stop installing manager header

Stop installing the manager header as it is no longer meant to be
exported, but rather used only internally within this repository.

Change-Id: I2ab21a31fd745e1b3e36fc39ffea5e26d373ff51
Signed-off-by: Patrick Venture <venture@google.com>
36 files changed
tree: 43556d70c8144dcb42b33655a65297f02295d257
  1. blobs-ipmid/
  2. example/
  3. internal/
  4. test/
  5. .clang-format
  6. .gitignore
  7. bootstrap.sh
  8. configure.ac
  9. crc.cpp
  10. crc.hpp
  11. fs.cpp
  12. fs.hpp
  13. ipmi.cpp
  14. ipmi.hpp
  15. LICENSE
  16. main.cpp
  17. MAINTAINERS
  18. Makefile.am
  19. manager.cpp
  20. manager.hpp
  21. process.cpp
  22. process.hpp
  23. README.md
  24. utils.cpp
  25. utils.hpp
README.md

Phosphor Blob Transfer Interface

This document describes the commands implementing a generic blob transfer interface. This document does not specify how blobs are stored; that is left up to blob-specific implementations. Introduction This mechanism supports reading and writing from a generic blob store. This mechanism can be leveraged to support firmware upgrades,

The interface defined in this document supports:

  • Enumerating blobs
  • Opening a blob for reading or writing
  • Writing blob content
  • Committing a blob
  • Polling until the blob has been committed
  • Closing a blob
  • Reading blob content
  • Deleting a blob

Some blobs will only support a subset of these operations. For example, firmware cannot generally be read, as the firmware file is not persisted on the BMC after it has been activated.

This specification supports IPMI as a transport layer. This can be quite slow, however; IPMI transport speeds range from 23 kbps to 256 kbps. LPC/P2A ("PCI to Aspeed") MMIO bridges are currently unsupported. Blob Identifiers Blobs are identified by NULL-terminated C strings. This protocol supports implementation-specific blob identifiers; some blobs may have single well-known names, while others may be defined only by a prefix, with the client specifying the rest of the blob name. For example, "/g/bmc_firmware" may represent a single well-known blob that supports BMC firmware updates, whereas "/g/skm/[N]" may represent an arbitrary number of SKM keys, with the index specified on the host when opening the blob.

Blob identifiers are limited based on the maximum size of the IPMI packet. This maximum size is platform-dependent; theoretically a packet could be up to 256 bytes, but some hardware only supports packets up to 64 bytes.

If an identifier is malformed, e.g. does not have a trailing NUL-byte or is otherwise unrecognizable by the BMC, an error is returned.

Commands

The following details each subcommand in the blob spec. In the following, any reference to the command body starts after the 3 bytes of OEM header, the 1-byte subcommand code, and (in the cases where the command body is non-empty) a two-byte CRC over all data that follows in the body.

All non-empty responses should lead with a two-byte CRC. The CRC algorithm is CRC-16-CCITT (poly 0x1021).

All multi-byte values are encoded as little-endian. All structs are assumed packed. Success codes are returned via the "completion code" field from the IPMI spec.

BmcBlobGetCount (0)

The BmcBlobGetCount command expects to receive an empty body. The BMC will return the number of enumerable blobs:

struct BmcBlobCountRx {
    uint16_t crc16;
    uint32_t blob_count;
};

BmcBlobEnumerate (1)

The BmcBlobEnumerate command expects to receive a body of:

struct BmcBlobEnumerateTx {
    uint16_t crc16;
    uint32_t blob_idx; /* 0-based index of blob to retrieve. */
};

The BMC will return the corresponding blob identifier:

struct BmcBlobEnumerateRx {
    uint16_t crc16;
    char     blob_id[];
};

Note that the index for a given blob ID is not expected to be stable across a long term. Callers are expected to call BmcBlobGetCount, followed by N calls to BmcBlobEnumerate, to collect all blob IDs. Callers can then call BmcBlobStat with each blob ID. If this process is interleaved with Open or Delete calls that modify the number of enumerable blobs, this operation will be subject to concurrent modification issues.

