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// file : mod/mod-builds.cxx -*- C++ -*-
// copyright : Copyright (c) 2014-2019 Code Synthesis Ltd
// license : MIT; see accompanying LICENSE file
#include <mod/mod-builds.hxx>
#include <set>
#include <algorithm> // find_if()
#include <libstudxml/serializer.hxx>
#include <odb/database.hxx>
#include <odb/transaction.hxx>
#include <libbutl/timestamp.mxx> // to_string()
#include <libbutl/filesystem.mxx> // path_match()
#include <libbbot/manifest.hxx> // to_result_status(), to_string(result_status)
#include <web/xhtml.hxx>
#include <web/module.hxx>
#include <web/mime-url-encoding.hxx>
#include <libbrep/build.hxx>
#include <libbrep/build-odb.hxx>
#include <libbrep/build-package.hxx>
#include <libbrep/build-package-odb.hxx>
#include <mod/page.hxx>
#include <mod/options.hxx>
using namespace std;
using namespace butl;
using namespace bbot;
using namespace web;
using namespace odb::core;
using namespace brep::cli;
// While currently the user-defined copy constructor is not required (we don't
// need to deep copy nullptr's), it is a good idea to keep the placeholder
// ready for less trivial cases.
//
brep::builds::
builds (const builds& r)
: database_module (r),
build_config_module (r),
options_ (r.initialized_ ? r.options_ : nullptr)
{
}
void brep::builds::
init (scanner& s)
{
HANDLER_DIAG;
options_ = make_shared<options::builds> (
s, unknown_mode::fail, unknown_mode::fail);
if (options_->build_config_specified ())
{
database_module::init (*options_, options_->build_db_retry ());
build_config_module::init (*options_);
}
if (options_->root ().empty ())
options_->root (dir_path ("/"));
}
// Transform the wildcard to the LIKE-pattern.
//
static string
transform (const string& s)
{
if (s.empty ())
return "%";
string r;
for (char c: s)
{
switch (c)
{
case '*': c = '%'; break;
case '?': c = '_'; break;
case '\\':
case '%':
case '_': r += '\\'; break;
}
r += c;
}
return r;
}
template <typename T>
static inline query<T>
build_query (const brep::cstrings* configs,
const brep::params::builds& params,
const brep::optional<brep::string>& tenant,
const brep::optional<bool>& archived)
{
using namespace brep;
using query = query<T>;
using qb = typename query::build;
query q (configs != nullptr
? qb::id.configuration.in_range (configs->begin (), configs->end ())
: query (true));
const auto& pid (qb::id.package);
if (tenant)
q = q && pid.tenant == *tenant;
if (archived)
q = q && query::build_tenant::archived == *archived;
// Note that there is no error reported if the filter parameters parsing
// fails. Instead, it is considered that no package builds match such a
// query.
//
try
{
// Package name.
//
if (!params.name ().empty ())
q = q && pid.name.like (package_name (transform (params.name ()),
package_name::raw_string));
// Package version.
//
if (!params.version ().empty () && params.version () != "*")
q = q && compare_version_eq (pid.version,
version (params.version ()), // May throw.
true);
// Build toolchain name/version.
//
const string& tc (params.toolchain ());
if (tc != "*")
{
size_t p (tc.find ('-'));
if (p == string::npos) // Invalid format.
throw invalid_argument ("");
string tn (tc, 0, p);
version tv (string (tc, p + 1)); // May throw invalid_argument.
q = q &&
qb::id.toolchain_name == tn &&
compare_version_eq (qb::id.toolchain_version, tv, true);
}
// Build configuration name.
//
if (!params.configuration ().empty ())
q = q && qb::id.configuration.like (transform (params.configuration ()));
// Build machine name.
//
if (!params.machine ().empty ())
q = q && qb::machine.like (transform (params.machine ()));
// Build target.
//
if (!params.target ().empty ())
q = q && qb::target.like (transform (params.target ()));
// Build result.
//
const string& rs (params.result ());
if (rs != "*")
{
if (rs == "pending")
q = q && qb::force != "unforced";
else if (rs == "building")
q = q && qb::state == "building";
else
{
query sq (qb::status == rs);
result_status st (to_result_status(rs)); // May throw invalid_argument.
if (st != result_status::success)
{
auto next = [&st] () -> bool
{
if (st == result_status::abnormal)
return false;
st = static_cast<result_status> (static_cast<uint8_t> (st) + 1);
return true;
};
while (next ())
sq = sq || qb::status == to_string (st);
}
// Note that the result status may present for the building state as
// well (rebuild).
