libvirt/daemon/remote_generator.pl

1238 lines
48 KiB
Perl
Raw Normal View History

#!/usr/bin/perl -w
#
# This script parses remote_protocol.x or qemu_protocol.x and produces lots of
# boilerplate code for both ends of the remote connection.
#
# The first non-option argument specifies the prefix to be searched for, and
# output to, the boilerplate code. The second non-option argument is the
# file you want to operate on. For instance, to generate the dispatch table
# for both remote_protocol.x and qemu_protocol.x, you would run the
# following:
#
# remote_generator.pl -c -t remote ../src/remote/remote_protocol.x
# remote_generator.pl -t qemu ../src/remote/qemu_protocol.x
#
# By Richard Jones <rjones@redhat.com>
# Extended by Matthias Bolte <matthias.bolte@googlemail.com>
use strict;
use Getopt::Std;
# Command line options.
our ($opt_p, $opt_t, $opt_a, $opt_r, $opt_d, $opt_c, $opt_b, $opt_k);
getopts ('ptardcbk');
my $structprefix = $ARGV[0];
my $procprefix = uc $structprefix;
shift;
# Convert name_of_call to NameOfCall.
sub name_to_ProcName {
my $name = shift;
my @elems = split /_/, $name;
@elems = map ucfirst, @elems;
@elems = map { $_ =~ s/Nwfilter/NWFilter/; $_ =~ s/Xml/XML/;
$_ =~ s/Uri/URI/; $_ =~ s/Uuid/UUID/; $_ =~ s/Id/ID/;
$_ =~ s/Mac/MAC/; $_ =~ s/Cpu/CPU/; $_ =~ s/Os/OS/;
$_ =~ s/Nmi/NMI/; $_ } @elems;
join "", @elems
}
# Read the input file (usually remote_protocol.x) and form an
# opinion about the name, args and return type of each RPC.
my ($name, $ProcName, $id, %calls, @calls);
# only generate a close method if -c was passed
if ($opt_c) {
# REMOTE_PROC_CLOSE has no args or ret.
$calls{close} = {
name => "close",
ProcName => "Close",
UC_NAME => "CLOSE",
args => "void",
ret => "void",
};
}
my $collect_args_members = 0;
my $collect_ret_members = 0;
my $last_name;
while (<>) {
if ($collect_args_members) {
if (/^};/) {
$collect_args_members = 0;
} elsif ($_ =~ m/^\s*(.*\S)\s*$/) {
push(@{$calls{$name}->{args_members}}, $1);
}
} elsif ($collect_ret_members) {
if (/^};/) {
$collect_ret_members = 0;
} elsif ($_ =~ m/^\s*(.*\S)\s*$/) {
push(@{$calls{$name}->{ret_members}}, $1);
}
} elsif (/^struct ${structprefix}_(.*)_args/) {
$name = $1;
$ProcName = name_to_ProcName ($name);
die "duplicate definition of ${structprefix}_${name}_args"
if exists $calls{$name};
$calls{$name} = {
name => $name,
ProcName => $ProcName,
UC_NAME => uc $name,
args => "${structprefix}_${name}_args",
args_members => [],
ret => "void"
};
$collect_args_members = 1;
$collect_ret_members = 0;
$last_name = $name;
} elsif (/^struct ${structprefix}_(.*)_ret/) {
$name = $1;
$ProcName = name_to_ProcName ($name);
if (exists $calls{$name}) {
$calls{$name}->{ret} = "${structprefix}_${name}_ret";
} else {
$calls{$name} = {
name => $name,
ProcName => $ProcName,
UC_NAME => uc $name,
args => "void",
ret => "${structprefix}_${name}_ret",
ret_members => []
}
}
$collect_args_members = 0;
$collect_ret_members = 1;
$last_name = $name;
} elsif (/^struct ${structprefix}_(.*)_msg/) {
$name = $1;
$ProcName = name_to_ProcName ($name);
$calls{$name} = {
name => $name,
ProcName => $ProcName,
UC_NAME => uc $name,
msg => "${structprefix}_${name}_msg"
};
$collect_args_members = 0;
$collect_ret_members = 0;
} elsif (/^\s*${procprefix}_PROC_(.*?)\s+=\s+(\d+),?$/) {
$name = lc $1;
$id = $2;
$ProcName = name_to_ProcName ($name);
$calls[$id] = $calls{$name};
$collect_args_members = 0;
$collect_ret_members = 0;
} else {
$collect_args_members = 0;
$collect_ret_members = 0;
}
}
#----------------------------------------------------------------------
# Output
print <<__EOF__;
/* Automatically generated by remote_generator.pl.
