Mercurial > hg-stable
view mercurial/pathencode.c @ 30745:c1b7b2285522
revlog: flag processor
Add the ability for revlog objects to process revision flags and apply
registered transforms on read/write operations.
This patch introduces:
- the 'revlog._processflags()' method that looks at revision flags and applies
flag processors registered on them. Due to the need to handle non-commutative
operations, flag transforms are applied in stable order but the order in which
the transforms are applied is reversed between read and write operations.
- the 'addflagprocessor()' method allowing to register processors on flags.
Flag processors are defined as a 3-tuple of (read, write, raw) functions to be
applied depending on the operation being performed.
- an update on 'revlog.addrevision()' behavior. The current flagprocessor design
relies on extensions to wrap around 'addrevision()' to set flags on revision
data, and on the flagprocessor to perform the actual transformation of its
contents. In the lfs case, this means we need to process flags before we meet
the 2GB size check, leading to performing some operations before it happens:
- if flags are set on the revision data, we assume some extensions might be
modifying the contents using the flag processor next, and we compute the
node for the original revision data (still allowing extension to override
the node by wrapping around 'addrevision()').
- we then invoke the flag processor to apply registered transforms (in lfs's
case, drastically reducing the size of large blobs).
- finally, we proceed with the 2GB size check.
Note: In the case a cachedelta is passed to 'addrevision()' and we detect the
flag processor modified the revision data, we chose to trust the flag processor
and drop the cachedelta.
| author | Remi Chaintron <remi@fb.com> |
|---|---|
| date | Tue, 10 Jan 2017 16:15:21 +0000 |
| parents | f5607b6253da |
| children |
line wrap: on
line source
/* pathencode.c - efficient path name encoding Copyright 2012 Facebook This software may be used and distributed according to the terms of the GNU General Public License, incorporated herein by reference. */ /* * An implementation of the name encoding scheme used by the fncache * store. The common case is of a path < 120 bytes long, which is * handled either in a single pass with no allocations or two passes * with a single allocation. For longer paths, multiple passes are * required. */ #define PY_SSIZE_T_CLEAN #include <Python.h> #include <assert.h> #include <ctype.h> #include <stdlib.h> #include <string.h> #include "util.h" /* state machine for the fast path */ 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 */ enum dir_state { DDOT, DH, DHGDI, DDEFAULT }; static inline int inset(const uint32_t bitset[], char c) { return bitset[((uint8_t)c) >> 5] & (1 << (((uint8_t)c) & 31)); } static inline void charcopy(char *dest, Py_ssize_t *destlen, size_t destsize, char c) { if (dest) { assert(*destlen < destsize); dest[*destlen] = c; } (*destlen)++; } static inline void memcopy(char *dest, Py_ssize_t *destlen, size_t destsize, const void *src, Py_ssize_t len) { if (dest) { assert(*destlen + len < destsize); memcpy((void *)&dest[*destlen], src, len); } *destlen += len; } static inline void hexencode(char *dest, Py_ssize_t *destlen, size_t destsize, uint8_t c) { static const char hexdigit[] = "0123456789abcdef"; charcopy(dest, destlen, destsize, hexdigit[c >> 4]); charcopy(dest, destlen, destsize, hexdigit[c & 15]); } /* 3-byte escape: tilde followed by two hex digits */ static inline void escape3(char *dest, Py_ssize_t *destlen, size_t destsize, char c) { charcopy(dest, destlen, destsize, '~'); hexencode(dest, destlen, destsize, c); } static Py_ssize_t _encodedir(char *dest, size_t destsize, const char *src, Py_ssize_t len) { enum dir_state state = DDEFAULT; Py_ssize_t i = 0, destlen = 0; while (i < len) { switch (state) { case DDOT: switch (src[i]) { case 'd': case 'i': state = DHGDI; charcopy(dest, &destlen, destsize, src[i++]); break; case 'h': state = DH; charcopy(dest, &destlen, destsize, src[i++]); break; default: state = DDEFAULT; break; } break; case