//
q = q && qb::state == "built" && sq;
}
}
}
catch (const invalid_argument&)
{
return query (false);
}
return q;
}
template <typename T>
static inline query<T>
package_query (const brep::params::builds& params,
const brep::optional<brep::string>& tenant,
const brep::optional<bool>& archived)
{
using namespace brep;
using query = query<T>;
using qp = typename query::build_package;
query q (true);
if (tenant)
q = q && qp::id.tenant == *tenant;
if (archived)
q = q && query::build_tenant::archived == *archived;
// Note that there is no error reported if the filter parameters parsing
// fails. Instead, it is considered that no packages match such a query.
//
try
{
// Package name.
//
if (!params.name ().empty ())
q = q && qp::id.name.like (
package_name (transform (params.name ()), package_name::raw_string));
// Package version.
//
if (!params.version ().empty () && params.version () != "*")
q = q && compare_version_eq (qp::id.version,
version (params.version ()), // May throw.
true);
}
catch (const invalid_argument&)
{
return query (false);
}
return q;
}
template <typename T, typename ID>
static inline query<T>
package_id_eq (const ID& x, const brep::package_id& y)
{
using query = query<T>;
const auto& qv (x.version);
return
x.tenant == query::_ref (y.tenant) &&
x.name == query::_ref (y.name) &&
qv.epoch == query::_ref (y.version.epoch) &&
qv.canonical_upstream == query::_ref (y.version.canonical_upstream) &&
qv.canonical_release == query::_ref (y.version.canonical_release) &&
qv.revision == query::_ref (y.version.revision);
}
static const vector<pair<string, string>> build_results ({
{"unbuilt", "<unbuilt>"},
{"*", "*"},
{"pending", "pending"},
{"building", "building"},
{"success", "success"},
{"warning", "warning"},
{"error", "error"},
{"abort", "abort"},
{"abnormal", "abnormal"}});
bool brep::builds::
handle (request& rq, response& rs)
{
using brep::version;
using namespace web::xhtml;
HANDLER_DIAG;
if (build_db_ == nullptr)
throw invalid_request (501, "not implemented");
const size_t page_configs (options_->build_page_entries ());
const string& host (options_->host ());
const dir_path& root (options_->root ());
const string& tenant_name (options_->tenant_name ());
params::builds params;
try
{
name_value_scanner s (rq.parameters (8 * 1024));
params = params::builds (s, unknown_mode::fail, unknown_mode::fail);
}
catch (const cli::exception& e)
{
throw invalid_request (400, e.what ());
}
// Override the name parameter for the old URL (see options.cli for details).
//
if (params.name_legacy_specified ())
params.name (params.name_legacy ());
const char* title ("Builds");
xml::serializer s (rs.content (), title);
s << HTML
<< HEAD
<< TITLE << title << ~TITLE
<< CSS_LINKS (path ("builds.css"), root)
//
// This hack is required to avoid the "flash of unstyled content", which
// happens due to the presence of the autofocus attribute in the input
// element of the filter form. The problem appears in Firefox and has a
// (4-year old, at the time of this writing) bug report:
//
// https://bugzilla.mozilla.org/show_bug.cgi?id=712130.
//
<< SCRIPT << " " << ~SCRIPT
<< ~HEAD
<< BODY
<< DIV_HEADER (options_->logo (), options_->menu (), root, tenant)
<< DIV(ID="content");
// If the tenant is empty then we are in the global view and will display
// builds from all the tenants.
//
optional<string> tn;
if (!tenant.empty ())
tn = tenant;
// Return the list of distinct toolchain name/version pairs. The build db
// transaction must be started.
//
using toolchains = vector<pair<string, version>>;
auto query_toolchains = [this, &tn] () -> toolchains
{
using query = query<toolchain>;
toolchains r;
for (auto& t: build_db_->query<toolchain> (
(tn ? query::build::id.package.tenant == *tn : query (true)) +
"ORDER BY" + query::build::id.toolchain_name +
order_by_version_desc (query::build::id.toolchain_version,
false /* first */)))
r.emplace_back (move (t.name), move (t.version));
return r;
};
auto print_form = [&s, ¶ms, this] (const toolchains& toolchains,
size_t build_count)
{
// Print the package builds filter form on the first page only.
