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nix/src/libstore/db.cc
Eelco Dolstra 91dc023665 * Added a switch `--fallback'. From the manual: 
Whenever Nix attempts to realise a derivation for which a closure is
  already known, but this closure cannot be realised, fall back on
  normalising the derivation.

  The most common scenario in which this is useful is when we have
  registered substitutes in order to perform binary distribution from,
  say, a network repository.  If the repository is down, the
  realisation of the derivation will fail.  When this option is
  specified, Nix will build the derivation instead.  Thus, binary
  installation falls back on a source installation.  This option is
  not the default since it is generally not desirable for a transient
  failure in obtaining the substitutes to lead to a full build from
  source (with the related consumption of resources).
2004-06-28 10:42:57 +00:00

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#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <memory>
#include "db.hh"
#include "util.hh"
#include "pathlocks.hh"
/* Wrapper class to ensure proper destruction. */
class DestroyDbc
{
Dbc * dbc;
public:
DestroyDbc(Dbc * _dbc) : dbc(_dbc) { }
~DestroyDbc() { dbc->close(); /* close() frees dbc */ }
};
static void rethrow(DbException & e)
{
throw Error(e.what());
}
Transaction::Transaction()
: txn(0)
{
}
Transaction::Transaction(Database & db)
{
db.requireEnv();
try {
db.env->txn_begin(0, &txn, 0);
} catch (DbException e) { rethrow(e); }
}
Transaction::~Transaction()
{
if (txn) abort();
}
void Transaction::commit()
{
if (!txn) throw Error("commit called on null transaction");
debug(format("committing transaction %1%") % (void *) txn);
DbTxn * txn2 = txn;
txn = 0;
try {
txn2->commit(0);
} catch (DbException e) { rethrow(e); }
}
void Transaction::abort()
{
if (!txn) throw Error("abort called on null transaction");
debug(format("aborting transaction %1%") % (void *) txn);
DbTxn * txn2 = txn;
txn = 0;
try {
txn2->abort();
} catch (DbException e) { rethrow(e); }
}
void Transaction::moveTo(Transaction & t)
{
if (t.txn) throw Error("target txn already exists");
t.txn = txn;
txn = 0;
}
void Database::requireEnv()
{
checkInterrupt();
if (!env) throw Error("database environment not open");
}
Db * Database::getDb(TableId table)
{
map<TableId, Db *>::iterator i = tables.find(table);
if (i == tables.end())
throw Error("unknown table id");
return i->second;
}
Database::Database()
: env(0)
, nextId(1)
{
}
Database::~Database()
{
close();
}
int getAccessorCount(int fd)
{
if (lseek(fd, 0, SEEK_SET) == -1)
throw SysError("seeking accessor count");
char buf[128];
int len;
if ((len = read(fd, buf, sizeof(buf) - 1)) == -1)
throw SysError("reading accessor count");
buf[len] = 0;
int count;
if (sscanf(buf, "%d", &count) != 1) {
debug(format("accessor count is invalid: `%1%'") % buf);
return -1;
}
return count;
}
void setAccessorCount(int fd, int n)
{
if (lseek(fd, 0, SEEK_SET) == -1)
throw SysError("seeking accessor count");
string s = (format("%1%") % n).str();
const char * s2 = s.c_str();
if (write(fd, s2, strlen(s2)) != (ssize_t) strlen(s2) ||
ftruncate(fd, strlen(s2)) != 0)
throw SysError("writing accessor count");
}
void openEnv(DbEnv * env, const string & path, u_int32_t flags)
{
env->open(path.c_str(),
DB_INIT_LOCK | DB_INIT_LOG | DB_INIT_MPOOL | DB_INIT_TXN |
DB_CREATE | flags,
0666);
}
static int my_fsync(int fd)
{
return 0;
}
void Database::open(const string & path)
{
if (env) throw Error(format("environment already open"));
try {
debug(format("opening database environment"));
/* Create the database environment object. */
DbEnv * env = 0; /* !!! close on error */
env = new DbEnv(0);
env->set_lg_bsize(32 * 1024); /* default */
env->set_lg_max(256 * 1024); /* must be > 4 * lg_bsize */
env->set_lk_detect(DB_LOCK_DEFAULT);
env->set_flags(DB_TXN_WRITE_NOSYNC | DB_LOG_AUTOREMOVE, 1);
db_env_set_func_fsync(my_fsync);
/* The following code provides automatic recovery of the
database environment. Recovery is necessary when a process
dies while it has the database open. To detect this,
processes atomically increment a counter when they open the
database, and decrement it when they close it. If we see
that counter is > 0 but no processes are accessing the
database---determined by attempting to obtain a write lock
on a lock file on which all accessors have a read lock---we
must run recovery. Note that this also ensures that we
only run recovery when there are no other accessors (which
could cause database corruption). */
/* !!! close fdAccessors / fdLock on exception */
/* Open the accessor count file. */
