Martin Prikryl 79dd2a5047 OpenSSL 3.3.2		1 éve
..
aes	79dd2a5047 OpenSSL 3.3.2	1 éve
aria	513d92a184 OpenSSL 3.2.0	1 éve
asn1	79dd2a5047 OpenSSL 3.3.2	1 éve
async	513d92a184 OpenSSL 3.2.0	1 éve
bf	513d92a184 OpenSSL 3.2.0	1 éve
bio	79dd2a5047 OpenSSL 3.3.2	1 éve
bn	c4c4ebb56d OpenSSL 3.3.1	1 éve
buffer	513d92a184 OpenSSL 3.2.0	1 éve
camellia	3c34a35624 OpenSSL 3.1.0	2 éve
cast	513d92a184 OpenSSL 3.2.0	1 éve
chacha	c4c4ebb56d OpenSSL 3.3.1	1 éve
cmac	c4c4ebb56d OpenSSL 3.3.1	1 éve
cmp	79dd2a5047 OpenSSL 3.3.2	1 éve
cms	c4c4ebb56d OpenSSL 3.3.1	1 éve
comp	513d92a184 OpenSSL 3.2.0	1 éve
conf	79dd2a5047 OpenSSL 3.3.2	1 éve
crmf	513d92a184 OpenSSL 3.2.0	1 éve
ct	513d92a184 OpenSSL 3.2.0	1 éve
des	513d92a184 OpenSSL 3.2.0	1 éve
dh	c4c4ebb56d OpenSSL 3.3.1	1 éve
dsa	c4c4ebb56d OpenSSL 3.3.1	1 éve
dso	c4c4ebb56d OpenSSL 3.3.1	1 éve
ec	79dd2a5047 OpenSSL 3.3.2	1 éve
encode_decode	1254066655 OpenSSL 3.2.2	1 éve
engine	79dd2a5047 OpenSSL 3.3.2	1 éve
err	c4c4ebb56d OpenSSL 3.3.1	1 éve
ess	1254066655 OpenSSL 3.2.2	1 éve
evp	79dd2a5047 OpenSSL 3.3.2	1 éve
ffc	513d92a184 OpenSSL 3.2.0	1 éve
hmac	3c34a35624 OpenSSL 3.1.0	2 éve
hpke	1254066655 OpenSSL 3.2.2	1 éve
http	c4c4ebb56d OpenSSL 3.3.1	1 éve
idea	513d92a184 OpenSSL 3.2.0	1 éve
kdf	3c34a35624 OpenSSL 3.1.0	2 éve
lhash	c4c4ebb56d OpenSSL 3.3.1	1 éve
md2	3c34a35624 OpenSSL 3.1.0	2 éve
md4	3c34a35624 OpenSSL 3.1.0	2 éve
md5	c4c4ebb56d OpenSSL 3.3.1	1 éve
mdc2	3c34a35624 OpenSSL 3.1.0	2 éve
modes	c4c4ebb56d OpenSSL 3.3.1	1 éve
objects	79dd2a5047 OpenSSL 3.3.2	1 éve
ocsp	513d92a184 OpenSSL 3.2.0	1 éve
pem	513d92a184 OpenSSL 3.2.0	1 éve
perlasm	c4c4ebb56d OpenSSL 3.3.1	1 éve
pkcs12	79dd2a5047 OpenSSL 3.3.2	1 éve
pkcs7	79dd2a5047 OpenSSL 3.3.2	1 éve
poly1305	c4c4ebb56d OpenSSL 3.3.1	1 éve
property	79dd2a5047 OpenSSL 3.3.2	1 éve
rand	79dd2a5047 OpenSSL 3.3.2	1 éve
rc2	513d92a184 OpenSSL 3.2.0	1 éve
rc4	513d92a184 OpenSSL 3.2.0	1 éve
rc5	513d92a184 OpenSSL 3.2.0	1 éve
ripemd	3c34a35624 OpenSSL 3.1.0	2 éve
rsa	79dd2a5047 OpenSSL 3.3.2	1 éve
seed	3c34a35624 OpenSSL 3.1.0	2 éve
sha	c4c4ebb56d OpenSSL 3.3.1	1 éve
siphash	3c34a35624 OpenSSL 3.1.0	2 éve