//
if (params.page () == 0)
{
// Populate the toolchains list with the distinct list of toolchain
// name/version pairs from all the existing package builds. Make sure
// the selected toolchain is still present in the database. Otherwise
// fallback to the * wildcard selection.
//
string ctc ("*");
vector<pair<string, string>> toolchain_opts ({{"*", "*"}});
{
for (const auto& t: toolchains)
{
string tc (t.first + '-' + t.second.string ());
toolchain_opts.emplace_back (tc, tc);
if (tc == params.toolchain ())
ctc = move (tc);
}
}
// The 'action' attribute is optional in HTML5. While the standard
// doesn't specify browser behavior explicitly for the case the
// attribute is omitted, the only reasonable behavior is to default it
// to the current document URL. Note that we specify the function name
// using the "hidden" <input/> element since the action url must not
// contain the query part.
//
s << FORM
<< TABLE(ID="filter", CLASS="proplist")
<< TBODY
<< TR_INPUT ("name", "builds", params.name (), "*", true)
<< TR_INPUT ("version", "pv", params.version (), "*")
<< TR_SELECT ("toolchain", "tc", ctc, toolchain_opts)
<< TR(CLASS="config")
<< TH << "config" << ~TH
<< TD
<< *INPUT(TYPE="text",
NAME="cf",
VALUE=params.configuration (),
PLACEHOLDER="*",
LIST="configs")
<< DATALIST(ID="configs")
<< *OPTION(VALUE="*");
for (const auto& c: *build_conf_names_)
s << *OPTION(VALUE=c);
s << ~DATALIST
<< ~TD
<< ~TR
<< TR_INPUT ("machine", "mn", params.machine (), "*")
<< TR_INPUT ("target", "tg", params.target (), "*")
<< TR_SELECT ("result", "rs", params.result (), build_results)
<< ~TBODY
<< ~TABLE
<< TABLE(CLASS="form-table")
<< TBODY
<< TR
<< TD(ID="build-count")
<< DIV_COUNTER (build_count, "Build", "Builds")
<< ~TD
<< TD(ID="filter-btn")
<< *INPUT(TYPE="submit", VALUE="Filter")
<< ~TD
<< ~TR
<< ~TBODY
<< ~TABLE
<< ~FORM;
}
else
s << DIV_COUNTER (build_count, "Build", "Builds");
};
// We will not display hidden configurations, unless the configuration is
// specified explicitly.
//
bool exclude_hidden (
params.configuration ().empty () ||
params.configuration ().find_first_of ("*?") != string::npos);
cstrings conf_names;
if (exclude_hidden)
{
for (const auto& c: *build_conf_map_)
{
if (belongs (*c.second, "all"))
conf_names.push_back (c.first);
}
}
else
conf_names = *build_conf_names_;
size_t count;
size_t page (params.page ());
if (params.result () != "unbuilt") // Print package build configurations.
{
// It seems impossible to filter out the package-excluded configuration
// builds via the database query. Thus, we will traverse through builds
// that pass the form filter and match them against expressions and
// constraints of a package they are builds of.
//
// We will calculate the total builds count and cache build objects for
// printing on the same pass. Note that we need to print the count before
// printing the builds.
//
count = 0;
vector<shared_ptr<build>> builds;
builds.reserve (page_configs);
// Prepare the package build prepared query.
//
using query = query<package_build>;
using prep_query = prepared_query<package_build>;
query q (build_query<package_build> (
&conf_names, params, tn, nullopt /* archived */));
// Specify the portion. Note that we will be querying builds in chunks,
// not to hold locks for too long.
//
size_t offset (0);
// Print package build configurations ordered by the timestamp (later goes
// first).
//
q += "ORDER BY" + query::build::timestamp + "DESC" +
"OFFSET" + query::_ref (offset) + "LIMIT 50";
connection_ptr conn (build_db_->connection ());
prep_query pq (
conn->prepare_query<package_build> ("mod-builds-query", q));
// Note that we can't skip the proper number of builds in the database
// query for a page numbers greater than one. So we will query builds from
// the very beginning and skip the appropriate number of them while
// iterating through the query result.
//
size_t skip (page * page_configs);
size_t print (page_configs);
// Note that adjacent builds may well relate to the same package. We will
// use this fact for a cheap optimization, loading the build package only
// if it differs from the previous one.