BmcBlobOpen (2)

The BmcBlobOpen command expects to receive a body of:

struct BmcBlobOpenTx {
    uint16_t crc16;
    uint16_t flags;
    char     blob_id[]; /* Must correspond to a valid blob. */
};

The flags field allows the caller to specify whether the blob is being opened for reading or writing:

enum BmcBlobOpenFlagBits {
    READ = 0,
    WRITE = 1,
    <bits 2-7 reserved>
    <bits 8-15 given blob-specific definitions>
};

If the WRITE flag is specified, the BMC will mark the specified blob as "open for writing". Optional blob-specific behavior: if the blob has been open for more than one minute without any activity, the existing session will be torn down and the open will succeed. Alternatively, blobs may allow multiple write sessions to be active at once.

The BMC allocates a unique session identifier, and internally maps it to the blob identifier.

struct BmcBlobOpenRx {
    uint16_t crc16;
    uint16_t session_id;
};

BmcBlobRead (3)

The BmcBlobRead command is used to read blob data. It expects to receive a body of:

struct BmcBlobReadTx {
    uint16_t crc16;
    uint16_t session_id; /* Returned from BmcBlobOpen. */
    uint32_t offset; /* The byte sequence start, 0-based. */
    uint32_t requested_size; /* The number of bytes requested for reading. */
};

Blob handlers may require the blob’s "state" to equal OPEN_R before reading is successful.

struct BmcBlobReadRx {
    uint16_t crc16;
    uint8_t  data[];
};

Immediately following this structure are the bytes being read. The number of bytes transferred is the size of the response body less the OEN ("OEM number") (3 bytes), sub-command (1 byte), and the structure size (4 bytes). If no bytes are transferred, the CRC is still sent.

If the BMC cannot return the number of requested bytes, it simply returns the number of bytes available for reading. If the host tries to read at an invalid offset or if the host tries to read at the end of the blob, an empty successful response is returned; e.g., data is empty.

BmcBlobWrite (4)

The BmcBlobWrite command expects to receive a body of:

struct BmcBlobWriteTx {
    uint16_t crc16;
    uint16_t session_id; /* Returned from BmcBlobOpen. */
    uint32_t offset; /* The byte sequence start, 0-based. */
    uint8_t  data[];
};

Immediately following this structure are the bytes to write. The length of the entire packet is variable and handled at a higher level, therefore the number of bytes to write is the size of the command body less the OEN and sub-command (4 bytes) and less the structure size (10 bytes). It is assumed that all writes are sequential, and begin at offset zero.

On success it will return a success completion code.

BmcBlobCommit (5)

The BmcBlobCommit command expects to receive a body of:

struct BmcBlobCommitTx {
    uint16_t crc16;
    uint16_t session_id; /* Returned from BmcBlobOpen. */
    uint8_t  commit_data_len;
    uint8_t  commit_data[]; /* Optional blob-specific commit data. */
};

Each blob defines its own commit behavior. A BMC firmware blob may be verified and saved to the filesystem. Commit operations may require additional data, which would be provided following the structure in the IPMI packet.

The commit operation may exceed the IPMI timeout duration of ~5 seconds (implementation dependant). Callers are expected to poll on BmcBlobSessionStat or BmcBlobStat (as appropriate) until committing has finished. To address race conditions, blobs should not allow concurrent sessions that modify state.

On success, the BMC returns success completion code.

BmcBlobClose (6)

The BmcBlobClose command must be called after commit-polling has finished, regardless of the result. It expects to receive a body of:

struct BmcBlobCloseTx {
    uint16_t crc16;
    uint16_t session_id; /* Returned from BmcBlobOpen. */
};

The BMC marks the specified blob as closed. On success, the BMC returns a success completion code.

BmcBlobDelete (7)

The BmcBlobDelete command is used to delete a blob. Not all blobs will support deletion. This command expects to receive a body of:

struct BmcBlobDeleteTx {
    uint16_t crc16;
    char     blob_id[]; /* Must correspond to a valid blob. */
};

If the operation is supported, the blob is deleted. On success, the BMC returns a success completion code. This command will fail if there are open sessions for the blob.

