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deps.c
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deps.c
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#include <ctype.h>
#include <errno.h>
#include <inttypes.h>
#include <stdbool.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "build.h"
#include "deps.h"
#include "env.h"
#include "graph.h"
#include "util.h"
/*
.ninja_deps file format
The header identifying the format is the string "# ninjadeps\n", followed by a
4-byte integer specifying the format version. After this is a series of binary
records. All integers in .ninja_deps are written in system byte-order.
A record starts with a 4-byte integer indicating the record type and size. If
the high bit is set, then it is a dependency record. Otherwise, it is a node
record. In either case, the remaining 31 bits specify the size in bytes of the
rest of the record. The size must be a multiple of 4, and no larger than than
2^19.
Node records are given in incrementing ID order, and must be given before any
dependency record that refers to it. The last 4-byte integer in the record is
used as a checksum to prevent corruption. Counting from 0, the n-th node record
(specifying the node with ID n) will have a checksum of ~n (bitwise negation of
n). The remaining bytes of the record specify the path of the node, padded with
NUL bytes to the next 4-byte boundary (start of the checksum value).
A dependency record contains a list of dependencies for the edge that built a
particular node. The first 4-byte integer is the node ID. The second and third
4-byte integers are the low and high 32-bits of the UNIX mtime (in nanoseconds)
of the node when it was built. Following this is a sequence of 4-byte integers
specifying the IDs of the dependency nodes for this edge, which will have been
specified previously in node records.
*/
/* maximum record size (in bytes) */
#define MAX_RECORD_SIZE (1 << 19)
struct nodearray {
struct node **node;
size_t len;
};
struct entry {
struct node *node;
struct nodearray deps;
int64_t mtime;
};
static const char depsname[] = ".ninja_deps";
static const char depstmpname[] = ".ninja_deps.tmp";
static const char depsheader[] = "# ninjadeps\n";
static const uint32_t depsver = 4;
static FILE *depsfile;
static struct entry *entries;
static size_t entrieslen, entriescap;
static void
depswrite(const void *p, size_t n, size_t m)
{
if (fwrite(p, n, m, depsfile) != m)
fatal("deps log write:");
}
static bool
recordid(struct node *n)
{
uint32_t sz, chk;
if (n->id != -1)
return false;
if (entrieslen == INT32_MAX)
fatal("too many nodes");
n->id = entrieslen++;
sz = (n->path->n + 7) & ~3;
if (sz + 4 >= MAX_RECORD_SIZE)
fatal("ID record too large");
depswrite(&sz, 4, 1);
depswrite(n->path->s, 1, n->path->n);
depswrite((char[4]){0}, 1, sz - n->path->n - 4);
chk = ~n->id;
depswrite(&chk, 4, 1);
return true;
}
static void
recorddeps(struct node *out, struct nodearray *deps, int64_t mtime)
{
uint32_t sz, m;
size_t i;
sz = 12 + deps->len * 4;
if (sz + 4 >= MAX_RECORD_SIZE)
fatal("deps record too large");
sz |= 0x80000000;
depswrite(&sz, 4, 1);
depswrite(&out->id, 4, 1);
m = mtime & 0xffffffff;
depswrite(&m, 4, 1);
m = (mtime >> 32) & 0xffffffff;
depswrite(&m, 4, 1);
for (i = 0; i < deps->len; ++i)
depswrite(&deps->node[i]->id, 4, 1);
}
void
depsinit(const char *builddir)
{
char *depspath = (char *)depsname, *depstmppath = (char *)depstmpname;
uint32_t *buf, cap, ver, sz, id;
size_t len, i, j, nrecord;
bool isdep;
struct string *path;
struct node *n;
struct edge *e;
struct entry *entry, *oldentries;
/* XXX: when ninja hits a bad record, it truncates the log to the last
* good record. perhaps we should do the same. */
if (depsfile)
fclose(depsfile);
entrieslen = 0;
cap = BUFSIZ;
buf = xmalloc(cap);
if (builddir)
xasprintf(&depspath, "%s/%s", builddir, depsname);
