/* Generate buffers of random data. Copyright (C) 2006-2015 Free Software Foundation, Inc. This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ /* Written by Paul Eggert. */ /* FIXME: Improve performance by adding support for the RDRAND machine instruction if available (e.g., Ivy Bridge processors). */ #include #include "randread.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include "gettext.h" #define _(msgid) gettext (msgid) #include "rand-isaac.h" #include "stdio-safer.h" #include "unlocked-io.h" #include "xalloc.h" #ifndef __attribute__ # if __GNUC__ < 2 || (__GNUC__ == 2 && __GNUC_MINOR__ < 8) # define __attribute__(x) /* empty */ # endif #endif #ifndef ATTRIBUTE_NORETURN # define ATTRIBUTE_NORETURN __attribute__ ((__noreturn__)) #endif #ifndef MIN # define MIN(a, b) ((a) < (b) ? (a) : (b)) #endif #if _STRING_ARCH_unaligned # define ALIGNED_POINTER(ptr, type) true #else # define ALIGNED_POINTER(ptr, type) ((size_t) (ptr) % alignof (type) == 0) #endif #ifndef NAME_OF_NONCE_DEVICE # define NAME_OF_NONCE_DEVICE "/dev/urandom" #endif /* The maximum buffer size used for reads of random data. Using the value 2 * ISAAC_BYTES makes this the largest power of two that would not otherwise cause struct randread_source to grow. */ #define RANDREAD_BUFFER_SIZE (2 * ISAAC_BYTES) /* A source of random data for generating random buffers. */ struct randread_source { /* Stream to read random bytes from. If null, the current implementation uses an internal PRNG (ISAAC). */ FILE *source; /* Function to call, and its argument, if there is an input error or end of file when reading from the stream; errno is nonzero if there was an error. If this function returns, it should fix the problem before returning. The default handler assumes that handler_arg is the file name of the source. */ void (*handler) (void const *); void const *handler_arg; /* The buffer for SOURCE. It's kept here to simplify storage allocation and to make it easier to clear out buffered random data. */ union { /* The stream buffer, if SOURCE is not null. */ char c[RANDREAD_BUFFER_SIZE]; /* The buffered ISAAC pseudorandom buffer, if SOURCE is null. */ struct isaac { /* The number of bytes that are buffered at the end of data.b. */ size_t buffered; /* State of the ISAAC generator. */ struct isaac_state state; /* Up to a buffer's worth of pseudorandom data. */ union { isaac_word w[ISAAC_WORDS]; unsigned char b[ISAAC_BYTES]; } data; } isaac; } buf; }; /* The default error handler. */ static void ATTRIBUTE_NORETURN randread_error (void const *file_name) { if (file_name) error (exit_failure, errno, errno == 0 ? _("%s: end of file") : _("%s: read error"), quote (file_name)); abort (); } /* Simply return a new randread_source object with the default error handler. */ static struct randread_source * simple_new (FILE *source, void const *handler_arg) { struct randread_source *s = xmalloc (sizeof *s); s->source = source; s->handler = randread_error; s->handler_arg = handler_arg; return s; } /* Put a nonce value into BUFFER, with size BUFSIZE, but do not get more than BYTES_BOUND bytes' worth of random information from any nonce device. */ static void get_nonce (void *buffer, size_t bufsize, size_t bytes_bound) { char *buf = buffer; ssize_t seeded = 0; /* Get some data from FD if available. */ int fd = open (NAME_OF_NONCE_DEVICE, O_RDONLY | O_BINARY); if (0 <= fd) { seeded = read (fd, buf, MIN (bufsize, bytes_bound)); if (seeded < 0) seeded = 0; close (fd); } /* If there's no nonce device, use a poor approximation by getting the time of day, etc. */ #define ISAAC_SEED(type, initialize_v) \ if (seeded < bufsize) \ { \ type v; \ size_t nbytes = MIN (sizeof v, bufsize - seeded); \ initialize_v; \ memcpy (buf + seeded, &v, nbytes); \ seeded += nbytes; \ } ISAAC_SEED (struct timeval, gettimeofday (&v, NULL)); ISAAC_SEED (pid_t, v = getpid ()); ISAAC_SEED (pid_t, v = getppid ()); ISAAC_SEED (uid_t, v = getuid ()); ISAAC_SEED (uid_t, v = getgid ()); #ifdef lint /* Normally we like having the extra randomness from uninitialized parts of BUFFER. However, omit this randomness if we want to avoid false-positives from memory-checking debugging tools. */ memset (buf + seeded, 0, bufsize - seeded); #endif } /* Create and initialize a random data source from NAME, or use a reasonable default source if NAME is null. BYTES_BOUND is an upper bound on the number of bytes that will be needed. If zero, it is a hard bound; otherwise it is just an estimate. If NAME is not null, NAME is saved for use as the argument of the default handler. Unless a non-default handler is used, NAME's lifetime should be at least that of the returned value. Return NULL (setting errno) on failure. */ struct randread_source * randread_new (char const *name, size_t bytes_bound) { if (bytes_bound == 0) return simple_new (NULL, NULL); else { FILE *source = NULL; struct randread_source *s; if (name) if (! (source = fopen_safer (name, "rb"))) return NULL; s = simple_new (source, name); if (source) setvbuf (source, s->buf.c, _IOFBF, MIN (sizeof s->buf.c, bytes_bound)); else { s->buf.isaac.buffered = 0; get_nonce (s->buf.isaac.state.m, sizeof s->buf.isaac.state.m, bytes_bound); isaac_seed (&s->buf.isaac.state); } return s; } } /* Set S's handler and its argument. HANDLER (HANDLER_ARG) is called when there is a read error or end of file from the random data source; errno is nonzero if there was an error. If HANDLER returns, it should fix the problem before returning. The default handler assumes that handler_arg is the file name of the source; it does not return. */ void randread_set_handler (struct randread_source *s, void (*handler) (void const *)) { s->handler = handler; } void randread_set_handler_arg (struct randread_source *s, void const *handler_arg) { s->handler_arg = handler_arg; } /* Place SIZE random bytes into the buffer beginning at P, using the stream in S. */ static void readsource (struct randread_source *s, unsigned char *p, size_t size) { while (true) { size_t inbytes = fread (p, sizeof *p, size, s->source); int fread_errno = errno; p += inbytes; size -= inbytes; if (size == 0) break; errno = (ferror (s->source) ? fread_errno : 0); s->handler (s->handler_arg); } } /* Place SIZE pseudorandom bytes into the buffer beginning at P, using the buffered ISAAC generator in ISAAC. */ static void readisaac (struct isaac *isaac, void *p, size_t size) { size_t inbytes = isaac->buffered; while (true) { char *char_p = p; if (size <= inbytes) { memcpy (p, isaac->data.b + ISAAC_BYTES - inbytes, size); isaac->buffered = inbytes - size; return; } memcpy (p, isaac->data.b + ISAAC_BYTES - inbytes, inbytes); p = char_p + inbytes; size -= inbytes; /* If P is aligned, write to *P directly to avoid the overhead of copying from the buffer. */ if (ALIGNED_POINTER (p, isaac_word)) { isaac_word *wp = p; while (ISAAC_BYTES <= size) { isaac_refill (&isaac->state, wp); wp += ISAAC_WORDS; size -= ISAAC_BYTES; if (size == 0) { isaac->buffered = 0; return; } } p = wp; } isaac_refill (&isaac->state, isaac->data.w); inbytes = ISAAC_BYTES; } } /* Consume random data from *S to generate a random buffer BUF of size SIZE. */ void randread (struct randread_source *s, void *buf, size_t size) { if (s->source) readsource (s, buf, size); else readisaac (&s->buf.isaac, buf, size); } /* Clear *S so that it no longer contains undelivered random data, and deallocate any system resources associated with *S. Return 0 if successful, a negative number (setting errno) if not (this is rare, but can occur in theory if there is an input error). */ int randread_free (struct randread_source *s) { FILE *source = s->source; memset (s, 0, sizeof *s); free (s); return (source ? fclose (source) : 0); }