Documentation ¶
Index ¶
- Constants
- Variables
- func DefaultConfigFile(rootless bool) (string, error)
- func GetDefaultMountOptions() ([]string, error)
- func GetMountOptions(driver string, graphDriverOptions []string) ([]string, error)
- func GetRootlessRuntimeDir(rootlessUid int) (string, error)
- func ReloadConfigurationFile(configFile string, storeOptions *StoreOptions)
- type Container
- func (j *Container) MarshalJSON() ([]byte, error)
- func (j *Container) MarshalJSONBuf(buf fflib.EncodingBuffer) error
- func (c *Container) MountLabel() string
- func (c *Container) MountOpts() []string
- func (c *Container) ProcessLabel() string
- func (j *Container) UnmarshalJSON(input []byte) error
- func (j *Container) UnmarshalJSONFFLexer(fs *fflib.FFLexer, state fflib.FFParseState) error
- type ContainerBigDataStore
- type ContainerOptions
- type ContainerStore
- type DiffOptions
- type FileBasedStore
- type FlaggableStore
- type IDMappingOptions
- type Image
- type ImageOptions
- type ImageStore
- type Layer
- type LayerOptions
- type LayerStore
- type Locker
- type MetadataStore
- type ROBigDataStore
- type ROFileBasedStore
- type ROImageStore
- type ROLayerStore
- type ROMetadataStore
- type RWFileBasedStore
- type RWImageBigDataStore
- type RWMetadataStore
- type Store
- type StoreOptions
Constants ¶
const ( // ImageDigestManifestBigDataNamePrefix is a prefix of big data item // names which we consider to be manifests, used for computing a // "digest" value for the image as a whole, by which we can locate the // image later. ImageDigestManifestBigDataNamePrefix = "manifest" // ImageDigestBigDataKey is provided for compatibility with older // versions of the image library. It will be removed in the future. ImageDigestBigDataKey = "manifest" )
Variables ¶
var ( // ErrContainerUnknown indicates that there was no container with the specified name or ID. ErrContainerUnknown = errors.New("container not known") // ErrImageUnknown indicates that there was no image with the specified name or ID. ErrImageUnknown = errors.New("image not known") // ErrParentUnknown indicates that we didn't record the ID of the parent of the specified layer. ErrParentUnknown = errors.New("parent of layer not known") // ErrLayerUnknown indicates that there was no layer with the specified name or ID. ErrLayerUnknown = errors.New("layer not known") // ErrLoadError indicates that there was an initialization error. ErrLoadError = errors.New("error loading storage metadata") // ErrDuplicateID indicates that an ID which is to be assigned to a new item is already being used. ErrDuplicateID = errors.New("that ID is already in use") // ErrDuplicateName indicates that a name which is to be assigned to a new item is already being used. ErrDuplicateName = errors.New("that name is already in use") // ErrParentIsContainer is returned when a caller attempts to create a layer as a child of a container's layer. ErrParentIsContainer = errors.New("would-be parent layer is a container") // ErrNotAContainer is returned when the caller attempts to delete a container that isn't a container. ErrNotAContainer = errors.New("identifier is not a container") // ErrNotAnImage is returned when the caller attempts to delete an image that isn't an image. ErrNotAnImage = errors.New("identifier is not an image") // ErrNotALayer is returned when the caller attempts to delete a layer that isn't a layer. ErrNotALayer = errors.New("identifier is not a layer") // ErrNotAnID is returned when the caller attempts to read or write metadata from an item that doesn't exist. ErrNotAnID = errors.New("identifier is not a layer, image, or container") // ErrLayerHasChildren is returned when the caller attempts to delete a layer that has children. ErrLayerHasChildren = errors.New("layer has children") // ErrLayerUsedByImage is returned when the caller attempts to delete a layer that is an image's top layer. ErrLayerUsedByImage = errors.New("layer is in use by an image") // ErrLayerUsedByContainer is returned when the caller attempts to delete a layer that is a container's layer. ErrLayerUsedByContainer = errors.New("layer is in use by a container") // ErrImageUsedByContainer is returned when the caller attempts to delete an image that is a container's image. ErrImageUsedByContainer = errors.New("image is in use by a container") // ErrIncompleteOptions is returned when the caller attempts to initialize a Store without providing required information. ErrIncompleteOptions = errors.New("missing necessary StoreOptions") // ErrSizeUnknown is returned when the caller asks for the size of a big data item, but the Store couldn't determine the answer. ErrSizeUnknown = errors.New("size is not known") // ErrStoreIsReadOnly is returned when the caller makes a call to a read-only store that would require modifying its contents. ErrStoreIsReadOnly = errors.New("called a write method on a read-only store") // ErrDuplicateImageNames indicates that the read-only store uses the same name for multiple images. ErrDuplicateImageNames = errors.New("read-only image store assigns the same name to multiple images") // ErrDuplicateLayerNames indicates that the read-only store uses the same name for multiple layers. ErrDuplicateLayerNames = errors.New("read-only layer store assigns the same name to multiple layers") // ErrInvalidBigDataName indicates that the name for a big data item is not acceptable; it may be empty. ErrInvalidBigDataName = errors.New("not a valid name for a big data item") // ErrDigestUnknown indicates that we were unable to compute the digest of a specified item. ErrDigestUnknown = errors.New("could not compute digest of item") // ErrLayerNotMounted is returned when the requested information can only be computed for a mounted layer, and the layer is not mounted. ErrLayerNotMounted = errors.New("layer is not mounted") )
Functions ¶
func DefaultConfigFile ¶ added in v1.12.0
DefaultConfigFile returns the path to the storage config file used
func GetDefaultMountOptions ¶ added in v1.12.0
GetDefaultMountOptions returns the default mountoptions defined in container/storage
func GetMountOptions ¶ added in v1.12.10
GetMountOptions returns the mountoptions for the specified driver and graphDriverOptions
func GetRootlessRuntimeDir ¶ added in v1.12.0
GetRootlessRuntimeDir returns the runtime directory when running as non root
func ReloadConfigurationFile ¶
func ReloadConfigurationFile(configFile string, storeOptions *StoreOptions)
ReloadConfigurationFile parses the specified configuration file and overrides the configuration in storeOptions.
