/* * Copyright (C) 1996-2023 The Squid Software Foundation and contributors * * Squid software is distributed under GPLv2+ license and includes * contributions from numerous individuals and organizations. * Please see the COPYING and CONTRIBUTORS files for details. */ /* DEBUG: section 20 Swap Dir base object */ #include "squid.h" #include "cache_cf.h" #include "compat/strtoll.h" #include "ConfigOption.h" #include "ConfigParser.h" #include "globals.h" #include "Parsing.h" #include "SquidConfig.h" #include "Store.h" #include "store/Disk.h" #include "StoreFileSystem.h" #include "tools.h" Store::Disk::Disk(char const *aType): theType(aType), max_size(0), min_objsize(-1), max_objsize (-1), path(NULL), index(-1), disker(-1), repl(NULL), removals(0), scanned(0), cleanLog(NULL) { fs.blksize = 1024; } Store::Disk::~Disk() { // TODO: should we delete repl? xfree(path); } void Store::Disk::create() {} void Store::Disk::dump(StoreEntry &)const {} bool Store::Disk::doubleCheck(StoreEntry &) { return false; } void Store::Disk::getStats(StoreInfoStats &stats) const { if (!doReportStat()) return; stats.swap.size = currentSize(); stats.swap.capacity = maxSize(); stats.swap.count = currentCount(); } void Store::Disk::stat(StoreEntry &output) const { if (!doReportStat()) return; storeAppendPrintf(&output, "Store Directory #%d (%s): %s\n", index, type(), path); storeAppendPrintf(&output, "FS Block Size %d Bytes\n", fs.blksize); statfs(output); if (repl) { storeAppendPrintf(&output, "Removal policy: %s\n", repl->_type); if (repl->Stats) repl->Stats(repl, &output); } } void Store::Disk::statfs(StoreEntry &)const {} void Store::Disk::maintain() {} uint64_t Store::Disk::minSize() const { // XXX: Not all disk stores use Config.Swap.lowWaterMark return ((maxSize() * Config.Swap.lowWaterMark) / 100); } int64_t Store::Disk::minObjectSize() const { // per-store min-size=N value is authoritative return min_objsize > -1 ? min_objsize : Config.Store.minObjectSize; } int64_t Store::Disk::maxObjectSize() const { // per-store max-size=N value is authoritative if (max_objsize > -1) return max_objsize; // store with no individual max limit is limited by configured maximum_object_size // or the total store size, whichever is smaller return min(static_cast(maxSize()), Config.Store.maxObjectSize); } void Store::Disk::maxObjectSize(int64_t newMax) { // negative values mean no limit (-1) if (newMax < 0) { max_objsize = -1; // set explicitly in case it had a non-default value previously return; } // prohibit values greater than total storage area size // but set max_objsize to the maximum allowed to override maximum_object_size global config if (static_cast(newMax) > maxSize()) { debugs(47, DBG_PARSE_NOTE(2), "WARNING: Ignoring 'max-size' option for " << path << " which is larger than total cache_dir size of " << maxSize() << " bytes."); max_objsize = maxSize(); return; } max_objsize = newMax; } void Store::Disk::reference(StoreEntry &) {} bool Store::Disk::dereference(StoreEntry &) { return true; // keep in global store_table } void Store::Disk::diskFull() { if (currentSize() >= maxSize()) return; max_size = currentSize(); debugs(20, DBG_IMPORTANT, "WARNING: Shrinking cache_dir #" << index << " to " << currentSize() / 1024.0 << " KB"); } bool Store::Disk::objectSizeIsAcceptable(int64_t objsize) const { // need either the expected or the already accumulated object size assert(objsize >= 0); return minObjectSize() <= objsize && objsize <= maxObjectSize(); } bool Store::Disk::canStore(const StoreEntry &e, int64_t diskSpaceNeeded, int &load) const { debugs(47,8, HERE << "cache_dir[" << index << "]: needs " << diskSpaceNeeded << " maxSize()) return false; // already overflowing /* Return 999 (99.9%) constant load; TODO: add a named constant for this */ load = 999; return true; // kids may provide more tests and should report true load } /* Move to StoreEntry ? */ bool Store::Disk::canLog(StoreEntry const &e)const { if (!e.hasDisk()) return false; if (!e.swappedOut()) return false; if (e.swap_file_sz <= 0) return false; if (EBIT_TEST(e.flags, RELEASE_REQUEST)) return false; if (EBIT_TEST(e.flags, KEY_PRIVATE)) return false; if (EBIT_TEST(e.flags, ENTRY_SPECIAL)) return false; return true; } void Store::Disk::openLog() {} void Store::Disk::closeLog() {} int Store::Disk::writeCleanStart() { return 0; } void Store::Disk::writeCleanDone() {} void Store::Disk::logEntry(const StoreEntry &, int) const {} char const * Store::Disk::type() const { return theType; } bool Store::Disk::active() const { if (IamWorkerProcess()) return true; // we are inside a disker dedicated to this disk if (KidIdentifier == disker) return true; return false; // Coordinator, wrong disker, etc. } bool Store::Disk::needsDiskStrand() const { return false; } /* NOT performance critical. Really. Don't bother optimising for speed * - RBC 20030718 */ ConfigOption * Store::Disk::getOptionTree() const { ConfigOptionVector *result = new ConfigOptionVector; result->options.push_back(new ConfigOptionAdapter(*const_cast(this), &Store::Disk::optionReadOnlyParse, &Store::Disk::optionReadOnlyDump)); result->options.push_back(new ConfigOptionAdapter(*const_cast(this), &Store::Disk::optionObjectSizeParse, &Store::Disk::optionObjectSizeDump)); return result; } void Store::Disk::parseOptions(int isaReconfig) { const bool old_read_only = flags.read_only; char *name, *value; ConfigOption *newOption = getOptionTree(); while ((name = ConfigParser::NextToken()) != NULL) { value = strchr(name, '='); if (value) { *value = '\0'; /* cut on = */ ++value; } debugs(3,2, "cache_dir " << name << '=' << (value ? value : "")); if (newOption) if (!newOption->parse(name, value, isaReconfig)) { self_destruct(); return; } } delete newOption; /* * Handle notifications about reconfigured single-options with no value * where the removal of the option cannot be easily detected in the * parsing... */ if (isaReconfig) { if (old_read_only != flags.read_only) { debugs(3, DBG_IMPORTANT, "Cache dir '" << path << "' now " << (flags.read_only ? "No-Store" : "Read-Write")); } } } void Store::Disk::dumpOptions(StoreEntry * entry) const { ConfigOption *newOption = getOptionTree(); if (newOption) newOption->dump(entry); delete newOption; } bool Store::Disk::optionReadOnlyParse(char const *option, const char *value, int) { if (strcmp(option, "no-store") != 0 && strcmp(option, "read-only") != 0) return false; if (strcmp(option, "read-only") == 0) { debugs(3, DBG_PARSE_NOTE(3), "UPGRADE WARNING: Replace cache_dir option 'read-only' with 'no-store'."); } bool read_only = 0; if (value) read_only = (xatoi(value) != 0); else read_only = true; flags.read_only = read_only; return true; } void Store::Disk::optionReadOnlyDump(StoreEntry * e) const { if (flags.read_only) storeAppendPrintf(e, " no-store"); } bool Store::Disk::optionObjectSizeParse(char const *option, const char *value, int isaReconfig) { int64_t *val; if (strcmp(option, "max-size") == 0) { val = &max_objsize; } else if (strcmp(option, "min-size") == 0) { val = &min_objsize; } else return false; if (!value) { self_destruct(); return false; } int64_t size = strtoll(value, NULL, 10); if (isaReconfig && *val != size) { if (allowOptionReconfigure(option)) { debugs(3, DBG_IMPORTANT, "cache_dir '" << path << "' object " << option << " now " << size << " Bytes"); } else { debugs(3, DBG_IMPORTANT, "WARNING: cache_dir '" << path << "' " "object " << option << " cannot be changed dynamically, " << "value left unchanged (" << *val << " Bytes)"); return true; } } *val = size; return true; } void Store::Disk::optionObjectSizeDump(StoreEntry * e) const { if (min_objsize != -1) storeAppendPrintf(e, " min-size=%" PRId64, min_objsize); if (max_objsize != -1) storeAppendPrintf(e, " max-size=%" PRId64, max_objsize); } // some SwapDirs may maintain their indexes and be able to lookup an entry key StoreEntry * Store::Disk::get(const cache_key *) { return NULL; }