urbit/v/raft.c

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2014-01-17 23:30:19 +04:00
/* v/raft.c
**
** This file is in the public domain.
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <uv.h>
#include "all.h"
#include "v/vere.h"
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/* _raft_election_rand(): pseudorandom component of election timeout.
*/
static c3_w
_raft_election_rand()
{
return ((float) rand() / RAND_MAX) * 150;
}
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/* _raft_readname(): parse a raft host:port peer name.
*/
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static u2_bean
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_raft_readname(u2_ropt* rop_u, const c3_c* str_c, c3_w siz_w)
{
u2_rnam* nam_u = malloc(sizeof(*nam_u));
c3_c* col_c;
c3_w por_w;
c3_w nam_w;
nam_u->str_c = malloc(siz_w + 1);
strncpy(nam_u->str_c, str_c, siz_w);
nam_u->str_c[siz_w] = '\0';
//fprintf(stderr, "raft: peer %s\n", nam_u->str_c);
if ( 0 == (col_c = strchr(nam_u->str_c, ':')) ) {
fprintf(stderr, "raft: invalid name %s\n", str_c);
return u2_no;
}
else {
nam_w = col_c - nam_u->str_c;
nam_u->nam_c = malloc(nam_w + 1);
strncpy(nam_u->nam_c, nam_u->str_c, nam_w);
nam_u->nam_c[nam_w] = '\0';
por_w = atol(col_c + 1);
if ( !(por_w > 0 && por_w < 65536) ) {
fprintf(stderr, "raft: invalid port '%s'\n", col_c + 1);
return u2_no;
}
else nam_u->por_s = por_w;
//fprintf(stderr, "raft: peer %s:%d\n", nam_u->nam_c, nam_u->por_s);
nam_u->nex_u = rop_u->nam_u;
rop_u->nam_u = nam_u;
return u2_yes;
}
}
u2_bean
u2_raft_readopt(u2_ropt* rop_u, const c3_c* arg_c)
{
c3_c* com_c;
while ( 0 != (com_c = strchr(arg_c, ',')) ) {
if ( u2_no == _raft_readname(rop_u, arg_c, com_c - arg_c) ) {
return u2_no;
} else arg_c = com_c + 1;
}
return _raft_readname(rop_u, arg_c, strlen(arg_c));
}
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static void
_raft_listen_cb(uv_stream_t* wax_u, c3_i sas_i)
{
}
static void
_raft_time_cb(uv_timer_t* tim_u, c3_i sas_i)
{
u2_raft* raf_u = tim_u->data;
//uL(fprintf(uH, "raft: time\n"));
}
/* _raft_foll_init(): begin, follower mode.
*/
static void
_raft_foll_init(u2_raft* raf_u)
{
uL(fprintf(uH, "raft: starting follower\n"));
if ( 0 != uv_tcp_init(u2L, &raf_u->wax_u) ) {
uL(fprintf(uH, "raft: init: %s\n", uv_strerror(uv_last_error(u2L))));
c3_assert(0);
}
// Bind the listener.
{
struct sockaddr_in add_u;
memset(&add_u, 0, sizeof(add_u));
add_u.sin_family = AF_INET;
add_u.sin_addr.s_addr = htonl(INADDR_ANY);
add_u.sin_port = htons(u2_Host.ops_u.rop_u.por_s);
if ( 0 != uv_tcp_bind(&raf_u->wax_u, add_u) ) {
uL(fprintf(uH, "raft: bind: %s\n", uv_strerror(uv_last_error(u2L))));
c3_assert(0);
}
else {
if ( 0 != uv_listen((uv_stream_t*)&raf_u->wax_u, 16, _raft_listen_cb) ) {
uL(fprintf(uH, "raft: listen: %s\n", uv_strerror(uv_last_error(u2L))));
c3_assert(0);
}
else {
uL(fprintf(uH, "raft: on TCP %d\n", u2_Host.ops_u.rop_u.por_s));
}
}
}
// Start the initial election timeout.
{
uv_timer_init(u2L, &raf_u->tim_u);
raf_u->tim_u.data = raf_u;
uv_timer_start(&raf_u->tim_u, _raft_time_cb, _raft_election_rand(), 0);
}
}
/* _raft_lone_init(): begin, single-instance mode.