Types ¶
type Container ¶
type Container struct { // ID is either one which was specified at create-time, or a random // value which was generated by the library. ID string `json:"id"` // Names is an optional set of user-defined convenience values. The // container can be referred to by its ID or any of its names. Names // are unique among containers. Names []string `json:"names,omitempty"` // ImageID is the ID of the image which was used to create the container. ImageID string `json:"image"` // LayerID is the ID of the read-write layer for the container itself. // It is assumed that the image's top layer is the parent of the container's // read-write layer. LayerID string `json:"layer"` // Metadata is data we keep for the convenience of the caller. It is not // expected to be large, since it is kept in memory. Metadata string `json:"metadata,omitempty"` // BigDataNames is a list of names of data items that we keep for the // convenience of the caller. They can be large, and are only in // memory when being read from or written to disk. BigDataNames []string `json:"big-data-names,omitempty"` // BigDataSizes maps the names in BigDataNames to the sizes of the data // that has been stored, if they're known. BigDataSizes map[string]int64 `json:"big-data-sizes,omitempty"` // BigDataDigests maps the names in BigDataNames to the digests of the // data that has been stored, if they're known. BigDataDigests map[string]digest.Digest `json:"big-data-digests,omitempty"` // Created is the datestamp for when this container was created. Older // versions of the library did not track this information, so callers // will likely want to use the IsZero() method to verify that a value // is set before using it. Created time.Time `json:"created,omitempty"` // UIDMap and GIDMap are used for setting up a container's root // filesystem for use inside of a user namespace where UID mapping is // being used. UIDMap []idtools.IDMap `json:"uidmap,omitempty"` GIDMap []idtools.IDMap `json:"gidmap,omitempty"` Flags map[string]interface{} `json:"flags,omitempty"` }
A Container is a reference to a read-write layer with metadata.
func (*Container) MarshalJSON ¶
MarshalJSON marshal bytes to json - template
func (*Container) MarshalJSONBuf ¶
func (j *Container) MarshalJSONBuf(buf fflib.EncodingBuffer) error
MarshalJSONBuf marshal buff to json - template
func (*Container) MountLabel ¶
func (*Container) ProcessLabel ¶
func (*Container) UnmarshalJSON ¶
UnmarshalJSON umarshall json - template of ffjson
func (*Container) UnmarshalJSONFFLexer ¶
UnmarshalJSONFFLexer fast json unmarshall - template ffjson
type ContainerBigDataStore ¶ added in v1.12.0
type ContainerBigDataStore interface { ROBigDataStore // SetBigData stores a (potentially large) piece of data associated // with this ID. SetBigData(id, key string, data []byte) error }
A ContainerBigDataStore wraps up how we store big-data associated with containers.
type ContainerOptions ¶
type ContainerOptions struct { // IDMappingOptions specifies the type of ID mapping which should be // used for this container's layer. If nothing is specified, the // container's layer will inherit settings from the image's top layer // or, if it is not being created based on an image, the Store object. IDMappingOptions LabelOpts []string Flags map[string]interface{} MountOpts []string }
ContainerOptions is used for passing options to a Store's CreateContainer() method.
type ContainerStore ¶
type ContainerStore interface { FileBasedStore MetadataStore ContainerBigDataStore FlaggableStore // Create creates a container that has a specified ID (or generates a // random one if an empty value is supplied) and optional names, // based on the specified image, using the specified layer as its // read-write layer. // The maps in the container's options structure are recorded for the // convenience of the caller, nothing more. Create(id string, names []string, image, layer, metadata string, options *ContainerOptions) (*Container, error) // SetNames updates the list of names associated with the container // with the specified ID. SetNames(id string, names []string) error // Get retrieves information about a container given an ID or name. Get(id string) (*Container, error) // Exists checks if there is a container with the given ID or name. Exists(id string) bool // Delete removes the record of the container. Delete(id string) error // Wipe removes records of all containers. Wipe() error // Lookup attempts to translate a name to an ID. Most methods do this // implicitly. Lookup(name string) (string, error) // Containers returns a slice enumerating the known containers. Containers() ([]Container, error) }
ContainerStore provides bookkeeping for information about Containers.
type DiffOptions ¶
type DiffOptions struct { // Compression, if set overrides the default compressor when generating a diff. Compression *archive.Compression }
DiffOptions override the default behavior of Diff() methods.