* Do not edit this file. Any changes you make will be lost.
*/
__EOF__
if (!$opt_b and !$opt_k) {
print "\n";
}
# Debugging.
if ($opt_d) {
my @keys = sort (keys %calls);
foreach (@keys) {
print "$_:\n";
print " name $calls{$_}->{name} ($calls{$_}->{ProcName})\n";
print " $calls{$_}->{args} -> $calls{$_}->{ret}\n";
}
}
# Prototypes for dispatch functions ("remote_dispatch_prototypes.h").
elsif ($opt_p) {
my @keys = sort (keys %calls);
foreach (@keys) {
# Skip things which are REMOTE_MESSAGE
next if $calls{$_}->{msg};
print "static int ${structprefix}Dispatch$calls{$_}->{ProcName}(\n";
print " struct qemud_server *server,\n";
print " struct qemud_client *client,\n";
print " virConnectPtr conn,\n";
print " remote_message_header *hdr,\n";
print " remote_error *rerr,\n";
print " $calls{$_}->{args} *args,\n";
print " $calls{$_}->{ret} *ret);\n";
}
}
# Union of all arg types
# ("remote_dispatch_args.h").
elsif ($opt_a) {
for ($id = 0 ; $id <= $#calls ; $id++) {
if (defined $calls[$id] &&
!$calls[$id]->{msg} &&
$calls[$id]->{args} ne "void") {
print " $calls[$id]->{args} val_$calls[$id]->{args};\n";
}
}
}
# Union of all arg types
# ("remote_dispatch_ret.h").
elsif ($opt_r) {
for ($id = 0 ; $id <= $#calls ; $id++) {
if (defined $calls[$id] &&
!$calls[$id]->{msg} &&
$calls[$id]->{ret} ne "void") {
print " $calls[$id]->{ret} val_$calls[$id]->{ret};\n";
}
}
}
# Inside the switch statement, prepare the 'fn', 'args_filter', etc
# ("remote_dispatch_table.h").
elsif ($opt_t) {
for ($id = 0 ; $id <= $#calls ; $id++) {
if (defined $calls[$id] && !$calls[$id]->{msg}) {
print "{ /* $calls[$id]->{ProcName} => $id */\n";
print " .fn = (dispatch_fn) ${structprefix}Dispatch$calls[$id]->{ProcName},\n";
if ($calls[$id]->{args} ne "void") {
print " .args_filter = (xdrproc_t) xdr_$calls[$id]->{args},\n";
} else {
print " .args_filter = (xdrproc_t) xdr_void,\n";
}
if ($calls[$id]->{ret} ne "void") {
print " .ret_filter = (xdrproc_t) xdr_$calls[$id]->{ret},\n";
} else {
print " .ret_filter = (xdrproc_t) xdr_void,\n";
}
print "},\n";
} else {
if ($calls[$id]->{msg}) {
print "{ /* Async event $calls[$id]->{ProcName} => $id */\n";
} else {
print "{ /* (unused) => $id */\n";
}
print " .fn = NULL,\n";
print " .args_filter = (xdrproc_t) xdr_void,\n";
print " .ret_filter = (xdrproc_t) xdr_void,\n";
print "},\n";