*/
static void
_raft_lone_init(u2_raft* raf_u)
{
uL(fprintf(uH, "raft: single-instance mode\n"));
}
void
u2_raft_io_init()
{
u2_raft* raf_u = u2R;
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if ( 0 == u2_Host.ops_u.rop_u.por_s ) {
_raft_lone_init(raf_u);
}
else {
_raft_foll_init(raf_u);
}
}
c3_w
u2_raft_push(u2_raft* raf_u, c3_w* bob_w, c3_w len_w)
{
uL(fprintf(uH, "raft: pushing\n"));
return 0;
}
/* _raft_pack(): write a blob to disk, retaining.
*/
static void
_raft_pack(u2_raft* raf_u, c3_w* bob_w, c3_w len_w)
{
u2_ulog* lug_u = raf_u->lug_u;
c3_d tar_d;
u2_ular lar_u;
tar_d = lug_u->len_d + len_w;
lar_u.syn_w = u2_cr_mug((c3_w)tar_d);
lar_u.mug_w = u2_cr_mug_words(bob_w, len_w);
//lar_u.tem_w = raf_u->tem_w;
lar_u.ent_w = rec_u->ent_w; // XX is this right?
lar_u.len_w = len_w;
if ( -1 == lseek64(lug_u->fid_i, 4ULL * tar_d, SEEK_SET) ) {
perror("lseek");
uL(fprintf(uH, "raft_pack: seek failed\n"));
c3_assert(0);
}
if ( sizeof(lar_u) != write(lug_u->fid_i, &lar_u, sizeof(lar_u)) ) {
perror("write");
uL(fprintf(uH, "raft_pack: write failed\n"));
c3_assert(0);
}
if ( -1 == lseek64(lug_u->fid_i, 4ULL * lug_u->len_d, SEEK_SET) ) {
perror("lseek");
uL(fprintf(uH, "raft_pack: seek failed\n"));
c3_assert(0);
}
#if 1
uL(fprintf(uH, "raft_pack: write %d, %d: lar ent %d, len %d, mug %x\n",
lug_u->len_w,
tar_w,
lar_u.ent_w,
lar_u.len_w,
lar_u.mug_w));
#endif
if ( (4 * len_w) != write(lug_u->fid_i, bob_w, (4 * len_w)) ) {
perror("write");
uL(fprintf(uH, "raft_pack: write failed\n"));
c3_assert(0);
}
lug_u->len_d += (c3_d)(lar_u.len_w + c3_wiseof(lar_u));
}
/* _lo_home(): create ship directory.
*/
static void
_lo_home(u2_reck* rec_u)
{
c3_c ful_c[2048];
// Create subdirectories.
//
{
mkdir(u2_Host.cpu_c, 0700);
snprintf(ful_c, 2048, "%s/get", u2_Host.cpu_c);
if ( 0 != mkdir(ful_c, 0700) ) {
perror(ful_c);
u2_lo_bail(rec_u);
}
snprintf(ful_c, 2048, "%s/put", u2_Host.cpu_c);
if ( 0 != mkdir(ful_c, 0700) ) {
perror(ful_c);
u2_lo_bail(rec_u);
}
}
// Copy urbit.pill.
//
{
snprintf(ful_c, 2048, "cp %s/urbit.pill %s",
u2_Host.ops_u.hom_c, u2_Host.cpu_c);
if ( 0 != system(ful_c) ) {
uL(fprintf(uH, "could not %s\n", ful_c));
u2_lo_bail(rec_u);
}
}
}
/* _lo_cask(): ask for a passcode.
*/
static u2_noun
_lo_cask(u2_reck* rec_u, c3_c* dir_c, u2_bean nun)
{
c3_c paw_c[60];
u2_noun key;
uH;
while ( 1 ) {
printf("passcode for %s%s? ~", dir_c, (u2_yes == nun) ? " [none]" : "");
paw_c[0] = 0;
fpurge(stdin);
fgets(paw_c, 59, stdin);
if ( '\n' == paw_c[0] ) {
if ( u2_yes == nun ) {
key = 0; break;
}
else {
continue;
}
}
else {
c3_c* say_c = malloc(strlen(paw_c) + 2);
u2_noun say;
say_c[0] = '~';
say_c[1] = 0;
strncat(say_c, paw_c, strlen(paw_c) - 1);
say = u2_do("slay", u2_ci_string(say_c));
if ( (u2_nul == say) ||
(u2_blip != u2h(u2t(say))) ||
('p' != u2h(u2t(u2t(say)))) )
{
printf("invalid passcode\n");
continue;
}
key = u2k(u2t(u2t(u2t(say))));
u2z(say);
break;
}
}
uL(0);
return key;
}
/* _lo_text(): ask for a name string.