sm2	c4c4ebb56d OpenSSL 3.3.1	1 éve
sm3	79dd2a5047 OpenSSL 3.3.2	1 éve
sm4	c4c4ebb56d OpenSSL 3.3.1	1 éve
srp	513d92a184 OpenSSL 3.2.0	1 éve
stack	c4c4ebb56d OpenSSL 3.3.1	1 éve
store	1254066655 OpenSSL 3.2.2	1 éve
thread	513d92a184 OpenSSL 3.2.0	1 éve
ts	513d92a184 OpenSSL 3.2.0	1 éve
txt_db	513d92a184 OpenSSL 3.2.0	1 éve
ui	513d92a184 OpenSSL 3.2.0	1 éve
whrlpool	513d92a184 OpenSSL 3.2.0	1 éve
x509	79dd2a5047 OpenSSL 3.3.2	1 éve
LPdir_nyi.c	3c34a35624 OpenSSL 3.1.0	2 éve
LPdir_unix.c	57fc33d686 OpenSSL 3.1.2	2 éve
LPdir_vms.c	3c34a35624 OpenSSL 3.1.0	2 éve
LPdir_win.c	3c34a35624 OpenSSL 3.1.0	2 éve
LPdir_win32.c	3c34a35624 OpenSSL 3.1.0	2 éve
LPdir_wince.c	3c34a35624 OpenSSL 3.1.0	2 éve
README-sparse_array.md	3c34a35624 OpenSSL 3.1.0	2 éve
alphacpuid.pl	3c34a35624 OpenSSL 3.1.0	2 éve
arm64cpuid.pl	3c34a35624 OpenSSL 3.1.0	2 éve
arm_arch.h	c4c4ebb56d OpenSSL 3.3.1	1 éve
armcap.c	c4c4ebb56d OpenSSL 3.3.1	1 éve
armv4cpuid.pl	d8f092ac60 OpenSSL 3.1.3	2 éve
asn1_dsa.c	3c34a35624 OpenSSL 3.1.0	2 éve
bsearch.c	3c34a35624 OpenSSL 3.1.0	2 éve
build.info	513d92a184 OpenSSL 3.2.0	1 éve
c64xpluscpuid.pl	3c34a35624 OpenSSL 3.1.0	2 éve
context.c	79dd2a5047 OpenSSL 3.3.2	1 éve
core_algorithm.c	513d92a184 OpenSSL 3.2.0	1 éve
core_fetch.c	513d92a184 OpenSSL 3.2.0	1 éve
core_namemap.c	57fc33d686 OpenSSL 3.1.2	2 éve
cpt_err.c	3c34a35624 OpenSSL 3.1.0	2 éve
cpuid.c	513d92a184 OpenSSL 3.2.0	1 éve
cryptlib.c	513d92a184 OpenSSL 3.2.0	1 éve
ctype.c	513d92a184 OpenSSL 3.2.0	1 éve
cversion.c	3c34a35624 OpenSSL 3.1.0	2 éve
der_writer.c	513d92a184 OpenSSL 3.2.0	1 éve
deterministic_nonce.c	1254066655 OpenSSL 3.2.2	1 éve
dllmain.c	3c34a35624 OpenSSL 3.1.0	2 éve
ebcdic.c	3c34a35624 OpenSSL 3.1.0	2 éve
ex_data.c	513d92a184 OpenSSL 3.2.0	1 éve
getenv.c	3c34a35624 OpenSSL 3.1.0	2 éve
ia64cpuid.S	3c34a35624 OpenSSL 3.1.0	2 éve
info.c	3c34a35624 OpenSSL 3.1.0	2 éve
init.c	1254066655 OpenSSL 3.2.2	1 éve
initthread.c	c4c4ebb56d OpenSSL 3.3.1	1 éve
loongarch64cpuid.pl	c4c4ebb56d OpenSSL 3.3.1	1 éve
loongarch_arch.h	d8f092ac60 OpenSSL 3.1.3	2 éve
loongarchcap.c	57fc33d686 OpenSSL 3.1.2	2 éve
mem.c	513d92a184 OpenSSL 3.2.0	1 éve