func (*DiffOptions) MarshalJSON ¶
func (j *DiffOptions) MarshalJSON() ([]byte, error)
MarshalJSON marshal bytes to json - template
func (*DiffOptions) MarshalJSONBuf ¶
func (j *DiffOptions) MarshalJSONBuf(buf fflib.EncodingBuffer) error
MarshalJSONBuf marshal buff to json - template
func (*DiffOptions) UnmarshalJSON ¶
func (j *DiffOptions) UnmarshalJSON(input []byte) error
UnmarshalJSON umarshall json - template of ffjson
func (*DiffOptions) UnmarshalJSONFFLexer ¶
func (j *DiffOptions) UnmarshalJSONFFLexer(fs *fflib.FFLexer, state fflib.FFParseState) error
UnmarshalJSONFFLexer fast json unmarshall - template ffjson
type FileBasedStore ¶
type FileBasedStore interface { ROFileBasedStore RWFileBasedStore }
FileBasedStore wraps up the common methods of various types of file-based data stores that we implement.
type FlaggableStore ¶
type FlaggableStore interface { // ClearFlag removes a named flag from an item in the store. ClearFlag(id string, flag string) error // SetFlag sets a named flag and its value on an item in the store. SetFlag(id string, flag string, value interface{}) error }
A FlaggableStore can have flags set and cleared on items which it manages.
type IDMappingOptions ¶
type IDMappingOptions struct { // UIDMap and GIDMap are used for setting up a layer's root filesystem // for use inside of a user namespace where ID mapping is being used. // If HostUIDMapping/HostGIDMapping is true, no mapping of the // respective type will be used. Otherwise, if UIDMap and/or GIDMap // contain at least one mapping, one or both will be used. By default, // if neither of those conditions apply, if the layer has a parent // layer, the parent layer's mapping will be used, and if it does not // have a parent layer, the mapping which was passed to the Store // object when it was initialized will be used. HostUIDMapping bool HostGIDMapping bool UIDMap []idtools.IDMap GIDMap []idtools.IDMap }
IDMappingOptions are used for specifying how ID mapping should be set up for a layer or container.
func ParseIDMapping ¶ added in v1.12.0
func ParseIDMapping(UIDMapSlice, GIDMapSlice []string, subUIDMap, subGIDMap string) (*IDMappingOptions, error)
ParseIDMapping takes idmappings and subuid and subgid maps and returns a storage mapping
type Image ¶
type Image struct { // ID is either one which was specified at create-time, or a random // value which was generated by the library. ID string `json:"id"` // Digest is a digest value that we can use to locate the image, if one // was specified at creation-time. Digest digest.Digest `json:"digest,omitempty"` // Digests is a list of digest values of the image's manifests, and // possibly a manually-specified value, that we can use to locate the // image. If Digest is set, its value is also in this list. Digests []digest.Digest `json:"-"` // Names is an optional set of user-defined convenience values. The // image can be referred to by its ID or any of its names. Names are // unique among images, and are often the text representation of tagged // or canonical references. Names []string `json:"names,omitempty"` // TopLayer is the ID of the topmost layer of the image itself, if the // image contains one or more layers. Multiple images can refer to the // same top layer. TopLayer string `json:"layer,omitempty"` // MappedTopLayers are the IDs of alternate versions of the top layer // which have the same contents and parent, and which differ from // TopLayer only in which ID mappings they use. When the image is // to be removed, they should be removed before the TopLayer, as the // graph driver may depend on that. MappedTopLayers []string `json:"mapped-layers,omitempty"` // Metadata is data we keep for the convenience of the caller. It is not // expected to be large, since it is kept in memory. Metadata string `json:"metadata,omitempty"` // BigDataNames is a list of names of data items that we keep for the // convenience of the caller. They can be large, and are only in // memory when being read from or written to disk. BigDataNames []string `json:"big-data-names,omitempty"` // BigDataSizes maps the names in BigDataNames to the sizes of the data // that has been stored, if they're known. BigDataSizes map[string]int64 `json:"big-data-sizes,omitempty"` // BigDataDigests maps the names in BigDataNames to the digests of the // data that has been stored, if they're known. BigDataDigests map[string]digest.Digest `json:"big-data-digests,omitempty"` // Created is the datestamp for when this image was created. Older // versions of the library did not track this information, so callers // will likely want to use the IsZero() method to verify that a value // is set before using it. Created time.Time `json:"created,omitempty"` // ReadOnly is true if this image resides in a read-only layer store. ReadOnly bool `json:"-"` Flags map[string]interface{} `json:"flags,omitempty"` }
An Image is a reference to a layer and an associated metadata string.
func (*Image) MarshalJSON ¶
MarshalJSON marshal bytes to json - template
func (*Image) MarshalJSONBuf ¶
func (j *Image) MarshalJSONBuf(buf fflib.EncodingBuffer) error
MarshalJSONBuf marshal buff to json - template
func (*Image) UnmarshalJSON ¶
UnmarshalJSON umarshall json - template of ffjson
func (*Image) UnmarshalJSONFFLexer ¶
UnmarshalJSONFFLexer fast json unmarshall - template ffjson
type ImageOptions ¶
type ImageOptions struct { // CreationDate, if not zero, will override the default behavior of marking the image as having been // created when CreateImage() was called, recording CreationDate instead. CreationDate time.Time // Digest is a hard-coded digest value that we can use to look up the image. It is optional. Digest digest.Digest }
ImageOptions is used for passing options to a Store's CreateImage() method.
type ImageStore ¶
type ImageStore interface { ROImageStore RWFileBasedStore RWMetadataStore RWImageBigDataStore FlaggableStore // Create creates an image that has a specified ID (or a random one) and // optional names, using the specified layer as its topmost (hopefully // read-only) layer. That layer can be referenced by multiple images. Create(id string, names []string, layer, metadata string, created time.Time, searchableDigest digest.Digest) (*Image, error) // SetNames replaces the list of names associated with an image with the // supplied values. The values are expected to be valid normalized // named image references. SetNames(id string, names []string) error // Delete removes the record of the image. Delete(id string) error // Wipe removes records of all images. Wipe() error }
ImageStore provides bookkeeping for information about Images.