//
shared_ptr<build_package> p;
for (bool ne (true); ne; )
{
transaction t (conn->begin ());
// Query package builds (and cache the result).
//
auto bs (pq.execute ());
if ((ne = !bs.empty ()))
{
offset += bs.size ();
// Iterate over builds and cache build objects that should be printed.
// Skip the appropriate number of them (for page number greater than
// one).
//
for (auto& pb: bs)
{
shared_ptr<build>& b (pb.build);
// Prior to loading the package object check if it is already
// loaded.
//
if (p == nullptr || p->id != b->id.package)
p = build_db_->load<build_package> (b->id.package);
auto i (build_conf_map_->find (b->configuration.c_str ()));
assert (i != build_conf_map_->end ());
// Match the configuration against the package build
// expressions/constraints.
//
if (!exclude (p->builds, p->constraints, *i->second))
{
if (skip != 0)
--skip;
else if (print != 0)
{
// As we query builds in multiple transactions we may see the
// same build multiple times. Let's skip the duplicates. Note:
// we don't increment the counter in this case.
//
if (find_if (builds.begin (),
builds.end (),
[&b] (const shared_ptr<build>& pb)
{
return b->id == pb->id;
}) != builds.end ())
continue;
if (b->state == build_state::built)
{
build_db_->load (*b, b->results_section);
// Let's clear unneeded result logs for builds being cached.
//
for (operation_result& r: b->results)
r.log.clear ();
}
builds.push_back (move (b));
--print;
}
++count;
}
}
}
// Print the filter form after the build count is calculated. Note:
// query_toolchains() must be called inside the build db transaction.
//
else
print_form (query_toolchains (), count);
t.commit ();
}
// Finally, print the cached package build configurations.
//
timestamp now (system_clock::now ());
// Enclose the subsequent tables to be able to use nth-child CSS selector.
//
s << DIV;
for (const shared_ptr<build>& pb: builds)
{
const build& b (*pb);
string ts (butl::to_string (b.timestamp,
"%Y-%m-%d %H:%M:%S %Z",
true /* special */,
true /* local */) +
" (" + butl::to_string (now - b.timestamp, false) + " ago)");
s << TABLE(CLASS="proplist build")
<< TBODY
<< TR_NAME (b.package_name, string (), root, b.tenant)
<< TR_VERSION (b.package_name, b.package_version, root, b.tenant)
<< TR_VALUE ("toolchain",
b.toolchain_name + '-' +
b.toolchain_version.string ())
<< TR_VALUE ("config", b.configuration)
<< TR_VALUE ("machine", b.machine)
<< TR_VALUE ("target", b.target.string ())
<< TR_VALUE ("timestamp", ts)
<< TR_BUILD_RESULT (b, host, root);
// In the global view mode add the tenant builds link. Note that the
// global view (and the link) makes sense only in the multi-tenant mode.
//
if (!tn && !b.tenant.empty ())
s << TR_TENANT (tenant_name, "builds", root, b.tenant);
s << ~TBODY
<< ~TABLE;
}
s << ~DIV;
}
else // Print unbuilt package configurations.
{
// Parameters to use for package build configurations queries. Note that
// we cleanup the machine and the result filter arguments, as they are
// irrelevant for unbuilt configurations.
//
params::builds bld_params (params);
bld_params.machine ().clear ();
bld_params.result () = "*";
// Query toolchains, filter build configurations and toolchains, and
// create the set of configuration/toolchain combinations, that we will
// print for packages. Also calculate the number of unbuilt package
// configurations.
//
toolchains toolchains;
// Note that config_toolchains contains shallow references to the
// toolchain names and versions.
//
set<config_toolchain> config_toolchains;
{
transaction t (build_db_->begin ());
toolchains = query_toolchains ();
string tc_name;
version tc_version;
const string& tc (params.toolchain ());
if (tc != "*")
try
{
size_t p (tc.find ('-'));
if (p == string::npos) // Invalid format.
throw invalid_argument ("");
tc_name.assign (tc, 0, p);
// May throw invalid_argument.
//
tc_version = version (string (tc, p + 1));
}
catch (const invalid_argument&)
{
// This is unlikely to be the user fault, as he selects the toolchain
// from the list.
