##// END OF EJS Templates
upstream » mercurial-mirror
RSS

Clone from https://www.mercurial-scm.org/repo/hg-all

sharesafe: introduce functionality to automatically upgrade shares...
sharesafe: introduce functionality to automatically upgrade shares In past few months, we have developed a `share-safe` mode for sharing repository in which share source requirements and config values are shared with the shares. To get it rolling, an important task is to get these shares automatically upgraded. We are focusing on an installation where shares are created by scripts and test jobs. It will be difficult to manually upgrade these and we need some functionality to do so automatically. This patch introduces a config option to deal with it. If all of the following conditions are met, we upgrade the share repository automatically: * If the config option is enabled * Share source repository is share-safe enabled * Share is not share-safe enabled * Any command is run in the share Upgrading the share is pretty easy as it involves only editing the requirements file. Differential Revision: https://phab.mercurial-scm.org/D9679
Antoine Cezar - - Load All Authors

File last commit:

r46110:aebc976f default
r46852:0babe12e default
Show More
path_encode.rs
653 lines | 20.8 KiB | application/rls-services+xml | RustLexer
/ rust / hg-core / src / revlog / path_encode.rs
History | Annotation | Raw |Copy content |Copy permalink
use crypto::digest::Digest;
use crypto::sha1::Sha1;
#[derive(PartialEq, Debug)]
#[allow(non_camel_case_types)]
enum path_state {
START, /* first byte of a path component */
A, /* "AUX" */
AU,
THIRD, /* third of a 3-byte sequence, e.g. "AUX", "NUL" */
C, /* "CON" or "COMn" */
CO,
COMLPT, /* "COM" or "LPT" */
COMLPTn,
L,
LP,
N,
NU,
P, /* "PRN" */
PR,
LDOT, /* leading '.' */
DOT, /* '.' in a non-leading position */
H, /* ".h" */
HGDI, /* ".hg", ".d", or ".i" */
SPACE,
DEFAULT, /* byte of a path component after the first */
}
/* state machine for dir-encoding */
#[allow(non_camel_case_types)]
enum dir_state {
DDOT,
DH,
DHGDI,
DDEFAULT,
}
fn inset(bitset: &[u32; 8], c: u8) -> bool {
bitset[(c as usize) >> 5] & (1 << (c & 31)) != 0
}
fn charcopy(dest: Option<&mut [u8]>, destlen: &mut usize, c: u8) {
if let Some(slice) = dest {
slice[*destlen] = c
}
*destlen += 1
}
fn memcopy(dest: Option<&mut [u8]>, destlen: &mut usize, src: &[u8]) {
if let Some(slice) = dest {
slice[*destlen..*destlen + src.len()].copy_from_slice(src)
}
*destlen += src.len();
}
fn rewrap_option<'a, 'b: 'a>(
x: &'a mut Option<&'b mut [u8]>,
) -> Option<&'a mut [u8]> {
match x {
None => None,
Some(y) => Some(y),
}
}
fn hexencode<'a>(mut dest: Option<&'a mut [u8]>, destlen: &mut usize, c: u8) {
let hexdigit = b"0123456789abcdef";
charcopy(
rewrap_option(&mut dest),
destlen,
hexdigit[(c as usize) >> 4],
);
charcopy(dest, destlen, hexdigit[(c as usize) & 15]);
}
/* 3-byte escape: tilde followed by two hex digits */
fn escape3(mut dest: Option<&mut [u8]>, destlen: &mut usize, c: u8) {
charcopy(rewrap_option(&mut dest), destlen, b'~');
hexencode(dest, destlen, c);
}
fn encode_dir(mut dest: Option<&mut [u8]>, src: &[u8]) -> usize {
let mut state = dir_state::DDEFAULT;
let mut i = 0;
let mut destlen = 0;
while i < src.len() {
match state {
dir_state::DDOT => match src[i] {
b'd' | b'i' => {
state = dir_state::DHGDI;
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
}
b'h' => {
state = dir_state::DH;
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
}
_ => {
state = dir_state::DDEFAULT;
}
},
dir_state::DH => {
if src[i] == b'g' {
state = dir_state::DHGDI;
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
} else {
state = dir_state::DDEFAULT;
}
}
dir_state::DHGDI => {
if src[i] == b'/' {
memcopy(rewrap_option(&mut dest), &mut destlen, b".hg");
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
}
state = dir_state::DDEFAULT;