BmcBlobStat (8)

The BmcBlobStat command is used to retrieve statistics about a blob. Not all blobs must support this command; this is only useful when blob_id semantics are more useful than session IDs. This command expects to receive a body of:

struct BmcBlobStatTx {
    uint16_t crc16;
    char     blob_id[]; /* Must correspond to a valid blob. */
};

The BMC returns the following data:

struct BmcBlobStatRx {
    uint16_t crc16;
    uint16_t blob_state;
    uint32_t size; /* Size in bytes of the blob. */
    uint8_t  metadata_len;
    uint8_t  metadata[]; /* Optional blob-specific metadata. */
};

The blob_state field is a bit field with the following flags:

enum BmcBlobStateFlagBits {
    OPEN_R = 0,
    OPEN_W = 1,
    COMMITTING = 2,
    COMMITTED = 3,
    COMMIT_ERROR = 4,
    <bits 5-7 reserved>
    <bits 8-15 given blob-specific definitions>
};

If the state is COMMITTING, the blob is not currently available for reading or writing. If the state is COMMITTED, the blob may be available for reading.

The size field may be zero if the blob does not support reading.

Immediately following this structure are optional blob-specific bytes. The number of bytes transferred is the size of the response body less the OEN and sub-command and less the structure size. The metadata must fit in a single IPMI packet, which has a platform-dependent maximum size. (For reference, Aspeed supports 64 bytes max.)

If the blob is open or committed but has been inactive for longer than the specified activity timeout, the blob is closed, and blob_status is set to CLOSED in the response.

BmcBlobSessionStat (9)

The BmcBlobSessionStat command returns the same data as BmcBlobStat. However, this command operates on sessions, rather than blob IDs. Not all blobs must support this command; this is only useful when session semantics are more useful than raw blob IDs.

struct BmcBlobSessionStatTx {
    uint16_t crc16;
    uint16_t session_id; /* Returned from BmcBlobOpen. */
};
struct BmcBlobSessionStatRx {
    uint16_t crc16;
    uint16_t blob_state;
    uint32_t size; /* Size in bytes of the blob. */
    uint8_t  metadata_size;
    uint8_t  metadata[]; /* Optional blob-specific metadata. */
};

BmcBlobWriteMeta (10)

The BmcBlobWriteMeta command behaves like BmcBlobWrite. Its purpose is blob-specific, and not all blobs must support it.

The BmcBlobWriteMeta command expects to receive a body of:

struct BmcBlobWriteMetaTx
{
    uint16_t crc16;
    uint16_t session_id; /* Returned from BmcBlobOpen. */
    uint32_t offset; /* The byte sequence start, 0-based. */
    uint8_t  data[];
};

Immediately following this structure are the bytes to write. The length of the entire packet is variable and handled at a higher level, therefore the number of bytes to write is the size of the command body less the OEN and sub-command (4 bytes) and less the structure size.

On success it will return a success completion code.

Idempotent Commands

The IPMI transport layer is somewhat flaky. Client code must rely on a "send-with-retries" strategy to ensure that commands make their way from the host to the BMC. Commands can fail if the BMC is busy with other commands.

It is possible that an IPMI command successfully invokes the BMC-side handler, but that the response does not successfully make its way back to the host. In this case, the host may decide to retry the command. Thus, command handlers should be idempotent where possible; duplicate calls should return the same value if repeated, while avoiding potentially destructive side-effects.

Stale Sessions

Each blob type will define an operation for cleansing stale sessions. This could involve scrubbing secrets or freeing buffers. A function will be provided that will scan over each open session, to determine which if any sessions have been open for longer than 10 minutes with no activity. For each session, the associated blob type’s cleansing routine will be invoked, and the associated session ID will be freed. This function will be invoked from the BmcBlobOpen command handler, though not more than once every minute.