*/
static u2_noun
_lo_text(u2_reck* rec_u, c3_c* pom_c)
{
c3_c paw_c[60];
u2_noun say;
uH;
while ( 1 ) {
printf("%s: ", pom_c);
paw_c[0] = 0;
fpurge(stdin);
fgets(paw_c, 59, stdin);
if ( '\n' == paw_c[0] ) {
continue;
}
else {
c3_w len_w = strlen(paw_c);
if ( paw_c[len_w - 1] == '\n' ) {
paw_c[len_w-1] = 0;
}
say = u2_ci_string(paw_c);
break;
}
}
uL(0);
return say;
}
#if 0
/* _lo_bask(): ask a yes or no question.
*/
static u2_bean
_lo_bask(c3_c* pop_c, u2_bean may)
{
u2_bean yam;
uH;
while ( 1 ) {
c3_c ans_c[3];
printf("%s [y/n]? ", pop_c);
ans_c[0] = 0;
fpurge(stdin);
fgets(ans_c, 2, stdin);
if ( (ans_c[0] != 'y') && (ans_c[0] != 'n') ) {
continue;
} else {
yam = (ans_c[0] != 'n') ? u2_yes : u2_no;
break;
}
}
uL(0);
return yam;
}
#endif
/* _lo_rand(): fill a 256-bit (8-word) buffer.
*/
static void
_lo_rand(u2_reck* rec_u, c3_w* rad_w)
{
c3_i fid_i = open(DEVRANDOM, O_RDONLY);
if ( 32 != read(fid_i, (c3_y*) rad_w, 32) ) {
c3_assert(!"lo_rand");
}
close(fid_i);
}
/* _lo_fast(): offer to save passcode by mug in home directory.
*/
static void
_lo_fast(u2_reck* rec_u, u2_noun pas, c3_l key_l)
{
c3_c ful_c[2048];
c3_c* hom_c = getenv("HOME");
u2_noun gum = u2_dc("scot", 'p', key_l);
c3_c* gum_c = u2_cr_string(gum);
u2_noun yek = u2_dc("scot", 'p', pas);
c3_c* yek_c = u2_cr_string(yek);
printf("saving passcode in %s/.urbit/%s.txt\r\n", hom_c, gum_c);
printf("(for real security, write it down and delete the file...)\r\n");
{
c3_i fid_i;
snprintf(ful_c, 2048, "%s/.urbit", hom_c);
mkdir(ful_c, 0700);
snprintf(ful_c, 2048, "%s/.urbit/%s.txt", hom_c, gum_c);
if ( (fid_i = open(ful_c, O_CREAT | O_TRUNC | O_WRONLY, 0600)) < 0 ) {
uL(fprintf(uH, "fast: could not save %s\n", ful_c));
u2_lo_bail(rec_u);
}
write(fid_i, yek_c, strlen(yek_c));
close(fid_i);
}
free(gum_c);
u2z(gum);
free(yek_c);
u2z(yek);
}
/* _lo_staf(): try to load passcode by mug from home directory.
*/
static u2_noun
_lo_staf(u2_reck* rec_u, c3_l key_l)
{
c3_c ful_c[2048];
c3_c* hom_c = getenv("HOME");
u2_noun gum = u2_dc("scot", 'p', key_l);
c3_c* gum_c = u2_cr_string(gum);
u2_noun txt;
snprintf(ful_c, 2048, "%s/.urbit/%s.txt", hom_c, gum_c);
free(gum_c);
u2z(gum);
txt = u2_walk_safe(ful_c);
if ( 0 == txt ) {
uL(fprintf(uH, "staf: no passcode %s\n", ful_c));
return 0;
}
else {
// c3_c* txt_c = u2_cr_string(txt);
u2_noun say = u2_do("slay", txt);
u2_noun pas;
if ( (u2_nul == say) ||
(u2_blip != u2h(u2t(say))) ||
('p' != u2h(u2t(u2t(say)))) )
{
uL(fprintf(uH, "staf: %s is corrupt\n", ful_c));
u2z(say);
return 0;
}
uL(fprintf(uH, "loaded passcode from %s\n", ful_c));
pas = u2k(u2t(u2t(u2t(say))));
u2z(say);
return pas;
}
}
/* _lo_fatt(): stretch a 64-bit passcode to make a 128-bit key.
