1
0
Fork 0
mirror of https://github.com/moby/moby.git synced 2022-11-09 12:21:53 -05:00
moby--moby/cli/command/formatter/stats.go
Vincent Demeester ef915fd036
Add support for Names and ID in stats format
This adds support to display names or id of container instead of what
was provided in the request.

This keeps the default behavior (`docker stats byname` will display
`byname` in the `CONTAINER` colmun and `docker stats byid` will display
the id in the `CONTAINER` column) but adds two new format directive.

Signed-off-by: Vincent Demeester <vincent@sbr.pm>
2016-11-03 07:20:46 +01:00

211 lines
5.6 KiB
Go

package formatter
import (
"fmt"
"sync"
units "github.com/docker/go-units"
)
const (
winOSType = "windows"
defaultStatsTableFormat = "table {{.Container}}\t{{.CPUPerc}}\t{{.MemUsage}}\t{{.MemPerc}}\t{{.NetIO}}\t{{.BlockIO}}\t{{.PIDs}}"
winDefaultStatsTableFormat = "table {{.Container}}\t{{.CPUPerc}}\t{{.MemUsage}}\t{{.NetIO}}\t{{.BlockIO}}"
containerHeader = "CONTAINER"
cpuPercHeader = "CPU %"
netIOHeader = "NET I/O"
blockIOHeader = "BLOCK I/O"
memPercHeader = "MEM %" // Used only on Linux
winMemUseHeader = "PRIV WORKING SET" // Used only on Windows
memUseHeader = "MEM USAGE / LIMIT" // Used only on Linux
pidsHeader = "PIDS" // Used only on Linux
)
// StatsEntry represents represents the statistics data collected from a container
type StatsEntry struct {
Container string
Name string
ID string
CPUPercentage float64
Memory float64 // On Windows this is the private working set
MemoryLimit float64 // Not used on Windows
MemoryPercentage float64 // Not used on Windows
NetworkRx float64
NetworkTx float64
BlockRead float64
BlockWrite float64
PidsCurrent uint64 // Not used on Windows
IsInvalid bool
OSType string
}
// ContainerStats represents an entity to store containers statistics synchronously
type ContainerStats struct {
mutex sync.Mutex
StatsEntry
err error
}
// GetError returns the container statistics error.
// This is used to determine whether the statistics are valid or not
func (cs *ContainerStats) GetError() error {
cs.mutex.Lock()
defer cs.mutex.Unlock()
return cs.err
}
// SetErrorAndReset zeroes all the container statistics and store the error.
// It is used when receiving time out error during statistics collecting to reduce lock overhead
func (cs *ContainerStats) SetErrorAndReset(err error) {
cs.mutex.Lock()
defer cs.mutex.Unlock()
cs.CPUPercentage = 0
cs.Memory = 0
cs.MemoryPercentage = 0
cs.MemoryLimit = 0
cs.NetworkRx = 0
cs.NetworkTx = 0
cs.BlockRead = 0
cs.BlockWrite = 0
cs.PidsCurrent = 0
cs.err = err
cs.IsInvalid = true
}
// SetError sets container statistics error
func (cs *ContainerStats) SetError(err error) {
cs.mutex.Lock()
defer cs.mutex.Unlock()
cs.err = err
if err != nil {
cs.IsInvalid = true
}
}
// SetStatistics set the container statistics
func (cs *ContainerStats) SetStatistics(s StatsEntry) {
cs.mutex.Lock()
defer cs.mutex.Unlock()
s.Container = cs.Container
s.OSType = cs.OSType
cs.StatsEntry = s
}
// GetStatistics returns container statistics with other meta data such as the container name
func (cs *ContainerStats) GetStatistics() StatsEntry {
cs.mutex.Lock()
defer cs.mutex.Unlock()
return cs.StatsEntry
}
// NewStatsFormat returns a format for rendering an CStatsContext
func NewStatsFormat(source, osType string) Format {
if source == TableFormatKey {
if osType == winOSType {
return Format(winDefaultStatsTableFormat)
}
return Format(defaultStatsTableFormat)
}
return Format(source)
}
// NewContainerStats returns a new ContainerStats entity and sets in it the given name
func NewContainerStats(container, osType string) *ContainerStats {
return &ContainerStats{
StatsEntry: StatsEntry{Container: container, OSType: osType},
}
}
// ContainerStatsWrite renders the context for a list of containers statistics
func ContainerStatsWrite(ctx Context, containerStats []StatsEntry) error {
render := func(format func(subContext subContext) error) error {
for _, cstats := range containerStats {
containerStatsCtx := &containerStatsContext{
s: cstats,
}
if err := format(containerStatsCtx); err != nil {
return err
}
}
return nil
}
return ctx.Write(&containerStatsContext{}, render)
}
type containerStatsContext struct {
HeaderContext
s StatsEntry
}
func (c *containerStatsContext) Container() string {
c.AddHeader(containerHeader)
return c.s.Container
}
func (c *containerStatsContext) Name() string {
c.AddHeader(nameHeader)
name := c.s.Name[1:]
return name
}
func (c *containerStatsContext) ID() string {
c.AddHeader(containerIDHeader)
return c.s.ID
}
func (c *containerStatsContext) CPUPerc() string {
c.AddHeader(cpuPercHeader)
if c.s.IsInvalid {
return fmt.Sprintf("--")
}
return fmt.Sprintf("%.2f%%", c.s.CPUPercentage)
}
func (c *containerStatsContext) MemUsage() string {
header := memUseHeader
if c.s.OSType == winOSType {
header = winMemUseHeader
}
c.AddHeader(header)
if c.s.IsInvalid {
return fmt.Sprintf("-- / --")
}
if c.s.OSType == winOSType {
return fmt.Sprintf("%s", units.BytesSize(c.s.Memory))
}
return fmt.Sprintf("%s / %s", units.BytesSize(c.s.Memory), units.BytesSize(c.s.MemoryLimit))
}
func (c *containerStatsContext) MemPerc() string {
header := memPercHeader
c.AddHeader(header)
if c.s.IsInvalid || c.s.OSType == winOSType {
return fmt.Sprintf("--")
}
return fmt.Sprintf("%.2f%%", c.s.MemoryPercentage)
}
func (c *containerStatsContext) NetIO() string {
c.AddHeader(netIOHeader)
if c.s.IsInvalid {
return fmt.Sprintf("--")
}
return fmt.Sprintf("%s / %s", units.HumanSizeWithPrecision(c.s.NetworkRx, 3), units.HumanSizeWithPrecision(c.s.NetworkTx, 3))
}
func (c *containerStatsContext) BlockIO() string {
c.AddHeader(blockIOHeader)
if c.s.IsInvalid {
return fmt.Sprintf("--")
}
return fmt.Sprintf("%s / %s", units.HumanSizeWithPrecision(c.s.BlockRead, 3), units.HumanSizeWithPrecision(c.s.BlockWrite, 3))
}
func (c *containerStatsContext) PIDs() string {
c.AddHeader(pidsHeader)
if c.s.IsInvalid || c.s.OSType == winOSType {
return fmt.Sprintf("--")
}
return fmt.Sprintf("%d", c.s.PidsCurrent)
}