bdc8503bb2
Docs[1] says posix_memalign will return non-zero value if it failed but currently it checked only if it's negative (or not) so that probably it can triggers something wrong (e.g. core dumped) if something like ENOTMEM returned. Change-Id: I0b8883ea60a904d4dc0efef94a33946a44ecfe01 1: http://pubs.opengroup.org/onlinepubs/009695399/functions/posix_memalign.html |
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| doc | ||
| include | ||
| src | ||
| test | ||
| .gitignore | ||
| .gitreview | ||
| .mailmap | ||
| AUTHORS | ||
| COPYING | ||
| ChangeLog | ||
| Makefile.am | ||
| NEWS | ||
| README | ||
| README.md | ||
| Xorcode.pc.in | ||
| autogen.sh | ||
| configure.ac | ||
| erasurecode.pc.in | ||
| erasurecode_rs_vand.pc.in | ||
| get_flags_from_cpuid.c | ||
| other-requirements.txt | ||
README.md
liberasurecode
liberasurecode is an Erasure Code API library written in C with pluggable Erasure Code backends.
Highlights
-
Unified Erasure Coding interface for common storage workloads.
-
Pluggable Erasure Code backends - As of v1.1.x, liberasurecode supports the following backends:
- 'liberasurecode_rs_vand' - Native, software-only Erasure Coding implementation that supports a Reed-Solomon backend
- 'Jerasure' - Erasure Coding library that supports Reed-Solomon, Cauchy backends [1]
- 'ISA-L' - Intel Storage Acceleration Library - SIMD accelerated Erasure Coding backends [2]
- 'SHSS' - NTT Lab Japan's hybrid Erasure Coding backend [4]
- 'Flat XOR HD' - built-in to liberasurecode, based on [3]
- 'NULL' template backend implemented to help future backend writers
-
True 'plugin' architecture - liberasurecode uses Dynamically Loaded (DL) libraries to realize a true 'plugin' architecture. This also allows one to build liberasurecode indepdendent of the Erasure Code backend libraries.
-
Cross-platform - liberasurecode is known to work on Linux (Fedora/Debian flavors), Solaris, BSD and Darwin/Mac OS X.
-
Community support - Developed alongside Erasure Code authority Kevin Greenan, liberasurecode is an actively maintained open-source project with growing community involvement (Openstack Swift, Ceph, PyECLib, NTT Labs).
License
liberasurecode is distributed under the terms of the BSD license.
Active Users
- PyECLib - Python EC library: https://pypi.python.org/pypi/PyECLib
- Openstack Swift Object Store - https://wiki.openstack.org/wiki/Swift
Build and Install
Install dependencies -
Debian/Ubuntu hosts:
$ sudo apt-get install build-essential autoconf automake libtool
Fedora/RedHat/Centos hosts:
$ sudo yum install -y gcc make autoconf automake libtool
To build the liberasurecode repository, perform the following from the top-level directory:
$ ./autogen.sh
$ ./configure
$ make
$ make test
$ sudo make install
liberasurecode API Definition
/* liberasurecode frontend API functions */
/**
* Create a liberasurecode instance and return a descriptor
* for use with EC operations (encode, decode, reconstruct)
*
* @param id - one of the supported backends as
* defined by ec_backend_id_t
* @param ec_args - arguments to the EC backend
* arguments common to all backends
* k - number of data fragments
* m - number of parity fragments
* w - word size, in bits
* hd - hamming distance (=m for Reed-Solomon)
* ct - fragment checksum type (stored with the fragment metadata)
* backend-specific arguments
* null_args - arguments for the null backend
* flat_xor_hd, jerasure do not require any special args
*
* @return liberasurecode instance descriptor (int > 0)
*/
int liberasurecode_instance_create(const ec_backend_id_t id,
struct ec_args *args);
/**
* Close a liberasurecode instance
*
* @param desc - liberasurecode descriptor to close
*
* @return 0 on success, otherwise non-zero error code
*/
int liberasurecode_instance_destroy(int desc);
/**
* Erasure encode a data buffer
*
* @param desc - liberasurecode descriptor/handle
* from liberasurecode_instance_create()
* @param orig_data - data to encode
* @param orig_data_size - length of data to encode
* @param encoded_data - pointer to _output_ array (char **) of k data
* fragments (char *), allocated by the callee
* @param encoded_parity - pointer to _output_ array (char **) of m parity
* fragments (char *), allocated by the callee
* @param fragment_len - pointer to _output_ length of each fragment, assuming
* all fragments are the same length
*
* @return 0 on success, -error code otherwise
*/
int liberasurecode_encode(int desc,
const char *orig_data, uint64_t orig_data_size, /* input */
char ***encoded_data, char ***encoded_parity, /* output */
uint64_t *fragment_len); /* output */
/**
* Cleanup structures allocated by librasurecode_encode
*
* The caller has no context, so cannot safely free memory
* allocated by liberasurecode, so it must pass the
* deallocation responsibility back to liberasurecode.