}
dir_state::DDEFAULT => {
if src[i] == b'.' {
state = dir_state::DDOT
}
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
}
}
}
destlen
}
fn _encode(
twobytes: &[u32; 8],
onebyte: &[u32; 8],
mut dest: Option<&mut [u8]>,
src: &[u8],
encodedir: bool,
) -> usize {
let mut state = path_state::START;
let mut i = 0;
let mut destlen = 0;
let len = src.len();
while i < len {
match state {
path_state::START => match src[i] {
b'/' => {
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
}
b'.' => {
state = path_state::LDOT;
escape3(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
}
b' ' => {
state = path_state::DEFAULT;
escape3(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
}
b'a' => {
state = path_state::A;
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
}
b'c' => {
state = path_state::C;
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
}
b'l' => {
state = path_state::L;
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
}
b'n' => {
state = path_state::N;
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
}
b'p' => {
state = path_state::P;
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
}
_ => {
state = path_state::DEFAULT;
}
},
path_state::A => {
if src[i] == b'u' {
state = path_state::AU;
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
} else {
state = path_state::DEFAULT;
}
}
path_state::AU => {
if src[i] == b'x' {
state = path_state::THIRD;
i += 1;
} else {
state = path_state::DEFAULT;
}
}
path_state::THIRD => {
state = path_state::DEFAULT;
match src[i] {
b'.' | b'/' | b'\0' => escape3(
rewrap_option(&mut dest),
&mut destlen,
src[i - 1],
),
_ => i -= 1,
}
}
path_state::C => {
if src[i] == b'o' {
state = path_state::CO;
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
} else {
state = path_state::DEFAULT;
}
}
path_state::CO => {
if src[i] == b'm' {
state = path_state::COMLPT;
i += 1;
} else if src[i] == b'n' {
state = path_state::THIRD;
i += 1;
} else {
state = path_state::DEFAULT;
}
}
path_state::COMLPT => {
if src[i] >= b'1' && src[i] <= b'9' {
state = path_state::COMLPTn;
i += 1;
} else {
state = path_state::DEFAULT;
charcopy(
rewrap_option(&mut dest),
&mut destlen,
src[i - 1],
);
}
}
path_state::COMLPTn => {
state = path_state::DEFAULT;
match src[i] {
b'.' | b'/' | b'\0' => {
escape3(
rewrap_option(&mut dest),
&mut destlen,
src[i - 2],
);
charcopy(
rewrap_option(&mut dest),
&mut destlen,
src[i - 1],
);
}
_ => {
memcopy(
rewrap_option(&mut dest),
&mut destlen,
&src[i - 2..i],
);
}
}
}
path_state::L => {
if src[i] == b'p' {
state = path_state::LP;
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
} else {
state = path_state::DEFAULT;
}
}
path_state::LP => {
if src[i] == b't' {
state = path_state::COMLPT;
i += 1;
} else {
state = path_state::DEFAULT;
}
}
path_state::N => {
if src[i] == b'u' {
state = path_state::NU;
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
} else {
state = path_state::DEFAULT;
}
}
path_state::NU => {
if src[i] == b'l' {
state = path_state::THIRD;
i += 1;
} else {
state = path_state::DEFAULT;
}
}
path_state::P => {
if src[i] == b'r' {
state = path_state::PR;
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
} else {
state = path_state::DEFAULT;
}
}
path_state::PR => {
if src[i] == b'n' {
state = path_state::THIRD;
i += 1;
} else {
state = path_state::DEFAULT;
}
}
path_state::LDOT => match src[i] {
b'd' | b'i' => {
state = path_state::HGDI;
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
}
b'h' => {
state = path_state::H;
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
}
_ => {
state = path_state::DEFAULT;
}
},
path_state::DOT => match src[i] {
b'/' | b'\0' => {
state = path_state::START;
memcopy(rewrap_option(&mut dest), &mut destlen, b"~2e");
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
}
b'd' | b'i' => {
state = path_state::HGDI;
charcopy(rewrap_option(&mut dest), &mut destlen, b'.');
