9c88801a12
Back in the before time, the best practices surrounding usage of Context weren't quite worked out. We defined our own type to make usage easier. As this packaged was used elsewhere, it make it more and more challenging to integrate with the forked `Context` type. Now that it is available in the standard library, we can just use that one directly. To make usage more consistent, we now use `dcontext` when referring to the distribution context package. Signed-off-by: Stephen J Day <stephen.day@docker.com>
199 lines
6.7 KiB
Go
199 lines
6.7 KiB
Go
// Package base provides a base implementation of the storage driver that can
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// be used to implement common checks. The goal is to increase the amount of
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// code sharing.
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//
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// The canonical approach to use this class is to embed in the exported driver
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// struct such that calls are proxied through this implementation. First,
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// declare the internal driver, as follows:
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//
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// type driver struct { ... internal ...}
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//
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// The resulting type should implement StorageDriver such that it can be the
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// target of a Base struct. The exported type can then be declared as follows:
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//
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// type Driver struct {
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// Base
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// }
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//
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// Because Driver embeds Base, it effectively implements Base. If the driver
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// needs to intercept a call, before going to base, Driver should implement
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// that method. Effectively, Driver can intercept calls before coming in and
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// driver implements the actual logic.
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//
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// To further shield the embed from other packages, it is recommended to
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// employ a private embed struct:
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//
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// type baseEmbed struct {
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// base.Base
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// }
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//
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// Then, declare driver to embed baseEmbed, rather than Base directly:
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//
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// type Driver struct {
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// baseEmbed
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// }
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//
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// The type now implements StorageDriver, proxying through Base, without
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// exporting an unnecessary field.
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package base
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import (
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"context"
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"io"
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dcontext "github.com/docker/distribution/context"
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storagedriver "github.com/docker/distribution/registry/storage/driver"
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)
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// Base provides a wrapper around a storagedriver implementation that provides
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// common path and bounds checking.
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type Base struct {
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storagedriver.StorageDriver
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}
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// Format errors received from the storage driver
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func (base *Base) setDriverName(e error) error {
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switch actual := e.(type) {
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case nil:
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return nil
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case storagedriver.ErrUnsupportedMethod:
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actual.DriverName = base.StorageDriver.Name()
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return actual
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case storagedriver.PathNotFoundError:
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actual.DriverName = base.StorageDriver.Name()
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return actual
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case storagedriver.InvalidPathError:
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actual.DriverName = base.StorageDriver.Name()
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return actual
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case storagedriver.InvalidOffsetError:
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actual.DriverName = base.StorageDriver.Name()
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return actual
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default:
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storageError := storagedriver.Error{
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DriverName: base.StorageDriver.Name(),
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Enclosed: e,
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}
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return storageError
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}
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}
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// GetContent wraps GetContent of underlying storage driver.
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func (base *Base) GetContent(ctx context.Context, path string) ([]byte, error) {
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ctx, done := dcontext.WithTrace(ctx)
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defer done("%s.GetContent(%q)", base.Name(), path)
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if !storagedriver.PathRegexp.MatchString(path) {
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return nil, storagedriver.InvalidPathError{Path: path, DriverName: base.StorageDriver.Name()}
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}
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b, e := base.StorageDriver.GetContent(ctx, path)
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return b, base.setDriverName(e)
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}
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// PutContent wraps PutContent of underlying storage driver.
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func (base *Base) PutContent(ctx context.Context, path string, content []byte) error {
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ctx, done := dcontext.WithTrace(ctx)
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defer done("%s.PutContent(%q)", base.Name(), path)
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if !storagedriver.PathRegexp.MatchString(path) {
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return storagedriver.InvalidPathError{Path: path, DriverName: base.StorageDriver.Name()}
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}
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return base.setDriverName(base.StorageDriver.PutContent(ctx, path, content))
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}
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// Reader wraps Reader of underlying storage driver.
