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/*
* Copyright 2005-2019 Gentoo Foundation
* Distributed under the terms of the GNU General Public License v2
*
* Copyright 2005-2010 Ned Ludd - <solar@gentoo.org>
* Copyright 2005-2014 Mike Frysinger - <vapier@gentoo.org>
* Copyright 2018- Fabian Groffen - <grobian@gentoo.org>
*/
#include "main.h"
#include "applets.h"
#include <sys/types.h>
#include <inttypes.h>
#include <sys/stat.h>
#include <fcntl.h>
#include "atom.h"
#include "contents.h"
#include "md5_sha1_sum.h"
#include "prelink.h"
#include "set.h"
#include "vdb.h"
#include "xarray.h"
#include "xasprintf.h"
#include "xregex.h"
#define QCHECK_FLAGS "s:uABHTPp" COMMON_FLAGS
static struct option const qcheck_long_opts[] = {
{"skip", a_argument, NULL, 's'},
{"update", no_argument, NULL, 'u'},
{"noafk", no_argument, NULL, 'A'},
{"badonly", no_argument, NULL, 'B'},
{"nohash", no_argument, NULL, 'H'},
{"nomtime", no_argument, NULL, 'T'},
{"skip-protected", no_argument, NULL, 'P'},
{"prelink", no_argument, NULL, 'p'},
COMMON_LONG_OPTS
};
static const char * const qcheck_opts_help[] = {
"Ignore files matching the regular expression <arg>",
"Update missing files, chksum and mtimes for packages",
"Ignore missing files",
"Only print pkgs containing bad files",
"Ignore differing/unknown file chksums",
"Ignore differing file mtimes",
"Ignore files in CONFIG_PROTECT-ed paths",
"Undo prelink when calculating checksums",
COMMON_OPTS_HELP
};
#define qcheck_usage(ret) usage(ret, QCHECK_FLAGS, qcheck_long_opts, qcheck_opts_help, NULL, lookup_applet_idx("qcheck"))
#define qcprintf(fmt, args...) do { if (!state->bad_only) printf(_(fmt), ## args); } while (0)
struct qcheck_opt_state {
array_t *atoms;
array_t *regex_arr;
bool bad_only;
bool qc_update;
bool chk_afk;
bool chk_hash;
bool chk_mtime;
bool chk_config_protect;
bool undo_prelink;
};
static int
qcheck_process_contents(vdb_pkg_ctx *pkg_ctx, struct qcheck_opt_state *state)
{
int fd_contents;
FILE *fp_contents, *fp_contents_update;
const char *catname = pkg_ctx->cat_ctx->name;
const char *pkgname = pkg_ctx->name;
size_t num_files, num_files_ok, num_files_unknown, num_files_ignored;
char *buffer, *line;
size_t linelen;
struct stat st, cst;
int cp_argc, cpm_argc;
char **cp_argv, **cpm_argv;
fp_contents_update = NULL;
/* Open contents */
fd_contents = vdb_pkg_openat(pkg_ctx, "CONTENTS", O_RDONLY|O_CLOEXEC, 0);
if (fd_contents == -1)
return EXIT_SUCCESS;
if (fstat(fd_contents, &cst)) {
close(fd_contents);
return EXIT_SUCCESS;
}
if ((fp_contents = fdopen(fd_contents, "r")) == NULL) {
close(fd_contents);
return EXIT_SUCCESS;
}
/* Open contents_update, if needed */
num_files = num_files_ok = num_files_unknown = num_files_ignored = 0;
qcprintf("%sing %s%s/%s%s ...\n",
(state->qc_update ? "Updat" : "Check"),
GREEN, catname, pkgname, NORM);
if (state->qc_update) {
fp_contents_update = vdb_pkg_fopenat_rw(pkg_ctx, "CONTENTS~");
if (fp_contents_update == NULL) {
fclose(fp_contents);
warnp("unable to fopen(%s/%s, w)", pkgname, "CONTENTS~");
return EXIT_FAILURE;
}
}
if (!state->chk_config_protect) {
makeargv(config_protect, &cp_argc, &cp_argv);
makeargv(config_protect_mask, &cpm_argc, &cpm_argv);
}
buffer = line = NULL;
while (getline(&line, &linelen, fp_contents) != -1) {
contents_entry *entry;
free(buffer);
buffer = xstrdup(line);
entry = contents_parse_line(line);
if (!entry)
continue;
/* run initial checks */
++num_files;
if (array_cnt(state->regex_arr)) {
size_t n;
regex_t *regex;
array_for_each(state->regex_arr, n, regex)
if (!regexec(regex, entry->name, 0, NULL, 0))
break;
if (n < array_cnt(state->regex_arr)) {
--num_files;