//
throw invalid_request (400, "invalid toolchain");
}
const string& pc (params.configuration ());
const string& tg (params.target ());
vector<const build_config*> configs;
for (const auto& c: *build_conf_)
{
if ((pc.empty () || path_match (pc, c.name)) && // Filter by name.
// Filter by target.
//
(tg.empty () || path_match (tg, c.target.string ())) &&
(!exclude_hidden || belongs (c, "all"))) // Filter hidden.
{
configs.push_back (&c);
for (const auto& t: toolchains)
{
// Filter by toolchain.
//
if (tc == "*" || (t.first == tc_name && t.second == tc_version))
config_toolchains.insert ({c.name, t.first, t.second});
}
}
}
// Calculate the number of unbuilt package configurations as a
// difference between the maximum possible number of unbuilt
// configurations and the number of existing package builds.
//
// Note that we also need to deduct the package-excluded configurations
// count from the maximum possible number of unbuilt configurations. The
// only way to achieve this is to traverse through the packages and
// match their build expressions/constraints against our configurations.
//
// Also note that some existing builds can now be excluded by packages
// due to the build configuration target or class set change. We should
// deduct such builds count from the number of existing package builds.
//
size_t nmax (
config_toolchains.size () *
build_db_->query_value<buildable_package_count> (
package_query<buildable_package_count> (
params, tn, false /* archived */)));
size_t ncur = build_db_->query_value<package_build_count> (
build_query<package_build_count> (
&conf_names, bld_params, tn, false /* archived */));
// From now we will be using specific package name and version for each
// build database query.
//
bld_params.name ().clear ();
bld_params.version ().clear ();
if (!config_toolchains.empty ())
{
// Prepare the build count prepared query.
//
// For each package-excluded configuration we will query the number of
// existing builds.
//
using bld_query = query<package_build_count>;
using prep_bld_query = prepared_query<package_build_count>;
package_id id;
string config;
const auto& bid (bld_query::build::id);
bld_query bq (
package_id_eq<package_build_count> (bid.package, id) &&
bid.configuration == bld_query::_ref (config) &&
// Note that the query already constrains configurations via the
// configuration name and the tenant via the build package id.
//
build_query<package_build_count> (nullptr /* configs */,
bld_params,
nullopt /* tenant */,
false /* archived */));
prep_bld_query bld_prep_query (
build_db_->prepare_query<package_build_count> (
"mod-builds-build-count-query", bq));
size_t nt (tc == "*" ? toolchains.size () : 1);
// The number of packages can potentially be large, and we may
// implement some caching in the future. However, the caching will not
// be easy as the cached values depend on the filter form parameters.
//
query<buildable_package> q (
package_query<buildable_package> (
params, tn, false /* archived */));
for (auto& bp: build_db_->query<buildable_package> (q))
{
id = move (bp.id);
shared_ptr<build_package> p (build_db_->load<build_package> (id));
for (const auto& c: configs)
{
if (exclude (p->builds, p->constraints, *c))
{
nmax -= nt;
config = c->name;
ncur -= bld_prep_query.execute_value ();
}
}
}
}
assert (nmax >= ncur);
count = nmax - ncur;
t.commit ();
}
// Print the filter form.
//
print_form (toolchains, count);
// Print unbuilt package configurations with the following sort priority:
//
// 1: package name
// 2: package version (descending)
// 3: package tenant
// 4: toolchain name
// 5: toolchain version (descending)
// 6: configuration name
//
// Prepare the build package prepared query.
//
// Note that we can't skip the proper number of packages in the database
// query for a page numbers greater than one. So we will query packages
// from the very beginning and skip the appropriate number of them while
// iterating through the query result.
//
// Also note that such an approach has a security implication. An HTTP
// request with a large page number will be quite expensive to process, as
// it effectively results in traversing all the build package and all the
// built configurations. To address this problem we may consider to reduce
// the pager to just '<Prev' '1' 'Next>' links, and pass the offset as a
// URL query parameter. Alternatively, we can invent the page number cap.
//
using pkg_query = query<buildable_package>;
using prep_pkg_query = prepared_query<buildable_package>;
pkg_query pq (
package_query<buildable_package> (params, tn, false /* archived */));
// Specify the portion. Note that we will still be querying packages in
// chunks, not to hold locks for too long.