string accessorsPath = path + "/accessor_count";
fdAccessors = ::open(accessorsPath.c_str(), O_RDWR | O_CREAT, 0666);
if (fdAccessors == -1)
throw SysError(format("opening file `%1%'") % accessorsPath);
/* Open the lock file. */
string lockPath = path + "/access_lock";
fdLock = ::open(lockPath.c_str(), O_RDWR | O_CREAT, 0666);
if (fdLock == -1)
throw SysError(format("opening lock file `%1%'") % lockPath);
/* Try to acquire a write lock. */
debug(format("attempting write lock on `%1%'") % lockPath);
if (lockFile(fdLock, ltWrite, false)) { /* don't wait */
debug(format("write lock granted"));
/* We have a write lock, which means that there are no
other readers or writers. */
int n = getAccessorCount(fdAccessors);
if (n != 0) {
printMsg(lvlTalkative,
format("accessor count is %1%, running recovery") % n);
/* Open the environment after running recovery. */
openEnv(env, path, DB_RECOVER);
}
else
/* Open the environment normally. */
openEnv(env, path, 0);
setAccessorCount(fdAccessors, 1);
/* Downgrade to a read lock. */
debug(format("downgrading to read lock on `%1%'") % lockPath);
lockFile(fdLock, ltRead, true);
} else {
/* There are other accessors. */
debug(format("write lock refused"));
/* Acquire a read lock. */
debug(format("acquiring read lock on `%1%'") % lockPath);
lockFile(fdLock, ltRead, true); /* wait indefinitely */
/* Increment the accessor count. */
lockFile(fdAccessors, ltWrite, true);
int n = getAccessorCount(fdAccessors) + 1;
setAccessorCount(fdAccessors, n);
debug(format("incremented accessor count to %1%") % n);
lockFile(fdAccessors, ltNone, true);
/* Open the environment normally. */
openEnv(env, path, 0);
}
this->env = env;
} catch (DbException e) { rethrow(e); }
}
void Database::close()
{
if (!env) return;
/* Close the database environment. */
debug(format("closing database environment"));
try {
for (map<TableId, Db *>::iterator i = tables.begin();
i != tables.end(); i++)
{
Db * db = i->second;
db->close(DB_NOSYNC);
delete db;
}
/* Do a checkpoint every 128 kilobytes, or every 5 minutes. */
env->txn_checkpoint(128, 5, 0);
env->close(0);
} catch (DbException e) { rethrow(e); }
delete env;
/* Decrement the accessor count. */
lockFile(fdAccessors, ltWrite, true);
int n = getAccessorCount(fdAccessors) - 1;
setAccessorCount(fdAccessors, n);
debug(format("decremented accessor count to %1%") % n);
lockFile(fdAccessors, ltNone, true);
::close(fdAccessors);
::close(fdLock);
}
TableId Database::openTable(const string & tableName)
{
requireEnv();
TableId table = nextId++;
try {
Db * db = new Db(env, 0);
try {
db->open(0, tableName.c_str(), 0,
DB_HASH, DB_CREATE | DB_AUTO_COMMIT, 0666);
} catch (...) {
delete db;
throw;
}
tables[table] = db;
} catch (DbException e) { rethrow(e); }
return table;
}
bool Database::queryString(const Transaction & txn, TableId table,
const string & key, string & data)
{
checkInterrupt();
try {
Db * db = getDb(table);
Dbt kt((void *) key.c_str(), key.length());
Dbt dt;
int err = db->get(txn.txn, &kt, &dt, 0);
if (err) return false;
if (!dt.get_data())
data = "";
else
data = string((char *) dt.get_data(), dt.get_size());
} catch (DbException e) { rethrow(e); }
return true;
}
bool Database::queryStrings(const Transaction & txn, TableId table,
const string & key, Strings & data)
{
string d;
if (!queryString(txn, table, key, d))
return false;
data = unpackStrings(d);
return true;
}
void Database::setString(const Transaction & txn, TableId table,
const string & key, const string & data)
{
checkInterrupt();
try {
Db * db = getDb(table);
Dbt kt((void *) key.c_str(), key.length());
Dbt dt((void *) data.c_str(), data.length());
db->put(txn.txn, &kt, &dt, 0);
} catch (DbException e) { rethrow(e); }
}
void Database::setStrings(const Transaction & txn, TableId table,
const string & key, const Strings & data, bool deleteEmpty)
{
if (deleteEmpty && data.size() == 0)
delPair(txn, table, key);
else
setString(txn, table, key, packStrings(data));
}
void Database::delPair(const Transaction & txn, TableId table,
const string & key)
{
checkInterrupt();
try {
Db * db = getDb(table);
Dbt kt((void *) key.c_str(), key.length());
db->del(txn.txn, &kt, 0);
/* Non-existence of a pair with the given key is not an
error. */
} catch (DbException e) { rethrow(e); }
}
void Database::enumTable(const Transaction & txn, TableId table,
Strings & keys)
{
try {
Db * db = getDb(table);
Dbc * dbc;
db->cursor(txn.txn, &dbc, 0);
DestroyDbc destroyDbc(dbc);
Dbt kt, dt;
while (dbc->get(&kt, &dt, DB_NEXT) != DB_NOTFOUND) {
checkInterrupt();
keys.push_back(
string((char *) kt.get_data(), kt.get_size()));
}
} catch (DbException e) { rethrow(e); }
}
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