++num_files_ignored;
continue;
}
}
if (fstatat(pkg_ctx->cat_ctx->ctx->portroot_fd, entry->name + 1,
&st, AT_SYMLINK_NOFOLLOW))
{
/* make sure file exists */
if (state->chk_afk) {
if (errno == ENOENT)
qcprintf(" %sAFK%s: %s\n", RED, NORM, entry->name);
else
qcprintf(" %sERROR (%s)%s: %s\n", RED,
strerror(errno), NORM, entry->name);
} else {
--num_files;
++num_files_ignored;
if (state->qc_update)
fputs(buffer, fp_contents_update);
}
continue;
}
/* Handle CONFIG_PROTECT-ed files */
if (!state->chk_config_protect) {
int i;
/* If in CONFIG_PROTECT_MASK, handle like normal */
for (i = 1; i < cpm_argc; ++i)
if (strncmp(cpm_argv[i], entry->name, strlen(cpm_argv[i])) == 0)
break;
if (i == cpm_argc) {
/* Not explicitly masked, so it's protected */
for (i = 1; i < cp_argc; ++i)
if (strncmp(cp_argv[i], entry->name,
strlen(cp_argv[i])) == 0)
{
num_files_ok++;
continue;
}
}
}
/* For certain combinations of flags and filetypes, a file
* won't get checks and should be ignored */
if (!state->chk_mtime && entry->type == CONTENTS_SYM) {
--num_files;
++num_files_ignored;
if (state->qc_update)
fputs(buffer, fp_contents_update);
continue;
}
/* Digest checks only work on regular files
* Note: We don't check for state->chk_hash when entering
* but rather in digest-check #3, because we only succeed
* tests/qcheck/list04.good if when chk_hash is false, we
* do check hashes, but only print mismatched digests as
* 'ignored file'. */
if (entry->digest && S_ISREG(st.st_mode)) {
/* Validate digest (handles MD5 / SHA1)
* Digest-check 1/3:
* Should we check digests? */
char *f_digest;
uint8_t hash_algo;
switch (strlen(entry->digest)) {
case 32: hash_algo = HASH_MD5; break;
case 40: hash_algo = HASH_SHA1; break;
default: hash_algo = 0; break;
}
if (!hash_algo) {
if (state->chk_hash) {
qcprintf(" %sUNKNOWN DIGEST%s: '%s' for '%s'\n",
RED, NORM, entry->digest, entry->name);
++num_files_unknown;
} else {
--num_files;
++num_files_ignored;
if (state->qc_update)
fputs(buffer, fp_contents_update);
}
continue;
}
hash_cb_t hash_cb =
state->undo_prelink ? hash_cb_prelink_undo : hash_cb_default;
f_digest = (char *)hash_file_at_cb(
pkg_ctx->cat_ctx->ctx->portroot_fd,
entry->name + 1, hash_algo, hash_cb);
/* Digest-check 2/3:
* Can we get a digest of the file? */
if (!f_digest) {
++num_files_unknown;
free(f_digest);
if (state->qc_update)
fputs(buffer, fp_contents_update);
if (verbose)
qcprintf(" %sPERM %4o%s: %s\n",
RED, (unsigned int)(st.st_mode & 07777),
NORM, entry->name);
continue;
}
/* Digest-check 3/3:
* Does the digest equal what portage recorded? */
if (strcmp(entry->digest, f_digest) != 0) {
if (state->chk_hash) {
if (state->qc_update)
fprintf(fp_contents_update, "obj %s %s %"PRIu64"\n",
entry->name, f_digest, (uint64_t)st.st_mtime);
const char *digest_disp;
switch (hash_algo) {
case HASH_MD5: digest_disp = "MD5"; break;
case HASH_SHA1: digest_disp = "SHA1"; break;
default: digest_disp = "UNK"; break;
}
qcprintf(" %s%s-DIGEST%s: %s",
RED, digest_disp, NORM, entry->name);
if (verbose)
qcprintf(" (recorded '%s' != actual '%s')",
entry->digest, f_digest);
qcprintf("\n");
} else {
--num_files;
++num_files_ignored;
if (state->qc_update)
fputs(buffer, fp_contents_update);
}
free(f_digest);
continue;
}
free(f_digest);
}
/* Validate mtimes */
if (state->chk_mtime && entry->mtime && entry->mtime != st.st_mtime) {
qcprintf(" %sMTIME%s: %s", RED, NORM, entry->name);
if (verbose)
qcprintf(" (recorded '%"PRIu64"' != actual '%"PRIu64"')",
(uint64_t)entry->mtime, (uint64_t)st.st_mtime);
qcprintf("\n");
/* Update mtime */
if (state->qc_update) {
if (entry->type == CONTENTS_SYM) {
fprintf(fp_contents_update, "sym %s -> %s %"PRIu64"\n",