DH: if (src[i] == 'g') { state = DHGDI; charcopy(dest, &destlen, destsize, src[i++]); } else state = DDEFAULT; break; case DHGDI: if (src[i] == '/') { memcopy(dest, &destlen, destsize, ".hg", 3); charcopy(dest, &destlen, destsize, src[i++]); } state = DDEFAULT; break; case DDEFAULT: if (src[i] == '.') state = DDOT; charcopy(dest, &destlen, destsize, src[i++]); break; } } return destlen; } PyObject *encodedir(PyObject *self, PyObject *args) { Py_ssize_t len, newlen; PyObject *pathobj, *newobj; char *path; if (!PyArg_ParseTuple(args, "O:encodedir", &pathobj)) return NULL; if (PyBytes_AsStringAndSize(pathobj, &path, &len) == -1) { PyErr_SetString(PyExc_TypeError, "expected a string"); return NULL; } newlen = len ? _encodedir(NULL, 0, path, len + 1) : 1; if (newlen == len + 1) { Py_INCREF(pathobj); return pathobj; } newobj = PyBytes_FromStringAndSize(NULL, newlen); if (newobj) { assert(PyBytes_Check(newobj)); Py_SIZE(newobj)--; _encodedir(PyBytes_AS_STRING(newobj), newlen, path, len + 1); } return newobj; } static Py_ssize_t _encode(const uint32_t twobytes[8], const uint32_t onebyte[8], char *dest, Py_ssize_t destlen, size_t destsize, const char *src, Py_ssize_t len, int encodedir) { enum path_state state = START; Py_ssize_t i = 0; /* * Python strings end with a zero byte, which we use as a * terminal token as they are not valid inside path names. */ while (i < len) { switch (state) { case START: switch (src[i]) { case '/': charcopy(dest, &destlen, destsize, src[i++]); break; case '.': state = LDOT; escape3(dest, &destlen, destsize, src[i++]); break; case ' ': state = DEFAULT; escape3(dest, &destlen, destsize, src[i++]); break; case 'a': state = A; charcopy(dest, &destlen, destsize, src[i++]); break; case 'c': state = C; charcopy(dest, &destlen, destsize, src[i++]); break; case 'l': state = L; charcopy(dest, &destlen, destsize, src[i++]); break; case 'n': state = N; charcopy(dest, &destlen, destsize, src[i++]); break; case 'p': state = P; charcopy(dest, &destlen, destsize, src[i++]); break; default: state = DEFAULT; break; } break; case A: if (src[i] == 'u') { state = AU; charcopy(dest, &destlen, destsize, src[i++]); } else state = DEFAULT; break; case AU: if (src[i] == 'x') { state = THIRD; i++; } else state = DEFAULT; break; case THIRD: state = DEFAULT; switch (src[i]) { case '.': case '/': case '\0': escape3(dest, &destlen, destsize, src[i - 1]); break; default: i--; break; } break; case C: if (src[i] == 'o') { state = CO; charcopy(dest, &destlen, destsize, src[i++]); } else state = DEFAULT; break; case CO: if (src[i] == 'm') { state = COMLPT; i++; } else if (src[i] == 'n') { state = THIRD; i++; } else state = DEFAULT; break; case COMLPT: switch (src[i]) { case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': state = COMLPTn; i++; break; default: state = DEFAULT; charcopy(dest, &destlen, destsize, src[i - 1]); break; } break; case COMLPTn: state = DEFAULT; switch (src[i]) { case '.': case '/': case '\0': escape3(dest, &destlen, destsize, src[i - 2]); charcopy(dest, &destlen, destsize, src[i - 1]); break; default: memcopy(dest, &destlen, destsize, &src[i - 2], 2); break; } break; case L: if (src[i] == 'p') { state = LP; charcopy(dest, &destlen, destsize, src[i++]); } else state = DEFAULT; break; case LP: if (src[i] == 't') { state = COMLPT; i++; } else state = DEFAULT; break; case N: if (src[i] == 'u') { state = NU; charcopy(dest, &destlen, destsize, src[i++]); } else state = DEFAULT; break; case NU: if (src[i] == 'l') { state = THIRD; i++; } else state = DEFAULT; break; case P: if (src[i] == 'r') { state = PR; charcopy(dest, &destlen, destsize, src[i++]); } else state = DEFAULT; break; case PR: if (src[i] == 'n') { state = THIRD; i++; } else state = DEFAULT; break; case LDOT: switch (src[i]) { case 'd': case 'i': state = HGDI; charcopy(dest, &destlen, destsize, src[i++]); break; case 'h': state = H; charcopy(dest, &destlen, destsize, src[i++]); break; default: state = DEFAULT; break; } break; case DOT: switch (src[i]) { case '/': case '\0': state = START; memcopy(dest, &destlen, destsize, "~2e", 3); charcopy(dest, &destlen, destsize, src[i++]); break; case 