mem_clr.c	3c34a35624 OpenSSL 3.1.0	2 éve
mem_sec.c	3651ead1e8 OpenSSL 3.2.1	1 éve
mips_arch.h	3c34a35624 OpenSSL 3.1.0	2 éve
o_dir.c	3c34a35624 OpenSSL 3.1.0	2 éve
o_fopen.c	513d92a184 OpenSSL 3.2.0	1 éve
o_init.c	3c34a35624 OpenSSL 3.1.0	2 éve
o_str.c	79dd2a5047 OpenSSL 3.3.2	1 éve
o_time.c	3c34a35624 OpenSSL 3.1.0	2 éve
packet.c	513d92a184 OpenSSL 3.2.0	1 éve
param_build.c	c4c4ebb56d OpenSSL 3.3.1	1 éve
param_build_set.c	c4c4ebb56d OpenSSL 3.3.1	1 éve
params.c	1254066655 OpenSSL 3.2.2	1 éve
params_dup.c	513d92a184 OpenSSL 3.2.0	1 éve
params_from_text.c	3651ead1e8 OpenSSL 3.2.1	1 éve
params_idx.c.in	513d92a184 OpenSSL 3.2.0	1 éve
pariscid.pl	3c34a35624 OpenSSL 3.1.0	2 éve
passphrase.c	513d92a184 OpenSSL 3.2.0	1 éve
ppccap.c	513d92a184 OpenSSL 3.2.0	1 éve
ppccpuid.pl	3c34a35624 OpenSSL 3.1.0	2 éve
provider.c	513d92a184 OpenSSL 3.2.0	1 éve
provider_child.c	513d92a184 OpenSSL 3.2.0	1 éve
provider_conf.c	c4c4ebb56d OpenSSL 3.3.1	1 éve
provider_core.c	1254066655 OpenSSL 3.2.2	1 éve
provider_local.h	3c34a35624 OpenSSL 3.1.0	2 éve
provider_predefined.c	3c34a35624 OpenSSL 3.1.0	2 éve
punycode.c	513d92a184 OpenSSL 3.2.0	1 éve
quic_vlint.c	513d92a184 OpenSSL 3.2.0	1 éve
rcu_internal.h	c4c4ebb56d OpenSSL 3.3.1	1 éve
riscv32cpuid.pl	c4c4ebb56d OpenSSL 3.3.1	1 éve
riscv64cpuid.pl	c4c4ebb56d OpenSSL 3.3.1	1 éve
riscvcap.c	c4c4ebb56d OpenSSL 3.3.1	1 éve
s390x_arch.h	513d92a184 OpenSSL 3.2.0	1 éve
s390xcap.c	513d92a184 OpenSSL 3.2.0	1 éve
s390xcpuid.pl	3c34a35624 OpenSSL 3.1.0	2 éve
self_test_core.c	3c34a35624 OpenSSL 3.1.0	2 éve
sleep.c	c4c4ebb56d OpenSSL 3.3.1	1 éve
sparccpuid.S	3c34a35624 OpenSSL 3.1.0	2 éve
sparcv9cap.c	3c34a35624 OpenSSL 3.1.0	2 éve
sparse_array.c	3c34a35624 OpenSSL 3.1.0	2 éve
threads_lib.c	513d92a184 OpenSSL 3.2.0	1 éve
threads_none.c	79dd2a5047 OpenSSL 3.3.2	1 éve
threads_pthread.c	79dd2a5047 OpenSSL 3.3.2	1 éve
threads_win.c	79dd2a5047 OpenSSL 3.3.2	1 éve
time.c	513d92a184 OpenSSL 3.2.0	1 éve
trace.c	513d92a184 OpenSSL 3.2.0	1 éve
uid.c	513d92a184 OpenSSL 3.2.0	1 éve
vms_rms.h	3c34a35624 OpenSSL 3.1.0	2 éve
x86_64cpuid.pl	3c34a35624 OpenSSL 3.1.0	2 éve
x86cpuid.pl	3c34a35624 OpenSSL 3.1.0	2 éve