depsfile = fopen(depspath, "r+");
if (!depsfile) {
if (errno != ENOENT)
fatal("open %s:", depspath);
goto rewrite;
}
if (!fgets((char *)buf, sizeof(depsheader), depsfile))
goto rewrite;
if (strcmp((char *)buf, depsheader) != 0) {
warn("invalid deps log header");
goto rewrite;
}
if (fread(&ver, sizeof(ver), 1, depsfile) != 1) {
warn(ferror(depsfile) ? "deps log read:" : "deps log truncated");
goto rewrite;
}
if (ver != depsver) {
warn("unknown deps log version");
goto rewrite;
}
for (nrecord = 0;; ++nrecord) {
if (fread(&sz, sizeof(sz), 1, depsfile) != 1)
break;
isdep = sz & 0x80000000;
sz &= 0x7fffffff;
if (sz > MAX_RECORD_SIZE) {
warn("deps record too large");
goto rewrite;
}
if (sz > cap) {
do cap *= 2;
while (sz > cap);
free(buf);
buf = xmalloc(cap);
}
if (fread(buf, sz, 1, depsfile) != 1) {
warn(ferror(depsfile) ? "deps log read:" : "deps log truncated");
goto rewrite;
}
if (sz % 4) {
warn("invalid size, must be multiple of 4: %" PRIu32, sz);
goto rewrite;
}
if (isdep) {
if (sz < 12) {
warn("invalid size, must be at least 12: %" PRIu32, sz);
goto rewrite;
}
sz -= 12;
id = buf[0];
if (id >= entrieslen) {
warn("invalid node ID: %" PRIu32, id);
goto rewrite;
}
entry = &entries[id];
entry->mtime = (int64_t)buf[2] << 32 | buf[1];
e = entry->node->gen;
if (!e || !edgevar(e, "deps", true))
continue;
sz /= 4;
free(entry->deps.node);
entry->deps.len = sz;
entry->deps.node = xreallocarray(NULL, sz, sizeof(n));
for (i = 0; i < sz; ++i) {
id = buf[3 + i];
if (id >= entrieslen) {
warn("invalid node ID: %" PRIu32, id);
goto rewrite;
}
entry->deps.node[i] = entries[id].node;
}
} else {
if (sz <= 4) {
warn("invalid size, must be greater than 4: %" PRIu32, sz);
goto rewrite;
}
if (entrieslen != ~buf[sz / 4 - 1]) {
warn("corrupt deps log, bad checksum");
goto rewrite;
}
if (entrieslen == INT32_MAX) {
warn("too many nodes in deps log");
goto rewrite;
}
len = sz - 4;
while (((char *)buf)[len - 1] == '\0')
--len;
path = mkstr(len);
memcpy(path->s, buf, len);
path->s[len] = '\0';
n = mknode(path);
if (entrieslen >= entriescap) {
entriescap = entriescap ? entriescap * 2 : 1024;
entries = xreallocarray(entries, entriescap, sizeof(entries[0]));
}
n->id = entrieslen;
entries[entrieslen++] = (struct entry){.node = n};
}
}
if (ferror(depsfile)) {
warn("deps log read:");
goto rewrite;
}
if (nrecord <= 1000 || nrecord < 3 * entrieslen) {
if (builddir)
free(depspath);
free(buf);
return;
}
rewrite:
free(buf);
if (depsfile)
fclose(depsfile);
if (builddir)
xasprintf(&depstmppath, "%s/%s", builddir, depstmpname);
depsfile = fopen(depstmppath, "w");
if (!depsfile)
fatal("open %s:", depstmppath);
depswrite(depsheader, 1, sizeof(depsheader) - 1);
depswrite(&depsver, 1, sizeof(depsver));
/* reset ID for all current entries */
for (i = 0; i < entrieslen; ++i)
entries[i].node->id = -1;
/* save a temporary copy of the old entries */
oldentries = xreallocarray(NULL, entrieslen, sizeof(entries[0]));
memcpy(oldentries, entries, entrieslen * sizeof(entries[0]));
len = entrieslen;
entrieslen = 0;
for (i = 0; i < len; ++i) {
entry = &oldentries[i];
if (!entry->deps.len)
continue;
recordid(entry->node);
entries[entry->node->id] = *entry;
for (j = 0; j < entry->deps.len; ++j)
recordid(entry->deps.node[j]);
recorddeps(entry->node, &entry->deps, entry->mtime);
}
free(oldentries);
fflush(depsfile);
if (ferror(depsfile))
fatal("deps log write failed");
if (rename(depstmppath, depspath) < 0)
fatal("deps log rename:");
if (builddir) {
free(depstmppath);
free(depspath);
}
}
void
depsclose(void)
{
fflush(depsfile);
if (ferror(depsfile))
fatal("deps log write failed");
fclose(depsfile);
}
static struct nodearray *
depsparse(const char *name, bool allowmissing)
{
static struct buffer buf;
static struct nodearray deps;
static size_t depscap;
struct string *in, *out = NULL;
FILE *f;
int c, n;