'd': case 'i': state = HGDI; charcopy(dest, &destlen, destsize, '.'); charcopy(dest, &destlen, destsize, src[i++]); break; case 'h': state = H; memcopy(dest, &destlen, destsize, ".h", 2); i++; break; default: state = DEFAULT; charcopy(dest, &destlen, destsize, '.'); break; } break; case H: if (src[i] == 'g') { state = HGDI; charcopy(dest, &destlen, destsize, src[i++]); } else state = DEFAULT; break; case HGDI: if (src[i] == '/') { state = START; if (encodedir) memcopy(dest, &destlen, destsize, ".hg", 3); charcopy(dest, &destlen, destsize, src[i++]); } else state = DEFAULT; break; case SPACE: switch (src[i]) { case '/': case '\0': state = START; memcopy(dest, &destlen, destsize, "~20", 3); charcopy(dest, &destlen, destsize, src[i++]); break; default: state = DEFAULT; charcopy(dest, &destlen, destsize, ' '); break; } break; case DEFAULT: while (inset(onebyte, src[i])) { charcopy(dest, &destlen, destsize, src[i++]); if (i == len) goto done; } switch (src[i]) { case '.': state = DOT; i++; break; case ' ': state = SPACE; i++; break; case '/': state = START; charcopy(dest, &destlen, destsize, '/'); i++; break; default: if (inset(onebyte, src[i])) { do { charcopy(dest, &destlen, destsize, src[i++]); } while (i < len && inset(onebyte, src[i])); } else if (inset(twobytes, src[i])) { char c = src[i++]; charcopy(dest, &destlen, destsize, '_'); charcopy(dest, &destlen, destsize, c == '_' ? '_' : c + 32); } else escape3(dest, &destlen, destsize, src[i++]); break; } break; } } done: return destlen; } static Py_ssize_t basicencode(char *dest, size_t destsize, const char *src, Py_ssize_t len) { static const uint32_t twobytes[8] = { 0, 0, 0x87fffffe }; static const uint32_t onebyte[8] = { 1, 0x2bff3bfa, 0x68000001, 0x2fffffff, }; Py_ssize_t destlen = 0; return _encode(twobytes, onebyte, dest, destlen, destsize, src, len, 1); } static const Py_ssize_t maxstorepathlen = 120; static Py_ssize_t _lowerencode(char *dest, size_t destsize, const char *src, Py_ssize_t len) { static const uint32_t onebyte[8] = { 1, 0x2bfffbfb, 0xe8000001, 0x2fffffff }; static const uint32_t lower[8] = { 0, 0, 0x7fffffe }; Py_ssize_t i, destlen = 0; for (i = 0; i < len; i++) { if (inset(onebyte, src[i])) charcopy(dest, &destlen, destsize, src[i]); else if (inset(lower, src[i])) charcopy(dest, &destlen, destsize, src[i] + 32); else escape3(dest, &destlen, destsize, src[i]); } return destlen; } PyObject *lowerencode(PyObject *self, PyObject *args) { char *path; Py_ssize_t len, newlen; PyObject *ret; if (!PyArg_ParseTuple(args, "s#:lowerencode", &path, &len)) return NULL; newlen = _lowerencode(NULL, 0, path, len); ret = PyBytes_FromStringAndSize(NULL, newlen); if (ret) _lowerencode(PyBytes_AS_STRING(ret), newlen, path, len); return ret; } /* See store.py:_auxencode for a description. */ static Py_ssize_t auxencode(char *dest, size_t destsize, const char *src, Py_ssize_t len) { static const uint32_t twobytes[8]; static const uint32_t onebyte[8] = { ~0U, 0xffff3ffe, ~0U, ~0U, ~0U, ~0U, ~0U, ~0U, }; return _encode(twobytes, onebyte, dest, 0, destsize, src, len, 0); } static PyObject *hashmangle(const char *src, Py_ssize_t len, const char sha[20]) { static const Py_ssize_t dirprefixlen = 8; static const Py_ssize_t maxshortdirslen = 68; char *dest; PyObject *ret; Py_ssize_t i, d, p, lastslash = len - 1, lastdot = -1; Py_ssize_t destsize, destlen = 0, slop, used; while (lastslash >= 0 && src[lastslash] != '/') { if (src[lastslash] == '.' && lastdot == -1) lastdot = lastslash; lastslash--; } #if 0 /* All paths should end in a suffix of ".i" or ".d". Unfortunately, the file names in test-hybridencode.py violate this rule. */ if (lastdot != len - 3) { PyErr_SetString(PyExc_ValueError, "suffix missing or wrong length"); return NULL; } #endif /* If src contains a suffix, we will append it to the end of the new string, so make room. */ destsize = 120; if (lastdot >= 0) destsize += len - lastdot - 1; ret = PyBytes_FromStringAndSize(NULL, destsize); if (ret == NULL) return NULL; dest = PyBytes_AS_STRING(ret); memcopy(dest, &destlen, destsize, "dh/", 3); /* Copy up to dirprefixlen bytes of each path