*/
static u2_noun
_lo_fatt(c3_l sal_l, u2_noun pas)
{
c3_w i_w;
u2_noun key = pas;
// XX use scrypt() - this is a stupid iterated hash
//
for ( i_w = 0; i_w < 32768; i_w++ ) {
key = u2_dc("shaf", sal_l, key);
}
return key;
}
/* _lo_zest(): create a new, empty record.
*/
static void
_lo_zest(u2_reck* rec_u)
{
struct stat buf_b;
c3_i fid_i;
c3_c ful_c[8193];
c3_l sal_l;
// Create the ship directory.
//
_lo_home(rec_u);
// Create the record file.
{
snprintf(ful_c, 2048, "%s/egz.hope", u2_Host.cpu_c);
if ( ((fid_i = open(ful_c, O_CREAT | O_WRONLY | O_EXCL, 0600)) < 0) ||
(fstat(fid_i, &buf_b) < 0) )
{
uL(fprintf(uH, "can't create record (%s)\n", ful_c));
u2_lo_bail(rec_u);
}
u2_Host.lug_u.fid_i = fid_i;
}
// Generate a 31-bit salt.
//
{
c3_w rad_w[8];
_lo_rand(rec_u, rad_w);
sal_l = (0x7fffffff & rad_w[0]);
}
// Create and save a passcode.
//
{
c3_w rad_w[8];
u2_noun pas;
_lo_rand(rec_u, rad_w);
pas = u2_ci_words(2, rad_w);
rec_u->key = _lo_fatt(sal_l, u2k(pas));
_lo_fast(rec_u, pas, u2_mug(rec_u->key));
}
// Write the header.
{
u2_uled led_u;
led_u.mag_l = u2_mug('f');
led_u.kno_w = rec_u->kno_w;
if ( 0 == rec_u->key ) {
led_u.key_l = 0;
} else {
led_u.key_l = u2_mug(rec_u->key);
c3_assert(!(led_u.key_l >> 31));
}
led_u.sal_l = sal_l;
led_u.sev_l = rec_u->sev_l;
led_u.tno_l = 1;
if ( sizeof(led_u) != write(fid_i, &led_u, sizeof(led_u)) ) {
uL(fprintf(uH, "can't write record (%s)\n", ful_c));
u2_lo_bail(rec_u);
}
u2_Host.lug_u.len_d = c3_wiseof(led_u);
}
// Save the boot events.
{
u2_noun nor = u2_ckb_flop(rec_u->roe);
rec_u->roe = nor;
while ( u2_nul != nor ) {
_lo_pack(rec_u, u2k(u2h(nor)));
rec_u->ent_w += 1;
nor = u2t(nor);
}
u2z(rec_u->roe);
rec_u->roe = 0;
}
#if 0
// Copy the egz into ham, the factory default.
{
snprintf(ful_c, 8193, "rm -f %s/~ham.hope; cp %s/~egz.hope %s/~ham.hope",
u2_Host.cpu_c, u2_Host.cpu_c, u2_Host.cpu_c);
if ( 0 != system(ful_c) ) {
uL(fprintf(uH, "zest: could not save ham\n"));
u2_lo_bail(rec_u);
}
}
#endif
}
/* _lo_rest(): restore from record, or exit.
*/
static void
_lo_rest(u2_reck* rec_u)
{
struct stat buf_b;
c3_i fid_i;
c3_c ful_c[2048];
c3_w old_w = rec_u->ent_w;
c3_w las_w = 0;
u2_noun roe = u2_nul;
u2_noun sev_l, tno_l, key_l, sal_l;
if ( 0 != rec_u->ent_w ) {
u2_noun ent = u2_dc("scot", c3__ud, rec_u->ent_w);
c3_c* ent_c = u2_cr_string(ent);
uL(fprintf(uH, "rest: checkpoint to event %s\n", ent_c));
free(ent_c);
}
// Open the fscking file. Does it even exist?
{
snprintf(ful_c, 2048, "%s/egz.hope", u2_Host.cpu_c);
if ( ((fid_i = open(ful_c, O_RDWR)) < 0) ||
(fstat(fid_i, &buf_b) < 0) )
{
uL(fprintf(uH, "rest: can't open record (%s)\n", ful_c));
u2_lo_bail(rec_u);
return;
}
u2_Host.lug_u.fid_i = fid_i;
u2_Host.lug_u.len_d = ((buf_b.st_size + 3ULL) >> 2ULL);
}
// Check the fscking header. It's probably corrupt.