*
* @param desc - liberasurecode descriptor/handle
* from liberasurecode_instance_create()
* @param encoded_data - (char **) array of k data
* fragments (char *), allocated by liberasurecode_encode
* @param encoded_parity - (char **) array of m parity
* fragments (char *), allocated by liberasurecode_encode
*
* @return 0 in success; -error otherwise
*/
int liberasurecode_encode_cleanup(int desc, char **encoded_data,
char **encoded_parity);
/**
* Reconstruct original data from a set of k encoded fragments
*
* @param desc - liberasurecode descriptor/handle
* from liberasurecode_instance_create()
* @param fragments - erasure encoded fragments (> = k)
* @param num_fragments - number of fragments being passed in
* @param fragment_len - length of each fragment (assume they are the same)
* @param force_metadata_checks - force fragment metadata checks (default: 0)
* @param out_data - _output_ pointer to decoded data
* @param out_data_len - _output_ length of decoded output
* (both output data pointers are allocated by liberasurecode,
* caller invokes liberasurecode_decode_clean() after it has
* read decoded data in 'out_data')
*
* @return 0 on success, -error code otherwise
*/
int liberasurecode_decode(int desc,
char **available_fragments, /* input */
int num_fragments, uint64_t fragment_len, /* input */
int force_metadata_checks, /* input */
char **out_data, uint64_t *out_data_len); /* output */
/**
* Cleanup structures allocated by librasurecode_decode
*
* The caller has no context, so cannot safely free memory
* allocated by liberasurecode, so it must pass the
* deallocation responsibility back to liberasurecode.
*
* @param desc - liberasurecode descriptor/handle
* from liberasurecode_instance_create()
* @param data - (char *) buffer of data decoded by librasurecode_decode
*
* @return 0 on success; -error otherwise
*/
int liberasurecode_decode_cleanup(int desc, char *data);
/**
* Reconstruct a missing fragment from a subset of available fragments
*
* @param desc - liberasurecode descriptor/handle
* from liberasurecode_instance_create()
* @param available_fragments - erasure encoded fragments
* @param num_fragments - number of fragments being passed in
* @param fragment_len - size in bytes of the fragments
* @param destination_idx - missing idx to reconstruct
* @param out_fragment - output of reconstruct
*
* @return 0 on success, -error code otherwise
*/
int liberasurecode_reconstruct_fragment(int desc,
char **available_fragments, /* input */
int num_fragments, uint64_t fragment_len, /* input */
int destination_idx, /* input */
char* out_fragment); /* output */
/**
* Return a list of lists with valid rebuild indexes given
* a list of missing indexes.
*
* @desc: liberasurecode instance descriptor (obtained with
* liberasurecode_instance_create)
* @fragments_to_reconstruct list of indexes to reconstruct
* @fragments_to_exclude list of indexes to exclude from
* reconstruction equation
* @fragments_needed list of fragments needed to reconstruct
* fragments in fragments_to_reconstruct
*
* @return 0 on success, non-zero on error
*/
int liberasurecode_fragments_needed(int desc,
int *fragments_to_reconstruct,
int *fragments_to_exclude,
int *fragments_needed);
Erasure Code Fragment Checksum Types Supported
/* Checksum types supported for fragment metadata stored in each fragment */
typedef enum {
CHKSUM_NONE = 0, /* "none" (default) */
CHKSUM_CRC32 = 1, /* "crc32" */
CHKSUM_TYPES_MAX,
} ec_checksum_type_t;
Erasure Code Fragment Checksum API
struct __attribute__((__packed__))
fragment_metadata
{
uint32_t idx; /* 4 */
uint32_t size; /* 4 */
uint32_t frag_backend_metadata_size; /* 4 */
uint64_t orig_data_size; /* 8 */
uint8_t chksum_type; /* 1 */
uint32_t chksum[LIBERASURECODE_MAX_CHECKSUM_LEN]; /* 32 */
uint8_t chksum_mismatch; /* 1 */
uint8_t backend_id; /* 1 */
uint32_t backend_version; /* 4 */
} fragment_metadata_t;
#define FRAGSIZE_2_BLOCKSIZE(fragment_size) \
(fragment_size - sizeof(fragment_header_t))
/**
* Get opaque metadata for a fragment. The metadata is opaque to the
* client, but meaningful to the underlying library. It is used to verify
* stripes in verify_stripe_metadata().
*
* @param fragment - fragment data pointer
* @param fragment_metadata - pointer to allocated buffer of size at least
* sizeof(struct fragment_metadata) to hold fragment metadata struct
*
* @return 0 on success, non-zero on error
*/
//EDL: This needs to be implemented
int liberasurecode_get_fragment_metadata(char *fragment,
fragment_metadata_t *fragment_metadata);
/**
* Verify that the specified pointer points to a well formed fragment that can
* be processed by both this instance of liberasurecode and the specified
* backend.