}
}
}
# Bodies for dispatch functions ("remote_dispatch_bodies.h").
elsif ($opt_b) {
# list of functions that currently are not generatable
my @ungeneratable;
if ($structprefix eq "remote") {
@ungeneratable = ("Close",
"DomainEventsDeregisterAny",
"DomainEventsRegisterAny",
"DomainMigratePrepareTunnel",
"DomainOpenConsole",
"DomainPinVcpu",
"DomainSetSchedulerParameters",
"DomainSetMemoryParameters",
"DomainSetBlkioParameters",
"Open",
"StorageVolUpload",
"StorageVolDownload",
"AuthList",
"AuthSaslInit",
"AuthSaslStart",
"AuthSaslStep",
"AuthPolkit",
"DomainBlockPeek",
"DomainCreateWithFlags",
"DomainEventsDeregister",
"DomainEventsRegister",
"DomainGetBlkioParameters",
"DomainGetMemoryParameters",
"DomainGetSchedulerParameters",
"DomainGetSchedulerType",
"DomainGetSecurityLabel",
"DomainGetVcpus",
"DomainMemoryPeek",
"DomainMemoryStats",
"DomainMigratePrepare",
"DomainMigratePrepare2",
"GetType",
"NodeDeviceGetParent",
"NodeGetSecurityModel",
"SecretGetValue");
} elsif ($structprefix eq "qemu") {
@ungeneratable = ("MonitorCommand");
}
my %ug = map { $_ => 1 } @ungeneratable;
my @keys = sort (keys %calls);
foreach (@keys) {
# skip things which are REMOTE_MESSAGE
next if $calls{$_}->{msg};
if (exists($ug{$calls{$_}->{ProcName}})) {
print "\n/* ${structprefix}Dispatch$calls{$_}->{ProcName} has " .
"to be implemented manually */\n";
next;
}
my $has_node_device = 0;
my @vars_list = ();
my @optionals_list = ();
my @getters_list = ();
my @args_list = ();
my @ret_list = ();
my @free_list = ();
my @free_list_on_error = ("remoteDispatchError(rerr);");
# handle arguments to the function
if ($calls{$_}->{args} ne "void") {
# node device is special, as it's identified by name
if ($calls{$_}->{args} =~ m/^remote_node_device_/ and
!($calls{$_}->{args} =~ m/^remote_node_device_lookup_by_name_/) and
!($calls{$_}->{args} =~ m/^remote_node_device_create_xml_/)) {
$has_node_device = 1;
push(@vars_list, "virNodeDevicePtr dev = NULL");
push(@getters_list,
" if (!(dev = virNodeDeviceLookupByName(conn, args->name)))\n" .
" goto cleanup;\n");
push(@args_list, "dev");
push(@free_list,
" if (dev)\n" .
" virNodeDeviceFree(dev);");
}
foreach my $args_member (@{$calls{$_}->{args_members}}) {
if ($args_member =~ m/^remote_nonnull_string name;/ and $has_node_device) {
# ignore the name arg for node devices
next
} elsif ($args_member =~ m/^remote_nonnull_(domain|network|storage_pool|storage_vol|interface|secret|nwfilter) (\S+);/) {
my $type_name = name_to_ProcName($1);
push(@vars_list, "vir${type_name}Ptr $2 = NULL");
push(@getters_list,
" if (!($2 = get_nonnull_$1(conn, args->$2)))\n" .
" goto cleanup;\n");
push(@args_list, "$2");
push(@free_list,
" if ($2)\n" .
" vir${type_name}Free($2);");
} elsif ($args_member =~ m/^remote_nonnull_domain_snapshot /) {
push(@vars_list, "virDomainPtr dom = NULL");
push(@vars_list, "virDomainSnapshotPtr snapshot = NULL");
push(@getters_list,
" if (!(dom = get_nonnull_domain(conn, args->snap.dom)))\n" .