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
}
b'h' => {
state = path_state::H;
memcopy(rewrap_option(&mut dest), &mut destlen, b".h");
i += 1;
}
_ => {
state = path_state::DEFAULT;
charcopy(rewrap_option(&mut dest), &mut destlen, b'.');
}
},
path_state::H => {
if src[i] == b'g' {
state = path_state::HGDI;
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
} else {
state = path_state::DEFAULT;
}
}
path_state::HGDI => {
if src[i] == b'/' {
state = path_state::START;
if encodedir {
memcopy(
rewrap_option(&mut dest),
&mut destlen,
b".hg",
);
}
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1
} else {
state = path_state::DEFAULT;
}
}
path_state::SPACE => match src[i] {
b'/' | b'\0' => {
state = path_state::START;
memcopy(rewrap_option(&mut dest), &mut destlen, b"~20");
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
}
_ => {
state = path_state::DEFAULT;
charcopy(rewrap_option(&mut dest), &mut destlen, b' ');
}
},
path_state::DEFAULT => {
while i != len && inset(onebyte, src[i]) {
charcopy(rewrap_option(&mut dest), &mut destlen, src[i]);
i += 1;
}
if i == len {
break;
}
match src[i] {
b'.' => {
state = path_state::DOT;
i += 1
}
b' ' => {
state = path_state::SPACE;
i += 1
}
b'/' => {
state = path_state::START;
charcopy(rewrap_option(&mut dest), &mut destlen, b'/');
i += 1;
}
_ => {
if inset(onebyte, src[i]) {
loop {
charcopy(
rewrap_option(&mut dest),
&mut destlen,
src[i],
);
i += 1;
if !(i < len && inset(onebyte, src[i])) {
break;
}
}
} else if inset(twobytes, src[i]) {
let c = src[i];
i += 1;
charcopy(
rewrap_option(&mut dest),
&mut destlen,
b'_',
);
charcopy(
rewrap_option(&mut dest),
&mut destlen,
if c == b'_' { b'_' } else { c + 32 },
);
} else {
escape3(
rewrap_option(&mut dest),
&mut destlen,
src[i],
);
i += 1;
}
}
}
}
}
}
match state {
path_state::START => (),
path_state::A => (),
path_state::AU => (),
path_state::THIRD => {
escape3(rewrap_option(&mut dest), &mut destlen, src[i - 1])
}
path_state::C => (),
path_state::CO => (),
path_state::COMLPT => {
charcopy(rewrap_option(&mut dest), &mut destlen, src[i - 1])
}
path_state::COMLPTn => {
escape3(rewrap_option(&mut dest), &mut destlen, src[i - 2]);
charcopy(rewrap_option(&mut dest), &mut destlen, src[i - 1]);
}
path_state::L => (),
path_state::LP => (),
path_state::N => (),
path_state::NU => (),
path_state::P => (),
path_state::PR => (),
path_state::LDOT => (),
path_state::DOT => {
memcopy(rewrap_option(&mut dest), &mut destlen, b"~2e");
}
path_state::H => (),
path_state::HGDI => (),
path_state::SPACE => {
memcopy(rewrap_option(&mut dest), &mut destlen, b"~20");
}
path_state::DEFAULT => (),
};
destlen
}
fn basic_encode(dest: Option<&mut [u8]>, src: &[u8]) -> usize {
let twobytes: [u32; 8] = [0, 0, 0x87ff_fffe, 0, 0, 0, 0, 0];
let onebyte: [u32; 8] =
[1, 0x2bff_3bfa, 0x6800_0001, 0x2fff_ffff, 0, 0, 0, 0];
_encode(&twobytes, &onebyte, dest, src, true)
}
const MAXSTOREPATHLEN: usize = 120;
fn lower_encode(mut dest: Option<&mut [u8]>, src: &[u8]) -> usize {
let onebyte: [u32; 8] =
[1, 0x2bff_fbfb, 0xe800_0001, 0x2fff_ffff, 0, 0, 0, 0];
let lower: [u32; 8] = [0, 0, 0x07ff_fffe, 0, 0, 0, 0, 0];
let mut destlen = 0;
for c in src {
if inset(&onebyte, *c) {
charcopy(rewrap_option(&mut dest), &mut destlen, *c)
} else if inset(&lower, *c) {
charcopy(rewrap_option(&mut dest), &mut destlen, *c + 32)
} else {
escape3(rewrap_option(&mut dest), &mut destlen, *c)
}
}
destlen
}
fn aux_encode(dest: Option<&mut [u8]>, src: &[u8]) -> usize {
let twobytes = [0; 8];
let onebyte: [u32; 8] = [!0, 0xffff_3ffe, !0, !0, !0, !0, !0, !0];
_encode(&twobytes, &onebyte, dest, src, false)
}
fn hash_mangle(src: &[u8], sha: &[u8]) -> Vec<u8> {
let dirprefixlen = 8;
let maxshortdirslen = 68;
let mut destlen = 0;
let last_slash = src.iter().rposition(|b| *b == b'/');
let last_dot: Option<usize> = {
let s = last_slash.unwrap_or(0);
src[s..]