bool sawcolon;
deps.len = 0;
f = fopen(name, "r");
if (!f) {
if (errno == ENOENT && allowmissing)
return &deps;
return NULL;
}
sawcolon = false;
buf.len = 0;
c = getc(f);
for (;;) {
/* TODO: this parser needs to be rewritten to be made simpler */
while (isalnum(c) || strchr("$+,-./@\\_", c)) {
switch (c) {
case '\\':
/* handle the crazy escaping generated by clang and gcc */
n = 0;
do {
c = getc(f);
if (++n % 2 == 0)
bufadd(&buf, '\\');
} while (c == '\\');
switch (c) {
case '#':
/* assume no comments */
for (; n > 2; n -= 2)
bufadd(&buf, '\\');
break;
case ' ':
case '\t':
if (n % 2 != 0)
break;
/* fallthrough */
default:
for (; n > 0; n -= 2)
bufadd(&buf, '\\');
continue;
}
break;
case '$':
c = getc(f);
if (c != '$') {
warn("bad depfile: contains variable reference");
goto err;
}
break;
}
bufadd(&buf, c);
c = getc(f);
}
if (sawcolon) {
if (!isspace(c) && c != EOF) {
warn("bad depfile: '%c' is not a valid target character", c);
goto err;
}
if (buf.len > 0) {
if (deps.len == depscap) {
depscap = deps.node ? depscap * 2 : 32;
deps.node = xreallocarray(deps.node, depscap, sizeof(deps.node[0]));
}
in = mkstr(buf.len);
memcpy(in->s, buf.data, buf.len);
in->s[buf.len] = '\0';
deps.node[deps.len++] = mknode(in);
}
if (c == '\n') {
sawcolon = false;
do c = getc(f);
while (c == '\n');
}
if (c == EOF)
break;
} else {
while (isblank(c))
c = getc(f);
if (c == EOF)
break;
if (c != ':') {
warn("bad depfile: expected ':', saw '%c'", c);
goto err;
}
if (!out) {
out = mkstr(buf.len);
memcpy(out->s, buf.data, buf.len);
out->s[buf.len] = '\0';
} else if (out->n != buf.len || memcmp(buf.data, out->s, buf.len) != 0) {
warn("bad depfile: multiple outputs: %.*s != %s", (int)buf.len, buf.data, out->s);
goto err;
}
sawcolon = true;
c = getc(f);
}
buf.len = 0;
for (;;) {
if (c == '\\') {
if (getc(f) != '\n') {
warn("bad depfile: '\\' only allowed before newline");
goto err;
}
} else if (!isblank(c)) {
break;
}
c = getc(f);
}
}
if (ferror(f)) {
warn("depfile read:");
goto err;
}
fclose(f);
return &deps;
err:
fclose(f);
return NULL;
}
void
depsload(struct edge *e)
{
struct string *deptype, *depfile;
struct nodearray *deps = NULL;
struct node *n;
if (e->flags & FLAG_DEPS)
return;
e->flags |= FLAG_DEPS;
n = e->out[0];
deptype = edgevar(e, "deps", true);
if (deptype) {
if (n->id != -1 && n->mtime <= entries[n->id].mtime)
deps = &entries[n->id].deps;
else if (buildopts.explain)
warn("explain %s: missing or outdated record in .ninja_deps", n->path->s);
} else {
depfile = edgevar(e, "depfile", false);
if (!depfile)
return;
deps = depsparse(depfile->s, false);
if (buildopts.explain && !deps)
warn("explain %s: missing or invalid depfile", n->path->s);
}
if (deps) {
edgeadddeps(e, deps->node, deps->len);
} else {
n->dirty = true;
e->flags |= FLAG_DIRTY_OUT;
}
}
void
depsrecord(struct edge *e)
{
struct string *deptype, *depfile;
struct nodearray *deps;
struct node *out, *n;
struct entry *entry;
size_t i;
bool update;
deptype = edgevar(e, "deps", true);
if (!deptype || deptype->n == 0)
return;
if (strcmp(deptype->s, "gcc") != 0) {
warn("unsuported deps type: %s", deptype->s);
return;
}
depfile = edgevar(e, "depfile", false);
if (!depfile || depfile->n == 0) {
warn("deps but no depfile");
return;
}
out = e->out[0];
deps = depsparse(depfile->s, true);
if (!buildopts.keepdepfile)
remove(depfile->s);
if (!deps)
return;
update = false;
entry = NULL;
if (recordid(out)) {
update = true;
} else {
entry = &entries[out->id];
if (entry->mtime != out->mtime || entry->deps.len != deps->len)
update = true;
for (i = 0; i < deps->len && !update; ++i) {
if (entry->deps.node[i] != deps->node[i])
update = true;
}
}
for (i = 0; i < deps->len; ++i) {
n = deps->node[i];
if (recordid(n))
update = true;
}
if (update) {
recorddeps(out, deps, out->mtime);
if (fflush(depsfile) < 0)
fatal("deps log flush:");
}
}