" goto cleanup;\n" .
"\n" .
" if (!(snapshot = get_nonnull_domain_snapshot(dom, args->snap)))\n" .
" goto cleanup;\n");
push(@args_list, "snapshot");
push(@free_list,
" if (snapshot)\n" .
" virDomainSnapshotFree(snapshot);\n" .
" if (dom)\n" .
" virDomainFree(dom);");
} elsif ($args_member =~ m/^(remote_string|remote_nonnull_string|remote_uuid|opaque) (\S+)<\S+>;/) {
if (! @args_list) {
push(@args_list, "conn");
}
if ($calls{$_}->{ProcName} eq "SecretSetValue") {
push(@args_list, "(const unsigned char *)args->$2.$2_val");
} elsif ($calls{$_}->{ProcName} eq "CPUBaseline") {
push(@args_list, "(const char **)args->$2.$2_val");
} else {
push(@args_list, "args->$2.$2_val");
}
push(@args_list, "args->$2.$2_len");
} elsif ($args_member =~ m/<\S+>;/ or $args_member =~ m/\[\S+\];/) {
# just make all other array types fail
die "unhandled type for argument value: $args_member";
} elsif ($args_member =~ m/^remote_uuid (\S+);/) {
if (! @args_list) {
push(@args_list, "conn");
}
push(@args_list, "(unsigned char *) args->$1");
} elsif ($args_member =~ m/^remote_string (\S+);/) {
if (! @args_list) {
push(@args_list, "conn");
}
push(@vars_list, "char *$1");
push(@optionals_list, "$1");
push(@args_list, "$1");
} elsif ($args_member =~ m/^remote_nonnull_string (\S+);/) {
if (! @args_list) {
push(@args_list, "conn");
}
push(@args_list, "args->$1");
} elsif ($args_member =~ m/^(unsigned )?(int|hyper) (\S+);/) {
if (! @args_list) {
push(@args_list, "conn");
}
push(@args_list, "args->$3");
} elsif ($args_member =~ m/^(\/)?\*/) {
# ignore comments
} else {
die "unhandled type for argument value: $args_member";
}
}
}
# handle return values of the function
my $single_ret_var = "undefined";
my $single_ret_by_ref = 0;
my $single_ret_check = " == undefined";
my $single_ret_as_list = 0;
my $single_ret_list_name = "undefined";
my $single_ret_list_max_var = "undefined";
my $single_ret_list_max_define = "undefined";
my $multi_ret = 0;
if ($calls{$_}->{ret} ne "void" and
scalar(@{$calls{$_}->{ret_members}}) > 1) {
$multi_ret = 1;
}
if ($calls{$_}->{ret} ne "void") {
foreach my $ret_member (@{$calls{$_}->{ret_members}}) {
if ($multi_ret) {
if ($ret_member =~ m/^(unsigned )?(char|short|int|hyper) (\S+)\[\S+\];/) {
push(@ret_list, "memcpy(ret->$3, tmp.$3, sizeof ret->$3);");
} elsif ($ret_member =~ m/^(unsigned )?(char|short|int|hyper) (\S+);/) {
push(@ret_list, "ret->$3 = tmp.$3;");
} else {
die "unhandled type for multi-return-value: $ret_member";
}
} elsif ($ret_member =~ m/^remote_nonnull_string (\S+)<(\S+)>;/) {
push(@vars_list, "int len");
push(@ret_list, "ret->$1.$1_len = len;");
push(@free_list_on_error, "VIR_FREE(ret->$1.$1_val);");
$single_ret_var = "len";
$single_ret_by_ref = 0;
$single_ret_check = " < 0";
$single_ret_as_list = 1;
$single_ret_list_name = $1;
$single_ret_list_max_var = "max$1";
$single_ret_list_max_define = $2;
if ($calls{$_}->{ProcName} eq "NodeListDevices") {
my $conn = shift(@args_list);
my $cap = shift(@args_list);
unshift(@args_list, "ret->$1.$1_val");
unshift(@args_list, $cap);
unshift(@args_list, $conn);
} else {
my $conn = shift(@args_list);
unshift(@args_list, "ret->$1.$1_val");
unshift(@args_list, $conn);
}
} elsif ($ret_member =~ m/^remote_nonnull_string (\S+);/) {
push(@vars_list, "char *$1");
push(@ret_list, "ret->$1 = $1;");
$single_ret_var = $1;
$single_ret_by_ref = 0;
$single_ret_check = " == NULL";
} elsif ($ret_member =~ m/^remote_nonnull_(domain|network|storage_pool|storage_vol|interface|node_device|secret|nwfilter|domain_snapshot) (\S+);/) {
my $type_name = name_to_ProcName($1);
push(@vars_list, "vir${type_name}Ptr $2 = NULL");
push(@ret_list, "make_nonnull_$1(&ret->$2, $2);");
push(@free_list,
" if ($2)\n" .