.iter()
.rposition(|b| *b == b'.')
.and_then(|i| Some(i + s))
};
let mut dest = vec![0; MAXSTOREPATHLEN];
memcopy(Some(&mut dest), &mut destlen, b"dh/");
{
let mut first = true;
for slice in src[..last_slash.unwrap_or_else(|| src.len())]
.split(|b| *b == b'/')
{
let slice = &slice[..std::cmp::min(slice.len(), dirprefixlen)];
if destlen + (slice.len() + if first { 0 } else { 1 })
> maxshortdirslen + 3
{
break;
} else {
if !first {
charcopy(Some(&mut dest), &mut destlen, b'/')
};
memcopy(Some(&mut dest), &mut destlen, slice);
if dest[destlen - 1] == b'.' || dest[destlen - 1] == b' ' {
dest[destlen - 1] = b'_'
}
}
first = false;
}
if !first {
charcopy(Some(&mut dest), &mut destlen, b'/');
}
}
let used = destlen + 40 + {
if let Some(l) = last_dot {
src.len() - l
} else {
0
}
};
if MAXSTOREPATHLEN > used {
let slop = MAXSTOREPATHLEN - used;
let basenamelen = match last_slash {
Some(l) => src.len() - l - 1,
None => src.len(),
};
let basenamelen = std::cmp::min(basenamelen, slop);
if basenamelen > 0 {
let start = match last_slash {
Some(l) => l + 1,
None => 0,
};
memcopy(
Some(&mut dest),
&mut destlen,
&src[start..][..basenamelen],
)
}
}
for c in sha {
hexencode(Some(&mut dest), &mut destlen, *c);
}
if let Some(l) = last_dot {
memcopy(Some(&mut dest), &mut destlen, &src[l..]);
}
if destlen == dest.len() {
dest
} else {
// sometimes the path are shorter than MAXSTOREPATHLEN
dest[..destlen].to_vec()
}
}
const MAXENCODE: usize = 4096 * 4;
fn hash_encode(src: &[u8]) -> Vec<u8> {
let dired = &mut [0; MAXENCODE];
let lowered = &mut [0; MAXENCODE];
let auxed = &mut [0; MAXENCODE];
let baselen = (src.len() - 5) * 3;
if baselen >= MAXENCODE {
panic!("path_encode::hash_encore: string too long: {}", baselen)
};
let dirlen = encode_dir(Some(&mut dired[..]), src);
let sha = {
let mut hasher = Sha1::new();
hasher.input(&dired[..dirlen]);
let mut hash = vec![0; 20];
hasher.result(&mut hash);
hash
};
let lowerlen = lower_encode(Some(&mut lowered[..]), &dired[..dirlen][5..]);
let auxlen = aux_encode(Some(&mut auxed[..]), &lowered[..lowerlen]);
hash_mangle(&auxed[..auxlen], &sha)
}
pub fn path_encode(path: &[u8]) -> Vec<u8> {
let newlen = if path.len() <= MAXSTOREPATHLEN {
basic_encode(None, path)
} else {
MAXSTOREPATHLEN + 1
};
if newlen <= MAXSTOREPATHLEN {
if newlen == path.len() {
path.to_vec()
} else {
let mut res = vec![0; newlen];
basic_encode(Some(&mut res), path);
res
}
} else {
hash_encode(&path)
}
}