over rc.",
Help: `This takes the following parameters:
- command - a string with the command name.
- arg - a list of arguments for the backend command.
- opt - a map of string to string of options.
- returnType - one of ("COMBINED_OUTPUT", "STREAM", "STREAM_ONLY_STDOUT", "STREAM_ONLY_STDERR").
- Defaults to "COMBINED_OUTPUT" if not set.
- The STREAM returnTypes will write the output to the body of the HTTP message.
- The COMBINED_OUTPUT will write the output to the "result" parameter.
Returns:
- result - result from the backend command.
- Only set when using returnType "COMBINED_OUTPUT".
- error - set if rclone exits with an error code.
- returnType - one of ("COMBINED_OUTPUT", "STREAM", "STREAM_ONLY_STDOUT", "STREAM_ONLY_STDERR").
Example:
rclone rc core/command command=ls -a mydrive:/ -o max-depth=1
rclone rc core/command -a ls -a mydrive:/ -o max-depth=1
Returns:
` + "```" + `
{
"error": false,
"result": "<Raw command line output>"
}
OR
{
"error": true,
"result": "<Raw command line output>"
}
` + "```" + `
`,
})
}
// rcRunCommand runs an rclone command with the given args and flags
func rcRunCommand(ctx context.Context, in Params) (out Params, err error) {
command, err := in.GetString("command")
if err != nil {
command = ""
}
var opt = map[string]string{}
err = in.GetStructMissingOK("opt", &opt)
if err != nil {
return nil, err
}
var arg = []string{}
err = in.GetStructMissingOK("arg", &arg)
if err != nil {
return nil, err
}
returnType, err := in.GetString("returnType")
if err != nil {
returnType = "COMBINED_OUTPUT"
}
var httpResponse http.ResponseWriter
httpResponse, err = in.GetHTTPResponseWriter()
if err != nil {
return nil, fmt.Errorf("response object is required\n%w", err)
}
var allArgs = []string{}
if command != "" {
// Add the command e.g.: ls to the args
allArgs = append(allArgs, command)
}
// Add all from arg
allArgs = append(allArgs, arg...)
// Add flags to args for e.g. --max-depth 1 comes in as { max-depth 1 }.
// Convert it to [ max-depth, 1 ] and append to args list
for key, value := range opt {
if len(key) == 1 {
allArgs = append(allArgs, "-"+key)
} else {
allArgs = append(allArgs, "--"+key)
}
allArgs = append(allArgs, value)
}
// Get the path for the current executable which was used to run rclone.
ex, err := os.Executable()
if err != nil {
return nil, err
}
cmd := exec.CommandContext(ctx, ex, allArgs...)
if returnType == "COMBINED_OUTPUT" {
// Run the command and get the output for error and stdout combined.
out, err := cmd.CombinedOutput()
if err != nil {
return Params{
"result": string(out),
"error": true,
}, nil
}
return Params{
"result": string(out),
"error": false,
}, nil
} else if returnType == "STREAM_ONLY_STDOUT" {
cmd.Stdout = httpResponse
} else if returnType == "STREAM_ONLY_STDERR" {
cmd.Stderr = httpResponse
} else if returnType == "STREAM" {
cmd.Stdout = httpResponse
cmd.Stderr = httpResponse
} else {
return nil, fmt.Errorf("unknown returnType %q", returnType)
}
err = cmd.Run()
return nil, err
}