" vir${type_name}Free($2);");
$single_ret_var = $2;
$single_ret_by_ref = 0;
$single_ret_check = " == NULL";
} elsif ($ret_member =~ m/^int (\S+)<(\S+)>;/) {
push(@vars_list, "int len");
push(@ret_list, "ret->$1.$1_len = len;");
push(@free_list_on_error, "VIR_FREE(ret->$1.$1_val);");
$single_ret_var = "len";
$single_ret_by_ref = 0;
$single_ret_check = " < 0";
$single_ret_as_list = 1;
$single_ret_list_name = $1;
$single_ret_list_max_var = "max$1";
$single_ret_list_max_define = $2;
my $conn = shift(@args_list);
unshift(@args_list, "ret->$1.$1_val");
unshift(@args_list, $conn);
} elsif ($ret_member =~ m/^int (\S+);/) {
push(@vars_list, "int $1");
push(@ret_list, "ret->$1 = $1;");
$single_ret_var = $1;
if ($calls{$_}->{ProcName} =~ m/GetAutostart$/) {
$single_ret_by_ref = 1;
} else {
$single_ret_by_ref = 0;
if ($calls{$_}->{ProcName} eq "CPUCompare") {
$single_ret_check = " == VIR_CPU_COMPARE_ERROR";
} else {
$single_ret_check = " < 0";
}
}
} elsif ($ret_member =~ m/^hyper (\S+)<(\S+)>;/) {
push(@vars_list, "int len");
push(@ret_list, "ret->$1.$1_len = len;");
push(@free_list_on_error, "VIR_FREE(ret->$1.$1_val);");
$single_ret_var = "len";
$single_ret_by_ref = 0;
$single_ret_as_list = 1;
$single_ret_list_name = $1;
$single_ret_list_max_define = $2;
my $conn = shift(@args_list);
if ($calls{$_}->{ProcName} eq "NodeGetCellsFreeMemory") {
$single_ret_check = " <= 0";
$single_ret_list_max_var = "maxCells";
unshift(@args_list, "(unsigned long long *)ret->$1.$1_val");
} else {
$single_ret_check = " < 0";
$single_ret_list_max_var = "max$1";
unshift(@args_list, "ret->$1.$1_val");
}
unshift(@args_list, $conn);
} elsif ($ret_member =~ m/^(unsigned )?hyper (\S+);/) {
my $type_name;
my $ret_name = $2;
$type_name = $1 if ($1);
$type_name .= "long";
if ($type_name eq "long" and
$calls{$_}->{ProcName} =~ m/^Get(Lib)?Version$/) {
# SPECIAL: virConnectGet(Lib)?Version uses unsigned long
# in public API but hyper in XDR protocol
$type_name = "unsigned long";
}
push(@vars_list, "$type_name $ret_name");
push(@ret_list, "ret->$ret_name = $ret_name;");
$single_ret_var = $ret_name;
if ($calls{$_}->{ProcName} eq "DomainGetMaxMemory" or
$calls{$_}->{ProcName} eq "NodeGetFreeMemory") {
# SPECIAL: virDomainGetMaxMemory and virNodeGetFreeMemory
# return the actual value directly and 0 indicates
# an error
$single_ret_by_ref = 0;
$single_ret_check = " == 0";
} else {
$single_ret_by_ref = 1;
}
} else {
die "unhandled type for return value: $ret_member";
}
}
}
# select struct type for multi-return-value functions
if ($multi_ret) {
if (! @args_list) {
push(@args_list, "conn");
}
my $struct_name = $calls{$_}->{ProcName};
$struct_name =~ s/Get//;
if ($calls{$_}->{ProcName} eq "DomainGetBlockInfo") {
# SPECIAL: virDomainGetBlockInfo has flags parameter after
# the struct parameter in its signature
my $flags = pop(@args_list);
push(@args_list, "&tmp");
push(@args_list, $flags);
