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#include "machines.hh"
#include "util.hh"
#include "globals.hh"
#include "store-api.hh"
#include <algorithm>
namespace nix {
Machine::Machine(decltype(storeUri) storeUri,
decltype(systemTypes) systemTypes,
decltype(sshKey) sshKey,
decltype(maxJobs) maxJobs,
decltype(speedFactor) speedFactor,
decltype(supportedFeatures) supportedFeatures,
decltype(mandatoryFeatures) mandatoryFeatures,
decltype(sshPublicHostKey) sshPublicHostKey) :
storeUri(
// Backwards compatibility: if the URI is a hostname,
// prepend ssh://.
storeUri.find("://") != std::string::npos
|| hasPrefix(storeUri, "local")
|| hasPrefix(storeUri, "remote")
|| hasPrefix(storeUri, "auto")
|| hasPrefix(storeUri, "/")
? storeUri
: "ssh://" + storeUri),
systemTypes(systemTypes),
sshKey(sshKey),
maxJobs(maxJobs),
speedFactor(std::max(1U, speedFactor)),
supportedFeatures(supportedFeatures),
mandatoryFeatures(mandatoryFeatures),
sshPublicHostKey(sshPublicHostKey)
{}
bool Machine::allSupported(const std::set<string> & features) const {
return std::all_of(features.begin(), features.end(),
[&](const string & feature) {
return supportedFeatures.count(feature) ||
mandatoryFeatures.count(feature);
});
}
bool Machine::mandatoryMet(const std::set<string> & features) const {
return std::all_of(mandatoryFeatures.begin(), mandatoryFeatures.end(),
[&](const string & feature) {
return features.count(feature);
});
}
ref<Store> Machine::openStore() const {
Store::Params storeParams;
if (hasPrefix(storeUri, "ssh://")) {
storeParams["max-connections"] = "1";
storeParams["log-fd"] = "4";
if (sshKey != "")
storeParams["ssh-key"] = sshKey;
}
{
auto & fs = storeParams["system-features"];
auto append = [&](auto feats) {
for (auto & f : feats) {
if (fs.size() > 0) fs += ' ';
fs += f;
}
};
append(supportedFeatures);
append(mandatoryFeatures);
}
return nix::openStore(storeUri, storeParams);
}
void parseMachines(const std::string & s, Machines & machines)
{
for (auto line : tokenizeString<std::vector<string>>(s, "\n;")) {
trim(line);
line.erase(std::find(line.begin(), line.end(), '#'), line.end());
if (line.empty()) continue;
if (line[0] == '@') {
auto file = trim(std::string(line, 1));
try {
parseMachines(readFile(file), machines);
} catch (const SysError & e) {
if (e.errNo != ENOENT)
throw;
debug("cannot find machines file '%s'", file);
}
continue;
}
auto tokens = tokenizeString<std::vector<string>>(line);
auto sz = tokens.size();
if (sz < 1)
throw FormatError("bad machine specification '%s'", line);
auto isSet = [&](size_t n) {
return tokens.size() > n && tokens[n] != "" && tokens[n] != "-";
};
machines.emplace_back(tokens[0],
isSet(1) ? tokenizeString<std::vector<string>>(tokens[1], ",") : std::vector<string>{settings.thisSystem},
isSet(2) ? tokens[2] : "",
isSet(3) ? std::stoull(tokens[3]) : 1LL,
isSet(4) ? std::stoull(tokens[4]) : 1LL,
isSet(5) ? tokenizeString<std::set<string>>(tokens[5], ",") : std::set<string>{},
isSet(6) ? tokenizeString<std::set<string>>(tokens[6], ",") : std::set<string>{},
isSet(7) ? tokens[7] : "");
}
}
Machines getMachines()
{
static auto machines = [&]() {
Machines machines;
parseMachines(settings.builders, machines);
return machines;
}();
return machines;
}
}
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