type Layer ¶
type Layer struct { // ID is either one which was specified at create-time, or a random // value which was generated by the library. ID string `json:"id"` // Names is an optional set of user-defined convenience values. The // layer can be referred to by its ID or any of its names. Names are // unique among layers. Names []string `json:"names,omitempty"` // Parent is the ID of a layer from which this layer inherits data. Parent string `json:"parent,omitempty"` // Metadata is data we keep for the convenience of the caller. It is not // expected to be large, since it is kept in memory. Metadata string `json:"metadata,omitempty"` // MountLabel is an SELinux label which should be used when attempting to mount // the layer. MountLabel string `json:"mountlabel,omitempty"` // MountPoint is the path where the layer is mounted, or where it was most // recently mounted. This can change between subsequent Unmount() and // Mount() calls, so the caller should consult this value after Mount() // succeeds to find the location of the container's root filesystem. MountPoint string `json:"-"` // MountCount is used as a reference count for the container's layer being // mounted at the mount point. MountCount int `json:"-"` // Created is the datestamp for when this layer was created. Older // versions of the library did not track this information, so callers // will likely want to use the IsZero() method to verify that a value // is set before using it. Created time.Time `json:"created,omitempty"` // CompressedDigest is the digest of the blob that was last passed to // ApplyDiff() or Put(), as it was presented to us. CompressedDigest digest.Digest `json:"compressed-diff-digest,omitempty"` // CompressedSize is the length of the blob that was last passed to // ApplyDiff() or Put(), as it was presented to us. If // CompressedDigest is not set, this should be treated as if it were an // uninitialized value. CompressedSize int64 `json:"compressed-size,omitempty"` // UncompressedDigest is the digest of the blob that was last passed to // ApplyDiff() or Put(), after we decompressed it. Often referred to // as a DiffID. UncompressedDigest digest.Digest `json:"diff-digest,omitempty"` // UncompressedSize is the length of the blob that was last passed to // ApplyDiff() or Put(), after we decompressed it. If // UncompressedDigest is not set, this should be treated as if it were // an uninitialized value. UncompressedSize int64 `json:"diff-size,omitempty"` // CompressionType is the type of compression which we detected on the blob // that was last passed to ApplyDiff() or Put(). CompressionType archive.Compression `json:"compression,omitempty"` // Flags is arbitrary data about the layer. Flags map[string]interface{} `json:"flags,omitempty"` // UIDMap and GIDMap are used for setting up a layer's contents // for use inside of a user namespace where UID mapping is being used. UIDMap []idtools.IDMap `json:"uidmap,omitempty"` GIDMap []idtools.IDMap `json:"gidmap,omitempty"` // ReadOnly is true if this layer resides in a read-only layer store. ReadOnly bool `json:"-"` }
A Layer is a record of a copy-on-write layer that's stored by the lower level graph driver.
func (*Layer) MarshalJSON ¶
MarshalJSON marshal bytes to json - template
func (*Layer) MarshalJSONBuf ¶
func (j *Layer) MarshalJSONBuf(buf fflib.EncodingBuffer) error
MarshalJSONBuf marshal buff to json - template
func (*Layer) UnmarshalJSON ¶
UnmarshalJSON umarshall json - template of ffjson
func (*Layer) UnmarshalJSONFFLexer ¶
UnmarshalJSONFFLexer fast json unmarshall - template ffjson
type LayerOptions ¶
type LayerOptions struct { // IDMappingOptions specifies the type of ID mapping which should be // used for this layer. If nothing is specified, the layer will // inherit settings from its parent layer or, if it has no parent // layer, the Store object. IDMappingOptions // TemplateLayer is the ID of a layer whose contents will be used to // initialize this layer. If set, it should be a child of the layer // which we want to use as the parent of the new layer. TemplateLayer string }
LayerOptions is used for passing options to a Store's CreateLayer() and PutLayer() methods.
type LayerStore ¶
type LayerStore interface { ROLayerStore RWFileBasedStore RWMetadataStore FlaggableStore // Create creates a new layer, optionally giving it a specified ID rather than // a randomly-generated one, either inheriting data from another specified // layer or the empty base layer. The new layer can optionally be given names // and have an SELinux label specified for use when mounting it. Some // underlying drivers can accept a "size" option. At this time, most // underlying drivers do not themselves distinguish between writeable // and read-only layers. Create(id string, parent *Layer, names []string, mountLabel string, options map[string]string, moreOptions *LayerOptions, writeable bool) (*Layer, error) // CreateWithFlags combines the functions of Create and SetFlag. CreateWithFlags(id string, parent *Layer, names []string, mountLabel string, options map[string]string, moreOptions *LayerOptions, writeable bool, flags map[string]interface{}) (layer *Layer, err error) // Put combines the functions of CreateWithFlags and ApplyDiff. Put(id string, parent *Layer, names []string, mountLabel string, options map[string]string, moreOptions *LayerOptions, writeable bool, flags map[string]interface{}, diff io.Reader) (*Layer, int64, error) // SetNames replaces the list of names associated with a layer with the // supplied values. SetNames(id string, names []string) error // Delete deletes a layer with the specified name or ID. Delete(id string) error // Wipe deletes all layers. Wipe() error // Mount mounts a layer for use. If the specified layer is the parent of other // layers, it should not be written to. An SELinux label to be applied to the // mount can be specified to override the one configured for the layer. // The mappings used by the container can be specified. Mount(id string, options drivers.MountOpts) (string, error) // Unmount unmounts a layer when it is no longer in use. Unmount(id string, force bool) (bool, error) // Mounted returns number of times the layer has been mounted. Mounted(id string) (int, error) // ParentOwners returns the UIDs and GIDs of parents of the layer's mountpoint // for which the layer's UID and GID maps don't contain corresponding entries. ParentOwners(id string) (uids, gids []int, err error) // ApplyDiff reads a tarstream which was created by a previous call to Diff and // applies its changes to a specified layer. ApplyDiff(to string, diff io.Reader) (int64, error) }
LayerStore wraps a graph driver, adding the ability to refer to layers by name, and keeping track of parent-child relationships, along with a list of all known layers.