//
size_t offset (0);
pq += "ORDER BY" +
pkg_query::build_package::id.name +
order_by_version_desc (pkg_query::build_package::id.version,
false /* first */) + "," +
pkg_query::build_package::id.tenant +
"OFFSET" + pkg_query::_ref (offset) + "LIMIT 50";
connection_ptr conn (build_db_->connection ());
prep_pkg_query pkg_prep_query (
conn->prepare_query<buildable_package> ("mod-builds-package-query", pq));
// Prepare the build prepared query.
//
// For each package we will generate a set of all possible builds. Then,
// iterating over the actual builds for the package we will exclude them
// from the set of possible ones. The resulted set represents unbuilt
// package configurations, and so will be printed.
//
using bld_query = query<package_build>;
using prep_bld_query = prepared_query<package_build>;
package_id id;
bld_query bq (
package_id_eq<package_build> (bld_query::build::id.package, id) &&
// Note that the query already constrains the tenant via the build
// package id.
//
build_query<package_build> (
&conf_names, bld_params, nullopt /* tenant */, false /* archived */));
prep_bld_query bld_prep_query (
conn->prepare_query<package_build> ("mod-builds-build-query", bq));
size_t skip (page * page_configs);
size_t print (page_configs);
// Enclose the subsequent tables to be able to use nth-child CSS selector.
//
s << DIV;
while (print != 0)
{
transaction t (conn->begin ());
// Query (and cache) buildable packages.
//
auto packages (pkg_prep_query.execute ());
if (packages.empty ())
print = 0;
else
{
offset += packages.size ();
// Iterate over packages and print unbuilt configurations. Skip the
// appropriate number of them first (for page number greater than one).
//
for (auto& p: packages)
{
id = move (p.id);
// Copy configuration/toolchain combinations for this package,
// skipping excluded configurations.
//
set<config_toolchain> unbuilt_configs;
{
shared_ptr<build_package> p (build_db_->load<build_package> (id));
for (const auto& ct: config_toolchains)
{
auto i (build_conf_map_->find (ct.configuration.c_str ()));
assert (i != build_conf_map_->end ());
if (!exclude (p->builds, p->constraints, *i->second))
unbuilt_configs.insert (ct);
}
}
// Iterate through the package configuration builds and erase them
// from the unbuilt configurations set.
//
for (const auto& pb: bld_prep_query.execute ())
{
const build& b (*pb.build);
unbuilt_configs.erase ({
b.id.configuration, b.toolchain_name, b.toolchain_version});
}
// Print unbuilt package configurations.
//
for (const auto& ct: unbuilt_configs)
{
if (skip != 0)
{
--skip;
continue;
}
auto i (build_conf_map_->find (ct.configuration.c_str ()));
assert (i != build_conf_map_->end ());
s << TABLE(CLASS="proplist build")
<< TBODY
<< TR_NAME (id.name, string (), root, id.tenant)
<< TR_VERSION (id.name, p.version, root, id.tenant)
<< TR_VALUE ("toolchain",
string (ct.toolchain_name) + '-' +
ct.toolchain_version.string ())
<< TR_VALUE ("config", ct.configuration)
<< TR_VALUE ("target", i->second->target.string ());
// In the global view mode add the tenant builds link. Note that
// the global view (and the link) makes sense only in the
// multi-tenant mode.
//
if (!tn && !id.tenant.empty ())
s << TR_TENANT (tenant_name, "builds", root, id.tenant);
s << ~TBODY
<< ~TABLE;
if (--print == 0) // Bail out the configuration loop.
break;
}
if (print == 0) // Bail out the package loop.
break;
}
}
t.commit ();
}
s << ~DIV;
}
string u (tenant_dir (root, tenant).string () + "?builds");
if (!params.name ().empty ())
{
u += '=';
u += mime_url_encode (params.name ());
}
auto add_filter = [&u] (const char* pn,
const string& pv,
const char* def = "")
{
if (pv != def)
{
u += '&';
u += pn;
u += '=';
u += mime_url_encode (pv);
}
};
add_filter ("pv", params.version ());
add_filter ("tc", params.toolchain (), "*");
add_filter ("cf", params.configuration ());
add_filter ("mn", params.machine ());
add_filter ("tg", params.target ());
add_filter ("rs", params.result (), "*");
s << DIV_PAGER (page, count, page_configs, options_->build_pages (), u)
<< ~DIV
<< ~BODY
<< ~HTML;
return true;
}
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