{
u2_uled led_u;
if ( sizeof(led_u) != read(fid_i, &led_u, sizeof(led_u)) ) {
uL(fprintf(uH, "record (%s) is corrupt (a)\n", ful_c));
u2_lo_bail(rec_u);
}
if ( u2_mug('f') != led_u.mag_l ) {
uL(fprintf(uH, "record (%s) is obsolete (or corrupt)\n", ful_c));
u2_lo_bail(rec_u);
}
if ( led_u.kno_w != rec_u->kno_w ) {
// XX perhaps we should actually do something here
//
uL(fprintf(uH, "rest: (not) translating events (old %d, now %d)\n",
led_u.kno_w,
rec_u->kno_w));
}
sev_l = led_u.sev_l;
sal_l = led_u.sal_l;
key_l = led_u.key_l;
tno_l = led_u.tno_l;
{
u2_noun old = u2_dc("scot", c3__uv, sev_l);
u2_noun nuu = u2_dc("scot", c3__uv, rec_u->sev_l);
c3_c* old_c = u2_cr_string(old);
c3_c* nuu_c = u2_cr_string(nuu);
uL(fprintf(uH, "rest: old %s, new %s\n", old_c, nuu_c));
free(old_c); free(nuu_c);
u2z(old); u2z(nuu);
}
c3_assert(sev_l != rec_u->sev_l); // 1 in 2 billion, just retry
}
// Oh, and let's hope you didn't forget the fscking passcode.
{
if ( 0 != key_l ) {
u2_noun pas = _lo_staf(rec_u, key_l);
u2_noun key;
while ( 1 ) {
pas = pas ? pas : _lo_cask(rec_u, u2_Host.cpu_c, u2_no);
key = _lo_fatt(sal_l, pas);
if ( u2_mug(key) != key_l ) {
uL(fprintf(uH, "incorrect passcode\n"));
u2z(key);
pas = 0;
}
else {
u2z(rec_u->key);
rec_u->key = key;
break;
}
}
}
}
// Read in the fscking events. These are probably corrupt as well.
{
c3_w ent_w;
c3_d end_d;
end_d = u2_Host.lug_u.len_d;
ent_w = 0;
if ( -1 == lseek64(fid_i, 4ULL * end_d, SEEK_SET) ) {
fprintf(stderr, "end_d %llx\n", end_d);
perror("lseek");
uL(fprintf(uH, "record (%s) is corrupt (c)\n", ful_c));
u2_lo_bail(rec_u);
}
while ( end_d != c3_wiseof(u2_uled) ) {
c3_d tar_d = (end_d - (c3_d)c3_wiseof(u2_ular));
u2_ular lar_u;
c3_w* img_w;
u2_noun ron;
// uL(fprintf(uH, "rest: reading event at %llx\n", end_d));
if ( -1 == lseek64(fid_i, 4ULL * tar_d, SEEK_SET) ) {
uL(fprintf(uH, "record (%s) is corrupt (d)\n", ful_c));
u2_lo_bail(rec_u);
}
if ( sizeof(u2_ular) != read(fid_i, &lar_u, sizeof(u2_ular)) ) {
uL(fprintf(uH, "record (%s) is corrupt (e)\n", ful_c));
u2_lo_bail(rec_u);
}
if ( lar_u.syn_w != u2_mug((c3_w)tar_d) ) {
uL(fprintf(uH, "record (%s) is corrupt (f)\n", ful_c));
u2_lo_bail(rec_u);
}
#if 0
uL(fprintf(uH, "log: read: at %d, %d: lar ent %d, len %d, mug %x\n",
(tar_w - lar_u.len_w),
tar_w,
lar_u.ent_w,
lar_u.len_w,
lar_u.mug_w));
#endif
img_w = malloc(4 * lar_u.len_w);
if ( end_d == u2_Host.lug_u.len_d ) {
ent_w = las_w = lar_u.ent_w;
}
else {
if ( lar_u.ent_w != (ent_w - 1) ) {
uL(fprintf(uH, "record (%s) is corrupt (g)\n", ful_c));
uL(fprintf(uH, "lar_u.ent_w %x, ent_w %x\n", lar_u.ent_w, ent_w));
u2_lo_bail(rec_u);
}
ent_w -= 1;
}
end_d = (tar_d - (c3_d)lar_u.len_w);
if ( ent_w < old_w ) {
free(img_w);
break;
}
if ( -1 == lseek64(fid_i, 4ULL * end_d, SEEK_SET) ) {
uL(fprintf(uH, "record (%s) is corrupt (h)\n", ful_c));
u2_lo_bail(rec_u);
}
if ( (4 * lar_u.len_w) != read(fid_i, img_w, (4 * lar_u.len_w)) ) {
uL(fprintf(uH, "record (%s) is corrupt (i)\n", ful_c));
u2_lo_bail(rec_u);
}
ron = u2_ci_words(lar_u.len_w, img_w);
free(img_w);
if ( u2_mug(ron) != lar_u.mug_w ) {
uL(fprintf(uH, "record (%s) is corrupt (j)\n", ful_c));
u2_lo_bail(rec_u);
}
if ( rec_u->key ) {
u2_noun dep;
dep = u2_dc("de:crya", u2k(rec_u->key), ron);
if ( u2_no == u2du(dep) ) {
uL(fprintf(uH, "record (%s) is corrupt (k)\n", ful_c));
u2_lo_bail(rec_u);
}
else {
ron = u2k(u2t(dep));
u2z(dep);
}
}
roe = u2nc(u2_cke_cue(ron), roe);
}
rec_u->ent_w = c3_max(las_w + 1, old_w);
}
if ( u2_nul == roe ) {
// Nothing in the log that was not also in the checkpoint.