type Locker ¶
type Locker interface { // Acquire a writer lock. Lock() // Acquire a writer lock recursively, allowing for recursive acquisitions // within the same process space. RecursiveLock() // Unlock the lock. Unlock() // Acquire a reader lock. RLock() // Touch records, for others sharing the lock, that the caller was the // last writer. It should only be called with the lock held. Touch() error // Modified() checks if the most recent writer was a party other than the // last recorded writer. It should only be called with the lock held. Modified() (bool, error) // TouchedSince() checks if the most recent writer modified the file (likely using Touch()) after the specified time. TouchedSince(when time.Time) bool // IsReadWrite() checks if the lock file is read-write IsReadWrite() bool // Locked() checks if lock is locked for writing by a thread in this process Locked() bool }
A Locker represents a file lock where the file is used to cache an identifier of the last party that made changes to whatever's being protected by the lock.
func GetLockfile ¶
GetLockfile opens a read-write lock file, creating it if necessary. The Locker object may already be locked if the path has already been requested by the current process.
func GetROLockfile ¶
GetROLockfile opens a read-only lock file, creating it if necessary. The Locker object may already be locked if the path has already been requested by the current process.
type MetadataStore ¶
type MetadataStore interface { ROMetadataStore RWMetadataStore }
MetadataStore wraps up methods for getting and setting metadata associated with IDs.
type ROBigDataStore ¶
type ROBigDataStore interface { // BigData retrieves a (potentially large) piece of data associated with // this ID, if it has previously been set. BigData(id, key string) ([]byte, error) // BigDataSize retrieves the size of a (potentially large) piece of // data associated with this ID, if it has previously been set. BigDataSize(id, key string) (int64, error) // BigDataDigest retrieves the digest of a (potentially large) piece of // data associated with this ID, if it has previously been set. BigDataDigest(id, key string) (digest.Digest, error) // BigDataNames() returns a list of the names of previously-stored pieces of // data. BigDataNames(id string) ([]string, error) }
An ROBigDataStore wraps up the read-only big-data related methods of the various types of file-based lookaside stores that we implement.
type ROFileBasedStore ¶
type ROFileBasedStore interface { Locker // Load reloads the contents of the store from disk. It should be called // with the lock held. Load() error }
ROFileBasedStore wraps up the methods of the various types of file-based data stores that we implement which are needed for both read-only and read-write files.
type ROImageStore ¶
type ROImageStore interface { ROFileBasedStore ROMetadataStore ROBigDataStore // Exists checks if there is an image with the given ID or name. Exists(id string) bool // Get retrieves information about an image given an ID or name. Get(id string) (*Image, error) // Lookup attempts to translate a name to an ID. Most methods do this // implicitly. Lookup(name string) (string, error) // Images returns a slice enumerating the known images. Images() ([]Image, error) // ByDigest returns a slice enumerating the images which have either an // explicitly-set digest, or a big data item with a name that starts // with ImageDigestManifestBigDataNamePrefix, which matches the // specified digest. ByDigest(d digest.Digest) ([]*Image, error) }
ROImageStore provides bookkeeping for information about Images.
type ROLayerStore ¶
type ROLayerStore interface { ROFileBasedStore ROMetadataStore // Exists checks if a layer with the specified name or ID is known. Exists(id string) bool // Get retrieves information about a layer given an ID or name. Get(id string) (*Layer, error) // Status returns an slice of key-value pairs, suitable for human consumption, // relaying whatever status information the underlying driver can share. Status() ([][2]string, error) // Changes returns a slice of Change structures, which contain a pathname // (Path) and a description of what sort of change (Kind) was made by the // layer (either ChangeModify, ChangeAdd, or ChangeDelete), relative to a // specified layer. By default, the layer's parent is used as a reference. Changes(from, to string) ([]archive.Change, error) // Diff produces a tarstream which can be applied to a layer with the contents // of the first layer to produce a layer with the contents of the second layer. // By default, the parent of the second layer is used as the first // layer, so it need not be specified. Options can be used to override // default behavior, but are also not required. Diff(from, to string, options *DiffOptions) (io.ReadCloser, error) // DiffSize produces an estimate of the length of the tarstream which would be // produced by Diff. DiffSize(from, to string) (int64, error) // Size produces a cached value for the uncompressed size of the layer, // if one is known, or -1 if it is not known. If the layer can not be // found, it returns an error. Size(name string) (int64, error) // Lookup attempts to translate a name to an ID. Most methods do this // implicitly. Lookup(name string) (string, error) // LayersByCompressedDigest returns a slice of the layers with the // specified compressed digest value recorded for them. LayersByCompressedDigest(d digest.Digest) ([]Layer, error) // LayersByUncompressedDigest returns a slice of the layers with the // specified uncompressed digest value recorded for them. LayersByUncompressedDigest(d digest.Digest) ([]Layer, error) // Layers returns a slice of the known layers. Layers() ([]Layer, error) }
ROLayerStore wraps a graph driver, adding the ability to refer to layers by name, and keeping track of parent-child relationships, along with a list of all known layers.
