/* * Copyright (c) 1997,2007-8 Andrew G. Morgan <morgan@kernel.org> * * This sets/verifies the capabilities of a given file. */ #include <errno.h> #include <stdio.h> #include <string.h> #include <stdlib.h> #include <sys/capability.h> #include <unistd.h> static void usage(void) { fprintf(stderr, "usage: setcap [-q] [-v] (-r|-|<caps>) <filename> " "[ ... (-r|-|<capsN>) <filenameN> ]\n" "\n" " Note <filename> must be a regular (non-symlink) file.\n" ); exit(1); } #define MAXCAP 2048 static int read_caps(int quiet, const char *filename, char *buffer) { int i = MAXCAP; if (!quiet) { fprintf(stderr, "Please enter caps for file [empty line to end]:\n"); } while (i > 0) { int j = read(STDIN_FILENO, buffer, i); if (j < 0) { fprintf(stderr, "\n[Error - aborting]\n"); exit(1); } if (j==0 || buffer[0] == '\n') { /* we're done */ break; } /* move on... */ i -= j; buffer += j; } /* <NUL> terminate */ buffer[0] = '\0'; return (i < MAXCAP ? 0:-1); } int main(int argc, char **argv) { int tried_to_cap_setfcap = 0; char buffer[MAXCAP+1]; int retval, quiet=0, verify=0; cap_t mycaps; cap_value_t capflag; if (argc < 3) { usage(); } mycaps = cap_get_proc(); if (mycaps == NULL) { fprintf(stderr, "warning - unable to get process capabilities" " (old libcap?)\n"); } while (--argc > 0) { const char *text; cap_t cap_d; if (!strcmp(*++argv, "-q")) { quiet = 1; continue; } if (!strcmp(*argv, "-v")) { verify = 1; continue; } if (!strcmp(*argv, "-r")) { cap_d = NULL; } else { if (!strcmp(*argv,"-")) { retval = read_caps(quiet, *argv, buffer); if (retval) usage(); text = buffer; } else { text = *argv; } cap_d = cap_from_text(text); if (cap_d == NULL) { perror("fatal error"); usage(); } #ifdef DEBUG { ssize_t length; const char *result; result = cap_to_text(cap_d, &length); fprintf(stderr, "caps set to: [%s]\n", result); } #endif } if (--argc <= 0) usage(); /* * Set the filesystem capability for this file. */ if (verify) { cap_t cap_on_file; int cmp; if (cap_d == NULL) { cap_d = cap_from_text("="); } cap_on_file = cap_get_file(*++argv); if (cap_on_file == NULL) { cap_on_file = cap_from_text("="); } cmp = cap_compare(cap_on_file, cap_d); cap_free(cap_on_file); if (cmp != 0) { if (!quiet) { printf("%s differs in [%s%s%s]\n", *argv, CAP_DIFFERS(cmp, CAP_PERMITTED) ? "p" : "", CAP_DIFFERS(cmp, CAP_INHERITABLE) ? "i" : "", CAP_DIFFERS(cmp, CAP_EFFECTIVE) ? "e" : ""); } exit(1); } if (!quiet) { printf("%s: OK\n", *argv); } } else { if (!tried_to_cap_setfcap) { capflag = CAP_SETFCAP; /* * Raise the effective CAP_SETFCAP. */ if (cap_set_flag(mycaps, CAP_EFFECTIVE, 1, &capflag, CAP_SET) != 0) { perror("unable to manipulate CAP_SETFCAP - " "try a newer libcap?"); exit(1); } if (cap_set_proc(mycaps) != 0) { perror("unable to set CAP_SETFCAP effective capability"); exit(1); } tried_to_cap_setfcap = 1; } retval = cap_set_file(*++argv, cap_d); if (retval != 0) { int explained = 0; int oerrno = errno; #ifdef linux cap_value_t cap; cap_flag_value_t per_state; for (cap = 0; cap_get_flag(cap_d, cap, CAP_PERMITTED, &per_state) != -1; cap++) { cap_flag_value_t inh_state, eff_state; cap_get_flag(cap_d, cap, CAP_INHERITABLE, &inh_state); cap_get_flag(cap_d, cap, CAP_EFFECTIVE, &eff_state); if ((inh_state | per_state) != eff_state) { fprintf(stderr, "NOTE: Under Linux, effective file capabilities must either be empty, or\n" " exactly match the union of selected permitted and inheritable bits.\n"); explained = 1; break; } } #endif /* def linux */ fprintf(stderr, "Failed to set capabilities on file `%s' (%s)\n", argv[0], strerror(oerrno)); if (!explained) { usage(); } } } if (cap_d) { cap_free(cap_d); } } exit(0); }