} elsif ($calls{$_}->{ProcName} eq "DomainBlockStats" ||
$calls{$_}->{ProcName} eq "DomainInterfaceStats") {
# SPECIAL: virDomainBlockStats and virDomainInterfaceStats
# have a 'Struct' suffix on the actual struct name
# and take the struct size as additional argument
$struct_name .= "Struct";
push(@args_list, "&tmp");
push(@args_list, "sizeof tmp");
} else {
push(@args_list, "&tmp");
}
push(@vars_list, "vir$struct_name tmp");
}
# print functions signature
print "\n";
print "static int\n";
print "${structprefix}Dispatch$calls{$_}->{ProcName}(\n";
print " struct qemud_server *server ATTRIBUTE_UNUSED,\n";
print " struct qemud_client *client ATTRIBUTE_UNUSED,\n";
print " virConnectPtr conn,\n";
print " remote_message_header *hdr ATTRIBUTE_UNUSED,\n";
print " remote_error *rerr,\n";
print " $calls{$_}->{args} *args";
if ($calls{$_}->{args} eq "void") {
print " ATTRIBUTE_UNUSED"
}
print ",\n";
print " $calls{$_}->{ret} *ret";
if ($calls{$_}->{ret} eq "void") {
print " ATTRIBUTE_UNUSED"
}
print ")\n";
# print function body
print "{\n";
print " int rv = -1;\n";
foreach my $var (@vars_list) {
print " $var;\n";
}
print "\n";
print " if (!conn) {\n";
print " virNetError(VIR_ERR_INTERNAL_ERROR, \"%s\", _(\"connection not open\"));\n";
print " goto cleanup;\n";
print " }\n";
print "\n";
if ($single_ret_as_list) {
print " if (args->$single_ret_list_max_var > $single_ret_list_max_define) {\n";
print " virNetError(VIR_ERR_INTERNAL_ERROR,\n";
print " \"%s\", _(\"max$single_ret_list_name > $single_ret_list_max_define\"));\n";
print " goto cleanup;\n";
print " }\n";
print "\n";
}
print join("\n", @getters_list);
if (@getters_list) {
print "\n";
}
foreach my $optional (@optionals_list) {
print " $optional = args->$optional ? *args->$optional : NULL;\n";
}
if (@optionals_list) {
print "\n";
}
if ($calls{$_}->{ret} eq "void") {
print " if (vir$calls{$_}->{ProcName}(";
print join(', ', @args_list);
print ") < 0)\n";
print " goto cleanup;\n";
print "\n";
} elsif (!$multi_ret) {
my $prefix = "";
my $proc_name = $calls{$_}->{ProcName};
if (! @args_list) {
push(@args_list, "conn");
if ($calls{$_}->{ProcName} ne "NodeGetFreeMemory") {
$prefix = "Connect"
}
}
if ($calls{$_}->{ProcName} eq "GetSysinfo" or
$calls{$_}->{ProcName} eq "GetMaxVcpus" or
$calls{$_}->{ProcName} eq "DomainXMLFromNative" or
$calls{$_}->{ProcName} eq "DomainXMLToNative" or
$calls{$_}->{ProcName} eq "FindStoragePoolSources" or
$calls{$_}->{ProcName} =~ m/^List/) {
$prefix = "Connect"
} elsif ($calls{$_}->{ProcName} eq "SupportsFeature") {
$prefix = "Drv"
} elsif ($calls{$_}->{ProcName} eq "CPUBaseline") {
$proc_name = "ConnectBaselineCPU"
} elsif ($calls{$_}->{ProcName} eq "CPUCompare") {
$proc_name = "ConnectCompareCPU"
}
if ($single_ret_as_list) {
print " /* Allocate return buffer. */\n";
print " if (VIR_ALLOC_N(ret->$single_ret_list_name.${single_ret_list_name}_val," .