type ROMetadataStore ¶
type ROMetadataStore interface { // Metadata reads metadata associated with an item with the specified ID. Metadata(id string) (string, error) }
ROMetadataStore wraps a method for reading metadata associated with an ID.
type RWFileBasedStore ¶
type RWFileBasedStore interface { // Save saves the contents of the store to disk. It should be called with // the lock held, and Touch() should be called afterward before releasing the // lock. Save() error }
RWFileBasedStore wraps up the methods of various types of file-based data stores that we implement using read-write files.
type RWImageBigDataStore ¶ added in v1.12.0
type RWImageBigDataStore interface { // SetBigData stores a (potentially large) piece of data associated // with this ID. // Pass github.com/containers/image/manifest.Digest as digestManifest // to allow ByDigest to find images by their correct digests. SetBigData(id, key string, data []byte, digestManifest func([]byte) (digest.Digest, error)) error }
A RWImageBigDataStore wraps up how we store big-data associated with images.
type RWMetadataStore ¶
type RWMetadataStore interface { // SetMetadata updates the metadata associated with the item with the specified ID. SetMetadata(id, metadata string) error }
RWMetadataStore wraps a method for setting metadata associated with an ID.
type Store ¶
type Store interface { // RunRoot, GraphRoot, GraphDriverName, and GraphOptions retrieve // settings that were passed to GetStore() when the object was created. RunRoot() string GraphRoot() string GraphDriverName() string GraphOptions() []string UIDMap() []idtools.IDMap GIDMap() []idtools.IDMap // GraphDriver obtains and returns a handle to the graph Driver object used // by the Store. GraphDriver() (drivers.Driver, error) // CreateLayer creates a new layer in the underlying storage driver, // optionally having the specified ID (one will be assigned if none is // specified), with the specified layer (or no layer) as its parent, // and with optional names. (The writeable flag is ignored.) CreateLayer(id, parent string, names []string, mountLabel string, writeable bool, options *LayerOptions) (*Layer, error) // PutLayer combines the functions of CreateLayer and ApplyDiff, // marking the layer for automatic removal if applying the diff fails // for any reason. // // Note that we do some of this work in a child process. The calling // process's main() function needs to import our pkg/reexec package and // should begin with something like this in order to allow us to // properly start that child process: // if reexec.Init() { // return // } PutLayer(id, parent string, names []string, mountLabel string, writeable bool, options *LayerOptions, diff io.Reader) (*Layer, int64, error) // CreateImage creates a new image, optionally with the specified ID // (one will be assigned if none is specified), with optional names, // referring to a specified image, and with optional metadata. An // image is a record which associates the ID of a layer with a // additional bookkeeping information which the library stores for the // convenience of its caller. CreateImage(id string, names []string, layer, metadata string, options *ImageOptions) (*Image, error) // CreateContainer creates a new container, optionally with the // specified ID (one will be assigned if none is specified), with // optional names, using the specified image's top layer as the basis // for the container's layer, and assigning the specified ID to that // layer (one will be created if none is specified). A container is a // layer which is associated with additional bookkeeping information // which the library stores for the convenience of its caller. CreateContainer(id string, names []string, image, layer, metadata string, options *ContainerOptions) (*Container, error) // Metadata retrieves the metadata which is associated with a layer, // image, or container (whichever the passed-in ID refers to). Metadata(id string) (string, error) // SetMetadata updates the metadata which is associated with a layer, // image, or container (whichever the passed-in ID refers to) to match // the specified value. The metadata value can be retrieved at any // time using Metadata, or using Layer, Image, or Container and reading // the object directly. SetMetadata(id, metadata string) error // Exists checks if there is a layer, image, or container which has the // passed-in ID or name. Exists(id string) bool // Status asks for a status report, in the form of key-value pairs, // from the underlying storage driver. The contents vary from driver // to driver. Status() ([][2]string, error) // Delete removes the layer, image, or container which has the // passed-in ID or name. Note that no safety checks are performed, so // this can leave images with references to layers which do not exist, // and layers with references to parents which no longer exist. Delete(id string) error // DeleteLayer attempts to remove the specified layer. If the layer is the // parent of any other layer, or is referred to by any images, it will return // an error. DeleteLayer(id string) error // DeleteImage removes the specified image if it is not referred to by // any containers. If its top layer is then no longer referred to by // any other images and is not the parent of any other layers, its top // layer will be removed. If that layer's parent is no longer referred // to by any other images and is not the parent of any other layers, // then it, too, will be removed. This procedure will be repeated // until a layer which should not be removed, or the base layer, is // reached, at which point the list of removed layers is returned. If // the commit argument is false, the image and layers are not removed, // but the list of layers which would be removed is still returned. DeleteImage(id string, commit bool) (layers []string, err error) // DeleteContainer removes the specified container and its layer. If // there is no matching container, or if the container exists but its // layer does not, an error will be returned. DeleteContainer(id string) error // Wipe removes all known layers, images, and containers. Wipe() error // Mount attempts to mount a layer, image, or container for access, and // returns the pathname if it succeeds. // Note if the mountLabel == "", the default label for the container // will be used. // // Note that we do some of this work in a child process. The calling // process's main() function needs to import our pkg/reexec package and // should begin with something like this in order to allow us to // properly start that child process: // if reexec.Init() { // return // } Mount(id, mountLabel string) (string, error) // Unmount attempts to unmount a layer, image, or container, given an ID, a // name, or a mount path. Returns whether or not the layer is still mounted. Unmount(id string, force bool) (bool, error) // Mounted returns number of times the layer has been mounted. Mounted(id string) (int, error) // Changes returns a summary of the changes which would need to be made // to one layer to make its contents the same as a second layer. If // the first layer is not specified, the second layer's parent is // assumed. Each Change structure contains a Path relative to the // layer's root directory, and a Kind which is either ChangeAdd, // ChangeModify, or ChangeDelete. Changes(from, to string) ([]archive.Change, error) // DiffSize returns a count of the size of the tarstream which would // specify the changes returned by Changes. DiffSize(from, to string) (int64, error) // Diff returns the tarstream which would specify the changes returned // by Changes. If options are passed in, they can override default // behaviors. Diff(from, to string, options *DiffOptions) (io.ReadCloser, error) // ApplyDiff applies a tarstream to a layer. Information about the // tarstream is cached with the layer. Typically, a layer which is // populated using a tarstream will be expected to not be modified in // any other way, either before or after the diff is applied. // // Note that we do some of this work in a child process. The calling // process's main() function needs to import our pkg/reexec package and // should begin with something like this in order to allow us to // properly start that child process: // if reexec.Init() { // return // } ApplyDiff(to string, diff io.Reader) (int64, error) // LayersByCompressedDigest returns a slice of the layers with the // specified compressed digest value recorded for them. LayersByCompressedDigest(d digest.Digest) ([]Layer, error) // LayersByUncompressedDigest returns a slice of the layers with the // specified uncompressed digest value recorded for them. LayersByUncompressedDigest(d digest.Digest) ([]Layer, error) // LayerSize returns a cached approximation of the layer's size, or -1 // if we don't have a value on hand. LayerSize(id string) (int64, error) // LayerParentOwners returns the UIDs and GIDs of owners of parents of // the layer's mountpoint for which the layer's UID and GID maps (if // any are defined) don't contain corresponding IDs. LayerParentOwners(id string) ([]int, []int, error) // Layers returns a list of the currently known layers. Layers() ([]Layer, error) // Images returns a list of the currently known images. Images() ([]Image, error) // Containers returns a list of the currently known containers. Containers() ([]Container, error) // Names returns the list of names for a layer, image, or container. Names(id string) ([]string, error) // SetNames changes the list of names for a layer, image, or container. // Duplicate names are removed from the list automatically. SetNames(id string, names []string) error // ListImageBigData retrieves a list of the (possibly large) chunks of // named data associated with an image. ListImageBigData(id string) ([]string, error) // ImageBigData retrieves a (possibly large) chunk of named data // associated with an image. ImageBigData(id, key string) ([]byte, error) // ImageBigDataSize retrieves the size of a (possibly large) chunk // of named data associated with an image. ImageBigDataSize(id, key string) (int64, error) // ImageBigDataDigest retrieves the digest of a (possibly large) chunk // of named data associated with an image. ImageBigDataDigest(id, key string) (digest.Digest, error) // SetImageBigData stores a (possibly large) chunk of named data // associated with an image. Pass // github.com/containers/image/manifest.Digest as digestManifest to // allow ImagesByDigest to find images by their correct digests. SetImageBigData(id, key string, data []byte, digestManifest func([]byte) (digest.Digest, error)) error // ImageSize computes the size of the image's layers and ancillary data. ImageSize(id string) (int64, error) // ListContainerBigData retrieves a list of the (possibly large) chunks of // named data associated with a container. ListContainerBigData(id string) ([]string, error) // ContainerBigData retrieves a (possibly large) chunk of named data // associated with a container. ContainerBigData(id, key string) ([]byte, error) // ContainerBigDataSize retrieves the size of a (possibly large) // chunk of named data associated with a container. ContainerBigDataSize(id, key string) (int64, error) // ContainerBigDataDigest retrieves the digest of a (possibly large) // chunk of named data associated with a container. ContainerBigDataDigest(id, key string) (digest.Digest, error) // SetContainerBigData stores a (possibly large) chunk of named data // associated with a container. SetContainerBigData(id, key string, data []byte) error // ContainerSize computes the size of the container's layer and ancillary // data. Warning: this is a potentially expensive operation. ContainerSize(id string) (int64, error) // Layer returns a specific layer. Layer(id string) (*Layer, error) // Image returns a specific image. Image(id string) (*Image, error) // ImagesByTopLayer returns a list of images which reference the specified // layer as their top layer. They will have different IDs and names // and may have different metadata, big data items, and flags. ImagesByTopLayer(id string) ([]*Image, error) // ImagesByDigest returns a list of images which contain a big data item // named ImageDigestBigDataKey whose contents have the specified digest. ImagesByDigest(d digest.Digest) ([]*Image, error) // Container returns a specific container. Container(id string) (*Container, error) // ContainerByLayer returns a specific container based on its layer ID or // name. ContainerByLayer(id string) (*Container, error) // ContainerDirectory returns a path of a directory which the caller // can use to store data, specific to the container, which the library // does not directly manage. The directory will be deleted when the // container is deleted. ContainerDirectory(id string) (string, error) // SetContainerDirectoryFile is a convenience function which stores // a piece of data in the specified file relative to the container's // directory. SetContainerDirectoryFile(id, file string, data []byte) error // FromContainerDirectory is a convenience function which reads // the contents of the specified file relative to the container's // directory. FromContainerDirectory(id, file string) ([]byte, error) // ContainerRunDirectory