*
* @param desc - liberasurecode descriptor/handle
* from liberasurecode_instance_create()
* @param fragment - fragment to verify
*
* @return 1 if fragment validation fails, 0 otherwise.
*/
int is_invalid_fragment(int desc, char *fragment);
/**
* Verify a subset of fragments generated by encode()
*
* @param desc - liberasurecode descriptor/handle
* from liberasurecode_instance_create()
* @param fragments - fragments part of the EC stripe to verify
* @param num_fragments - number of fragments part of the EC stripe
*
* @return 1 if stripe checksum verification is successful, 0 otherwise
*/
int liberasurecode_verify_stripe_metadata(int desc,
char **fragments, int num_fragments);
/* ==~=*=~===~=*=~==~=*=~== liberasurecode Helpers ==~*==~=*=~==~=~=*=~==~= */
/**
* This computes the aligned size of a buffer passed into
* the encode function. The encode function must pad fragments
* to be algined with the word size (w) and the last fragment also
* needs to be aligned. This computes the sum of the algined fragment
* sizes for a given buffer to encode.
*
* @param desc - liberasurecode descriptor/handle
* from liberasurecode_instance_create()
* @param data_len - original data length in bytes
*
* @return aligned length, or -error code on error
*/
int liberasurecode_get_aligned_data_size(int desc, uint64_t data_len);
/**
* This will return the minimum encode size, which is the minimum
* buffer size that can be encoded.
*
* @param desc - liberasurecode descriptor/handle
* from liberasurecode_instance_create()
*
* @return minimum data length length, or -error code on error
*/
int liberasurecode_get_minimum_encode_size(int desc);
/**
* This will return the fragment size, which is each fragment data
* length the backend will allocate when encoding.
*
* @param desc - liberasurecode descriptor/handle
* from liberasurecode_instance_create()
* @param data_len - original data length in bytes
*
* @return fragment size - sizeof(fragment_header) + size
* + frag_backend_metadata_size
*/
int liberasurecode_get_fragment_size(int desc, int data_len);
Code organization
|-- include
| +-- erasurecode
| | +-- erasurecode.h --> liberasurecode frontend API header
| | +-- erasurecode_backend.h --> liberasurecode backend API header
| +-- xor_codes --> headers for the built-in XOR codes
|
|-- src
| |-- erasurecode.c --> liberasurecode API implementation
| | (frontend + backend)
| |-- backends
| | +-- null
| | +--- null.c --> 'null' erasure code backend (template backend)
| | +-- xor
| | +--- flat_xor_hd.c --> 'flat_xor_hd' erasure code backend (built-in)
| | +-- jerasure
| | +-- jerasure_rs_cauchy.c --> 'jerasure_rs_vand' erasure code backend (jerasure.org)
| | +-- jerasure_rs_vand.c --> 'jerasure_rs_cauchy' erasure code backend (jerasure.org)
| | +-- isa-l
| | +-- isa_l_rs_vand.c --> 'isa_l_rs_vand' erasure code backend (Intel)
| | +-- shss
| | +-- shss.c --> 'shss' erasure code backend (NTT Labs)
| |
| |-- builtin
| | +-- xor_codes --> XOR HD code backend, built-in erasure
| | | code implementation (shared library)
| | +-- xor_code.c
| | +-- xor_hd_code.c
| | +-- rs_vand --> liberasurecode native Reed Soloman codes
| |
| +-- utils
| +-- chksum --> fragment checksum utils for erasure
| +-- alg_sig.c coded fragments
| +-- crc32.c
|
|-- doc --> API Documentation
| +-- Doxyfile
| +-- html
|
|--- test --> Test routines
| +-- builtin
| | +-- xor_codes
| +-- liberasurecode_test.c
| +-- utils
|
|-- autogen.sh
|-- configure.ac
|-- Makefile.am
|-- README
|-- NEWS
|-- COPYING
|-- AUTHORS
|-- INSTALL
+-- ChangeLog
References
[1] Jerasure, C library that supports erasure coding in storage applications, http://jerasure.org
[2] Intel(R) Storage Acceleration Library (Open Source Version), https://01.org/intel%C2%AE-storage-acceleration-library-open-source-version
[3] Greenan, Kevin M et al, "Flat XOR-based erasure codes in storage systems", http://www.kaymgee.com/Kevin_Greenan/Publications_files/greenan-msst10.pdf
[4] Kota Tsuyuzaki tsuyuzaki.kota@lab.ntt.co.jp, Ryuta Kon kon.ryuta@po.ntts.co.jp, "NTT SHSS Erasure Coding backend"