" args->$single_ret_list_max_var) < 0) {\n";
print " virReportOOMError();\n";
print " goto cleanup;\n";
print " }\n";
print "\n";
}
if ($single_ret_by_ref) {
print " if (vir$prefix$proc_name(";
print join(', ', @args_list);
print ", &$single_ret_var) < 0)\n";
} else {
print " if (($single_ret_var = vir$prefix$proc_name(";
print join(', ', @args_list);
print "))$single_ret_check)\n";
}
print " goto cleanup;\n";
print "\n";
if (@ret_list) {
print " ";
}
print join("\n ", @ret_list);
print "\n";
} else {
print " if (vir$calls{$_}->{ProcName}(";
print join(', ', @args_list);
print ") < 0)\n";
print " goto cleanup;\n";
print "\n";
if (@ret_list) {
print " ";
}
print join("\n ", @ret_list);
print "\n";
}
print " rv = 0;\n";
print "\n";
print "cleanup:\n";
print " if (rv < 0)";
if (scalar(@free_list_on_error) > 1) {
print " {";
}
print "\n ";
print join("\n ", @free_list_on_error);
print "\n";
if (scalar(@free_list_on_error) > 1) {
print " }\n";
}
print join("\n", @free_list);
if (@free_list) {
print "\n";
}
print " return rv;\n";
print "}\n";
}
}
# Bodies for client functions ("remote_client_bodies.h").
elsif ($opt_k) {
# list of functions that currently are not generatable
my @ungeneratable;
if ($structprefix eq "remote") {
@ungeneratable = ("Close",
"DomainEventsDeregisterAny",
"DomainEventsRegisterAny",
"DomainMigratePrepareTunnel",
"DomainOpenConsole",
"DomainSetSchedulerParameters",
"DomainSetMemoryParameters",
"DomainSetBlkioParameters",
"Open",
"StorageVolUpload",
"StorageVolDownload",
"AuthList",
"AuthSaslInit",
"AuthSaslStart",
"AuthSaslStep",
"AuthPolkit",
"DomainCreate",
"DomainDestroy",
"FindStoragePoolSources",
"IsSecure",
"SupportsFeature",
"NodeGetCellsFreeMemory",
"ListDomains",
"GetURI",
"NodeDeviceDettach",
"NodeDeviceReset",
"NodeDeviceReAttach",
"DomainBlockPeek",
"DomainCreateWithFlags",
"DomainEventsDeregister",
"DomainEventsRegister",
"DomainGetBlkioParameters",
"DomainGetMemoryParameters",
"DomainGetSchedulerParameters",
"DomainGetSchedulerType",
"DomainGetSecurityLabel",
"DomainGetVcpus",
"DomainMemoryPeek",
"DomainMemoryStats",
"DomainMigratePrepare",
"DomainMigratePrepare2",
"GetType",
"NodeDeviceGetParent",
"NodeGetSecurityModel",
"SecretGetValue");
} elsif ($structprefix eq "qemu") {
@ungeneratable = ("MonitorCommand");
}
my %ug = map { $_ => 1 } @ungeneratable;
my @keys = sort (keys %calls);
foreach (@keys) {
my $call = $calls{$_};
# skip things which are REMOTE_MESSAGE
next if $call->{msg};
if (exists($ug{$call->{ProcName}})) {
print "\n/* ${structprefix}Dispatch$call->{ProcName} has to " .