returns a path of a directory which the // caller can use to store data, specific to the container, which the // library does not directly manage. The directory will be deleted // when the host system is restarted. ContainerRunDirectory(id string) (string, error) // SetContainerRunDirectoryFile is a convenience function which stores // a piece of data in the specified file relative to the container's // run directory. SetContainerRunDirectoryFile(id, file string, data []byte) error // FromContainerRunDirectory is a convenience function which reads // the contents of the specified file relative to the container's run // directory. FromContainerRunDirectory(id, file string) ([]byte, error) // ContainerParentOwners returns the UIDs and GIDs of owners of parents // of the container's layer's mountpoint for which the layer's UID and // GID maps (if any are defined) don't contain corresponding IDs. ContainerParentOwners(id string) ([]int, []int, error) // Lookup returns the ID of a layer, image, or container with the specified // name or ID. Lookup(name string) (string, error) // Shutdown attempts to free any kernel resources which are being used // by the underlying driver. If "force" is true, any mounted (i.e., in // use) layers are unmounted beforehand. If "force" is not true, then // layers being in use is considered to be an error condition. A list // of still-mounted layers is returned along with possible errors. Shutdown(force bool) (layers []string, err error) // Version returns version information, in the form of key-value pairs, from // the storage package. Version() ([][2]string, error) // GetDigestLock returns digest-specific Locker. GetDigestLock(digest.Digest) (Locker, error) }
Store wraps up the various types of file-based stores that we use into a singleton object that initializes and manages them all together.
func GetStore ¶
func GetStore(options StoreOptions) (Store, error)
GetStore attempts to find an already-created Store object matching the specified location and graph driver, and if it can't, it creates and initializes a new Store object, and the underlying storage that it controls.
If StoreOptions `options` haven't been fully populated, then DefaultStoreOptions are used.
These defaults observe environment variables:
- `STORAGE_DRIVER` for the name of the storage driver to attempt to use
- `STORAGE_OPTS` for the string of options to pass to the driver
Note that we do some of this work in a child process. The calling process's main() function needs to import our pkg/reexec package and should begin with something like this in order to allow us to properly start that child process:
if reexec.Init() { return }
type StoreOptions ¶
type StoreOptions struct { // RunRoot is the filesystem path under which we can store run-time // information, such as the locations of active mount points, that we // want to lose if the host is rebooted. RunRoot string `json:"runroot,omitempty"` // GraphRoot is the filesystem path under which we will store the // contents of layers, images, and containers. GraphRoot string `json:"root,omitempty"` // GraphDriverName is the underlying storage driver that we'll be // using. It only needs to be specified the first time a Store is // initialized for a given RunRoot and GraphRoot. GraphDriverName string `json:"driver,omitempty"` // GraphDriverOptions are driver-specific options. GraphDriverOptions []string `json:"driver-options,omitempty"` // UIDMap and GIDMap are used for setting up a container's root filesystem // for use inside of a user namespace where UID mapping is being used. UIDMap []idtools.IDMap `json:"uidmap,omitempty"` GIDMap []idtools.IDMap `json:"gidmap,omitempty"` }
StoreOptions is used for passing initialization options to GetStore(), for initializing a Store object and the underlying storage that it controls.
func DefaultStoreOptions ¶
func DefaultStoreOptions(rootless bool, rootlessUid int) (StoreOptions, error)
DefaultStoreOptions returns the default storage ops for containers
func DefaultStoreOptionsAutoDetectUID ¶ added in v1.12.2
func DefaultStoreOptionsAutoDetectUID() (StoreOptions, error)
DefaultStoreOptionsAutoDetectUID returns the default storage ops for containers
Source Files ¶
Directories ¶
Path | Synopsis |
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cmd
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pkg
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locker
Package locker provides a mechanism for creating finer-grained locking to help free up more global locks to handle other tasks.
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Package locker provides a mechanism for creating finer-grained locking to help free up more global locks to handle other tasks. |
parsers
Package parsers provides helper functions to parse and validate different type of string.
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Package parsers provides helper functions to parse and validate different type of string. |
parsers/kernel
Package kernel provides helper function to get, parse and compare kernel versions for different platforms.
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Package kernel provides helper function to get, parse and compare kernel versions for different platforms. |
parsers/operatingsystem
Package operatingsystem provides helper function to get the operating system name for different platforms.
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Package operatingsystem provides helper function to get the operating system name for different platforms. |
pools
Package pools provides a collection of pools which provide various data types with buffers.
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Package pools provides a collection of pools which provide various data types with buffers. |
stringid
Package stringid provides helper functions for dealing with string identifiers
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Package stringid provides helper functions for dealing with string identifiers |
stringutils
Package stringutils provides helper functions for dealing with strings.
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Package stringutils provides helper functions for dealing with strings. |
truncindex
Package truncindex provides a general 'index tree', used by Docker in order to be able to reference containers by only a few unambiguous characters of their id.
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Package truncindex provides a general 'index tree', used by Docker in order to be able to reference containers by only a few unambiguous characters of their id. |