component, up to a limit of maxshortdirslen bytes. */ for (i = d = p = 0; i < lastslash; i++, p++) { if (src[i] == '/') { char d = dest[destlen - 1]; /* After truncation, a directory name may end in a space or dot, which are unportable. */ if (d == '.' || d == ' ') dest[destlen - 1] = '_'; /* The + 3 is to account for "dh/" in the beginning */ if (destlen > maxshortdirslen + 3) break; charcopy(dest, &destlen, destsize, src[i]); p = -1; } else if (p < dirprefixlen) charcopy(dest, &destlen, destsize, src[i]); } /* Rewind to just before the last slash copied. */ if (destlen > maxshortdirslen + 3) do { destlen--; } while (destlen > 0 && dest[destlen] != '/'); if (destlen > 3) { if (lastslash > 0) { char d = dest[destlen - 1]; /* The last directory component may be truncated, so make it safe. */ if (d == '.' || d == ' ') dest[destlen - 1] = '_'; } charcopy(dest, &destlen, destsize, '/'); } /* Add a prefix of the original file's name. Its length depends on the number of bytes left after accounting for hash and suffix. */ used = destlen + 40; if (lastdot >= 0) used += len - lastdot - 1; slop = maxstorepathlen - used; if (slop > 0) { Py_ssize_t basenamelen = lastslash >= 0 ? len - lastslash - 2 : len - 1; if (basenamelen > slop) basenamelen = slop; if (basenamelen > 0) memcopy(dest, &destlen, destsize, &src[lastslash + 1], basenamelen); } /* Add hash and suffix. */ for (i = 0; i < 20; i++) hexencode(dest, &destlen, destsize, sha[i]); if (lastdot >= 0) memcopy(dest, &destlen, destsize, &src[lastdot], len - lastdot - 1); assert(PyBytes_Check(ret)); Py_SIZE(ret) = destlen; return ret; } /* * Avoiding a trip through Python would improve performance by 50%, * but we don't encounter enough long names to be worth the code. */ static int sha1hash(char hash[20], const char *str, Py_ssize_t len) { static PyObject *shafunc; PyObject *shaobj, *hashobj; if (shafunc == NULL) { PyObject *hashlib, *name = PyBytes_FromString("hashlib"); if (name == NULL) return -1; hashlib = PyImport_Import(name); Py_DECREF(name); if (hashlib == NULL) { PyErr_SetString(PyExc_ImportError, "hashlib"); return -1; } shafunc = PyObject_GetAttrString(hashlib, "sha1"); Py_DECREF(hashlib); if (shafunc == NULL) { PyErr_SetString(PyExc_AttributeError, "module 'hashlib' has no " "attribute 'sha1'"); return -1; } } shaobj = PyObject_CallFunction(shafunc, "s#", str, len); if (shaobj == NULL) return -1; hashobj = PyObject_CallMethod(shaobj, "digest", ""); Py_DECREF(shaobj); if (hashobj == NULL) return -1; if (!PyBytes_Check(hashobj) || PyBytes_GET_SIZE(hashobj) != 20) { PyErr_SetString(PyExc_TypeError, "result of digest is not a 20-byte hash"); Py_DECREF(hashobj); return -1; } memcpy(hash, PyBytes_AS_STRING(hashobj), 20); Py_DECREF(hashobj); return 0; } #define MAXENCODE 4096 * 4 static PyObject *hashencode(const char *src, Py_ssize_t len) { char dired[MAXENCODE]; char lowered[MAXENCODE]; char auxed[MAXENCODE]; Py_ssize_t dirlen, lowerlen, auxlen, baselen; char sha[20]; baselen = (len - 5) * 3; if (baselen >= MAXENCODE) { PyErr_SetString(PyExc_ValueError, "string too long"); return NULL; } dirlen = _encodedir(dired, baselen, src, len); if (sha1hash(sha, dired, dirlen - 1) == -1) return NULL; lowerlen = _lowerencode(lowered, baselen, dired + 5, dirlen - 5); auxlen = auxencode(auxed, baselen, lowered, lowerlen); return hashmangle(auxed, auxlen, sha); } PyObject *pathencode(PyObject *self, PyObject *args) { Py_ssize_t len, newlen; PyObject *pathobj, *newobj; char *path; if (!PyArg_ParseTuple(args, "O:pathencode", &pathobj)) return NULL; if (PyBytes_AsStringAndSize(pathobj, &path, &len) == -1) { PyErr_SetString(PyExc_TypeError, "expected a string"); return NULL; } if (len > maxstorepathlen) newlen = maxstorepathlen + 2; else newlen = len ? basicencode(NULL, 0, path, len + 1) : 1; if (newlen <= maxstorepathlen + 1) { if (newlen == len + 1) { Py_INCREF(pathobj); return pathobj; } newobj = PyBytes_FromStringAndSize(NULL, newlen); if (newobj) { assert(PyBytes_Check(newobj)); Py_SIZE(newobj)--; basicencode(PyBytes_AS_STRING(newobj), newlen, path, len + 1); } } else newobj = hashencode(path, len + 1); return newobj; }