//
c3_assert(rec_u->ent_w == old_w);
c3_assert((las_w + 1) == old_w);
}
else {
u2_noun rou = roe;
c3_w xno_w;
// Execute the fscking things. This is pretty much certain to crash.
//
uL(fprintf(uH, "rest: replaying through event %d\n", las_w));
fprintf(uH, "---------------- playback starting----------------\n");
xno_w = 0;
while ( u2_nul != roe ) {
u2_noun i_roe = u2h(roe);
u2_noun t_roe = u2t(roe);
u2_noun now = u2h(i_roe);
u2_noun ovo = u2t(i_roe);
u2_reck_wind(rec_u, u2k(now));
if ( (u2_yes == u2_Host.ops_u.vno) &&
(c3__veer == u2h(u2t(ovo))) ) {
uL(fprintf(uH, "replay: skipped veer\n"));
}
else {
_lo_sing(rec_u, u2k(ovo));
}
fputc('.', stderr);
// uL(fprintf(uH, "playback: sing: %d\n", xno_w));
roe = t_roe;
xno_w++;
if ( 0 == (xno_w % 1000) ) {
uL(fprintf(uH, "{%d}\n", xno_w));
}
}
u2z(rou);
}
uL(fprintf(stderr, "\n---------------- playback complete----------------\n"));
#if 0
// If you see this error, your record is totally fscking broken!
// Which probably serves you right. Please consult a consultant.
{
if ( u2_nul == rec_u->own ) {
uL(fprintf(uH, "record did not install a master!\n"));
u2_lo_bail(rec_u);
}
rec_u->our = u2k(u2h(rec_u->own));
rec_u->pod = u2_dc("scot", 'p', u2k(rec_u->our)));
}
// Now, who the fsck are you? No, really.
{
u2_noun who;
c3_c* fil_c;
c3_c* who_c;
if ( (fil_c = strrchr(u2_Host.cpu_c, '/')) ) {
fil_c++;
} else fil_c = u2_Host.cpu_c;
who = u2_dc("scot", 'p', u2k(rec_u->our)));
who_c = u2_cr_string(who);
u2z(who);
if ( strncmp(fil_c, who_c + 1, strlen(fil_c)) ) {
uL(fprintf(uH, "record master (%s) does not match filename!\n", who_c));
u2_lo_bail(rec_u);
}
free(who_c);
}
#endif
// Rewrite the header. Will probably corrupt the record.
{
u2_uled led_u;
led_u.mag_l = u2_mug('f');
led_u.sal_l = sal_l;
led_u.sev_l = rec_u->sev_l;
led_u.key_l = rec_u->key ? u2_mug(rec_u->key) : 0;
led_u.kno_w = rec_u->kno_w; // may need actual translation!
led_u.tno_l = 1;
if ( (-1 == lseek64(fid_i, 0, SEEK_SET)) ||
(sizeof(led_u) != write(fid_i, &led_u, sizeof(led_u))) )
{
uL(fprintf(uH, "record (%s) failed to rewrite\n", ful_c));
u2_lo_bail(rec_u);
}
}
// Hey, fscker! It worked.
{
u2_term_ef_boil(tno_l);
}
}
/* _lo_zen(): get OS entropy.
*/
static u2_noun
_lo_zen(u2_reck* rec_u)
{
c3_w rad_w[8];
_lo_rand(rec_u, rad_w);
return u2_ci_words(8, rad_w);
}