entry->name, entry->sym_target,
(uint64_t)st.st_mtime);
} else {
fprintf(fp_contents_update, "obj %s %s %"PRIu64"\n",
entry->name, entry->digest, (uint64_t)st.st_mtime);
}
}
continue;
}
/* Success! */
if (state->qc_update)
fputs(buffer, fp_contents_update);
num_files_ok++;
}
free(line);
free(buffer);
fclose(fp_contents);
if (!state->chk_config_protect) {
freeargv(cp_argc, cp_argv);
freeargv(cpm_argc, cpm_argv);
}
if (state->qc_update) {
if (fchown(fd_contents, cst.st_uid, cst.st_gid)) {
/* meh */;
}
if (fchmod(fd_contents, cst.st_mode)) {
/* meh */;
}
fclose(fp_contents_update);
if (renameat(pkg_ctx->fd, "CONTENTS~", pkg_ctx->fd, "CONTENTS"))
unlinkat(pkg_ctx->fd, "CONTENTS~", 0);
if (!verbose)
return EXIT_SUCCESS;
}
if (state->bad_only && num_files_ok != num_files) {
if (verbose)
printf("%s/%s\n", catname, pkgname);
else {
depend_atom *atom = NULL;
char *buf;
xasprintf(&buf, "%s/%s", catname, pkgname);
if ((atom = atom_explode(buf)) != NULL) {
printf("%s/%s\n", catname, atom->PN);
atom_implode(atom);
} else {
printf("%s/%s\n", catname, pkgname);
}
free(buf);
}
}
qcprintf(" %2$s*%1$s %3$s%4$zu%1$s out of %3$s%5$zu%1$s file%6$s are good",
NORM, BOLD, BLUE, num_files_ok, num_files,
(num_files > 1 ? "s" : ""));
if (num_files_unknown)
qcprintf(" (Unable to digest %2$s%3$zu%1$s file%4$s)",
NORM, BLUE, num_files_unknown,
(num_files_unknown > 1 ? "s" : ""));
if (num_files_ignored)
qcprintf(" (%2$s%3$zu%1$s file%4$s ignored)",
NORM, BLUE, num_files_ignored,
(num_files_ignored > 1 ? "s were" : " was"));
qcprintf("\n");
if (num_files_ok != num_files)
return EXIT_FAILURE;
else
return EXIT_SUCCESS;
}
static int
qcheck_cb(vdb_pkg_ctx *pkg_ctx, void *priv)
{
struct qcheck_opt_state *state = priv;
const char *catname = pkg_ctx->cat_ctx->name;
const char *pkgname = pkg_ctx->name;
bool showit = false;
/* see if this cat/pkg is requested */
if (array_cnt(state->atoms)) {
char *buf;
size_t i;
depend_atom *qatom, *atom;
xasprintf(&buf, "%s/%s", catname, pkgname);
qatom = atom_explode(buf);
array_for_each(state->atoms, i, atom)
if (atom_compare(atom, qatom) == EQUAL) {
showit = true;
break;
}
atom_implode(qatom);
free(buf);
} else
showit = true;
return showit ? qcheck_process_contents(pkg_ctx, priv) : 0;
}
int qcheck_main(int argc, char **argv)
{
size_t i;
int ret;
DECLARE_ARRAY(regex_arr);
depend_atom *atom;
DECLARE_ARRAY(atoms);
struct qcheck_opt_state state = {
.atoms = atoms,
.regex_arr = regex_arr,
.bad_only = false,
.qc_update = false,
.chk_afk = true,
.chk_hash = true,
.chk_mtime = true,
.chk_config_protect = true,
.undo_prelink = false,
};
while ((ret = GETOPT_LONG(QCHECK, qcheck, "")) != -1) {
switch (ret) {
COMMON_GETOPTS_CASES(qcheck)
case 's': {
regex_t regex;
xregcomp(®ex, optarg, REG_EXTENDED|REG_NOSUB);
xarraypush(regex_arr, ®ex, sizeof(regex));
break;
}
case 'u': state.qc_update = true; break;
case 'A': state.chk_afk = false; break;
case 'B': state.bad_only = true; break;
case 'H': state.chk_hash = false; break;
case 'T': state.chk_mtime = false; break;
case 'P': state.chk_config_protect = false; break;
case 'p': state.undo_prelink = prelink_available(); break;
}
}
argc -= optind;
argv += optind;
for (i = 0; i < (size_t)argc; ++i) {
atom = atom_explode(argv[i]);
if (!atom)
warn("invalid atom: %s", argv[i]);
else
xarraypush_ptr(atoms, atom);
}
ret = vdb_foreach_pkg_sorted(portroot, portvdb, qcheck_cb, &state);
{
void *regex;
array_for_each(regex_arr, i, regex)
regfree(regex);
}
xarrayfree(regex_arr);
array_for_each(atoms, i, atom)
atom_implode(atom);
xarrayfree_int(atoms);
return ret;
}
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