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func (base *Base) Reader(ctx context.Context, path string, offset int64) (io.ReadCloser, error) {
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ctx, done := dcontext.WithTrace(ctx)
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defer done("%s.Reader(%q, %d)", base.Name(), path, offset)
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if offset < 0 {
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return nil, storagedriver.InvalidOffsetError{Path: path, Offset: offset, DriverName: base.StorageDriver.Name()}
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}
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if !storagedriver.PathRegexp.MatchString(path) {
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return nil, storagedriver.InvalidPathError{Path: path, DriverName: base.StorageDriver.Name()}
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}
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rc, e := base.StorageDriver.Reader(ctx, path, offset)
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return rc, base.setDriverName(e)
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}
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// Writer wraps Writer of underlying storage driver.
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func (base *Base) Writer(ctx context.Context, path string, append bool) (storagedriver.FileWriter, error) {
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ctx, done := dcontext.WithTrace(ctx)
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defer done("%s.Writer(%q, %v)", base.Name(), path, append)
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if !storagedriver.PathRegexp.MatchString(path) {
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return nil, storagedriver.InvalidPathError{Path: path, DriverName: base.StorageDriver.Name()}
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}
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writer, e := base.StorageDriver.Writer(ctx, path, append)
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return writer, base.setDriverName(e)
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}
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// Stat wraps Stat of underlying storage driver.
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func (base *Base) Stat(ctx context.Context, path string) (storagedriver.FileInfo, error) {
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ctx, done := dcontext.WithTrace(ctx)
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defer done("%s.Stat(%q)", base.Name(), path)
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if !storagedriver.PathRegexp.MatchString(path) && path != "/" {
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return nil, storagedriver.InvalidPathError{Path: path, DriverName: base.StorageDriver.Name()}
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}
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fi, e := base.StorageDriver.Stat(ctx, path)
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return fi, base.setDriverName(e)
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}
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// List wraps List of underlying storage driver.
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func (base *Base) List(ctx context.Context, path string) ([]string, error) {
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ctx, done := dcontext.WithTrace(ctx)
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defer done("%s.List(%q)", base.Name(), path)
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if !storagedriver.PathRegexp.MatchString(path) && path != "/" {
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return nil, storagedriver.InvalidPathError{Path: path, DriverName: base.StorageDriver.Name()}
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}
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str, e := base.StorageDriver.List(ctx, path)
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return str, base.setDriverName(e)
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}
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// Move wraps Move of underlying storage driver.
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func (base *Base) Move(ctx context.Context, sourcePath string, destPath string) error {
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ctx, done := dcontext.WithTrace(ctx)
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defer done("%s.Move(%q, %q", base.Name(), sourcePath, destPath)
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if !storagedriver.PathRegexp.MatchString(sourcePath) {
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return storagedriver.InvalidPathError{Path: sourcePath, DriverName: base.StorageDriver.Name()}
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} else if !storagedriver.PathRegexp.MatchString(destPath) {
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return storagedriver.InvalidPathError{Path: destPath, DriverName: base.StorageDriver.Name()}
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}
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return base.setDriverName(base.StorageDriver.Move(ctx, sourcePath, destPath))
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}
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// Delete wraps Delete of underlying storage driver.
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func (base *Base) Delete(ctx context.Context, path string) error {
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ctx, done := dcontext.WithTrace(ctx)
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defer done("%s.Delete(%q)", base.Name(), path)
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if !storagedriver.PathRegexp.MatchString(path) {
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return storagedriver.InvalidPathError{Path: path, DriverName: base.StorageDriver.Name()}
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}
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return base.setDriverName(base.StorageDriver.Delete(ctx, path))
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}
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// URLFor wraps URLFor of underlying storage driver.
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func (base *Base) URLFor(ctx context.Context, path string, options map[string]interface{}) (string, error) {
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ctx, done := dcontext.WithTrace(ctx)
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defer done("%s.URLFor(%q)", base.Name(), path)
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if !storagedriver.PathRegexp.MatchString(path) {
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return "", storagedriver.InvalidPathError{Path: path, DriverName: base.StorageDriver.Name()}
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}
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str, e := base.StorageDriver.URLFor(ctx, path, options)
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return str, base.setDriverName(e)
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}
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