Sparse Arrays

The sparse_array.c file contains an implementation of a sparse array that attempts to be both space and time efficient.

The sparse array is represented using a tree structure. Each node in the tree contains a block of pointers to either the user supplied leaf values or to another node.

There are a number of parameters used to define the block size:

OPENSSL_SA_BLOCK_BITS   Specifies the number of bits covered by each block
SA_BLOCK_MAX            Specifies the number of pointers in each block
SA_BLOCK_MASK           Specifies a bit mask to perform modulo block size
SA_BLOCK_MAX_LEVELS     Indicates the maximum possible height of the tree

These constants are inter-related:

SA_BLOCK_MAX        = 2 ^ OPENSSL_SA_BLOCK_BITS
SA_BLOCK_MASK       = SA_BLOCK_MAX - 1
SA_BLOCK_MAX_LEVELS = number of bits in size_t divided by
                      OPENSSL_SA_BLOCK_BITS rounded up to the next multiple
                      of OPENSSL_SA_BLOCK_BITS

OPENSSL_SA_BLOCK_BITS can be defined at compile time and this overrides the built in setting.

As a space and performance optimisation, the height of the tree is usually less than the maximum possible height. Only sufficient height is allocated to accommodate the largest index added to the data structure.

The largest index used to add a value to the array determines the tree height:

    +----------------------+---------------------+
    | Largest Added Index  |   Height of Tree    |
    +----------------------+---------------------+
    | SA_BLOCK_MAX     - 1 |          1          |
    | SA_BLOCK_MAX ^ 2 - 1 |          2          |
    | SA_BLOCK_MAX ^ 3 - 1 |          3          |
    | ...                  |          ...        |
    | size_t max           | SA_BLOCK_MAX_LEVELS |
    +----------------------+---------------------+

The tree height is dynamically increased as needed based on additions.

An empty tree is represented by a NULL root pointer. Inserting a value at index 0 results in the allocation of a top level node full of null pointers except for the single pointer to the user's data (N = SA_BLOCK_MAX for brevity):

    +----+
    |Root|
    |Node|
    +-+--+
      |
      |
      |
      v
    +-+-+---+---+---+---+
    | 0 | 1 | 2 |...|N-1|
    |   |nil|nil|...|nil|
    +-+-+---+---+---+---+
      |
      |
      |
      v
    +-+--+
    |User|
    |Data|
    +----+
Index 0

Inserting at element 2N+1 creates a new root node and pushes down the old root node. It then creates a second second level node to hold the pointer to the user's new data:

    +----+
    |Root|
    |Node|
    +-+--+
      |
      |
      |
      v
    +-+-+---+---+---+---+
    | 0 | 1 | 2 |...|N-1|
    |   |nil|   |...|nil|
    +-+-+---+-+-+---+---+
      |       |
      |       +------------------+
      |                          |
      v                          v
    +-+-+---+---+---+---+      +-+-+---+---+---+---+
    | 0 | 1 | 2 |...|N-1|      | 0 | 1 | 2 |...|N-1|
    |nil|   |nil|...|nil|      |nil|   |nil|...|nil|
    +-+-+---+---+---+---+      +---+-+-+---+---+---+
      |                              |
      |                              |
      |                              |
      v                              v
    +-+--+                         +-+--+
    |User|                         |User|
    |Data|                         |Data|
    +----+                         +----+
Index 0                       Index 2N+1

The nodes themselves are allocated in a sparse manner. Only nodes which exist along a path from the root of the tree to an added leaf will be allocated. The complexity is hidden and nodes are allocated on an as needed basis. Because the data is expected to be sparse this doesn't result in a large waste of space.

Values can be removed from the sparse array by setting their index position to NULL. The data structure does not attempt to reclaim nodes or reduce the height of the tree on removal. For example, now setting index 0 to NULL would result in:

    +----+
    |Root|
    |Node|
    +-+--+
      |
      |
      |
      v
    +-+-+---+---+---+---+
    | 0 | 1 | 2 |...|N-1|
    |   |nil|   |...|nil|
    +-+-+---+-+-+---+---+
      |       |
      |       +------------------+
      |                          |
      v                          v
    +-+-+---+---+---+---+      +-+-+---+---+---+---+
    | 0 | 1 | 2 |...|N-1|      | 0 | 1 | 2 |...|N-1|
    |nil|nil|nil|...|nil|      |nil|   |nil|...|nil|
    +---+---+---+---+---+      +---+-+-+---+---+---+
                                     |
                                     |
                                     |
                                     v
                                   +-+--+
                                   |User|
                                   |Data|
                                   +----+
                              Index 2N+1

Accesses to elements in the sparse array take O(log n) time where n is the largest element. The base of the logarithm is SA_BLOCK_MAX, so for moderately small indices (e.g. NIDs), single level (constant time) access is achievable. Space usage is O(minimum(m, n log(n)) where m is the number of elements in the array.

Note: sparse arrays only include pointers to types. Thus, SPARSE_ARRAY_OF(char) can be used to store a string.

README-sparse_array.md

Sparse Arrays