"be implemented manually */\n";
next;
}
# handle arguments to the function
my @args_list = ();
my @vars_list = ();
my @args_check_list = ();
my @setters_list = ();
my $priv_src = "conn";
my $priv_name = "privateData";
my $call_args = "&args";
if ($call->{args} eq "void") {
$call_args = "NULL";
} else {
push(@vars_list, "$call->{args} args");
my $is_first_arg = 1;
my $has_node_device = 0;
# node device is special
if ($call->{args} =~ m/^remote_node_/ and
!($call->{args} =~ m/^remote_node_device_lookup_by_name_/) and
!($call->{args} =~ m/^remote_node_device_create_xml_/)) {
$has_node_device = 1;
$priv_name = "devMonPrivateData";
}
foreach my $args_member (@{$call->{args_members}}) {
if ($args_member =~ m/^remote_nonnull_string name;/ and $has_node_device) {
$priv_src = "dev->conn";
push(@args_list, "virNodeDevicePtr dev");
push(@setters_list, "args.name = dev->name;");
} elsif ($args_member =~ m/^remote_nonnull_(domain|network|storage_pool|storage_vol|interface|secret|nwfilter|domain_snapshot) (\S+);/) {
my $name = $1;
my $arg_name = $2;
my $type_name = name_to_ProcName($name);
if ($is_first_arg) {
if ($name eq "domain_snapshot") {
$priv_src = "$arg_name->domain->conn";
} else {
$priv_src = "$arg_name->conn";
}
if ($name =~ m/^storage_/) {
$priv_name = "storagePrivateData";
} elsif (!($name =~ m/^domain/)) {
$priv_name = "${name}PrivateData";
}
}
push(@args_list, "vir${type_name}Ptr $arg_name");
push(@setters_list, "make_nonnull_$1(&args.$arg_name, $arg_name);");
} elsif ($args_member =~ m/^remote_uuid (\S+);/) {
push(@args_list, "const unsigned char *$1");
push(@setters_list, "memcpy(args.$1, $1, VIR_UUID_BUFLEN);");
} elsif ($args_member =~ m/^remote_string (\S+);/) {
push(@args_list, "const char *$1");
push(@setters_list, "args.$1 = $1 ? (char **)&$1 : NULL;");
} elsif ($args_member =~ m/^remote_nonnull_string (\S+)<(\S+)>;/) {
push(@args_list, "const char **$1");
push(@args_list, "unsigned int ${1}len");
push(@setters_list, "args.$1.${1}_val = (char **)$1;");
push(@setters_list, "args.$1.${1}_len = ${1}len;");
push(@args_check_list, { name => "\"$1\"", arg => "${1}len", limit => $2 });
} elsif ($args_member =~ m/^remote_nonnull_string (\S+);/) {
push(@args_list, "const char *$1");
push(@setters_list, "args.$1 = (char *)$1;");
} elsif ($args_member =~ m/^(remote_string|opaque) (\S+)<(\S+)>;/) {
my $type_name = $1;
my $arg_name = $2;
my $limit = $3;
if ($call->{ProcName} eq "SecretSetValue") {
push(@args_list, "const unsigned char *$arg_name");
push(@args_list, "size_t ${arg_name}len");
} elsif ($call->{ProcName} eq "DomainPinVcpu") {
push(@args_list, "unsigned char *$arg_name");
push(@args_list, "int ${arg_name}len");
} else {
push(@args_list, "const char *$arg_name");
push(@args_list, "int ${arg_name}len");
}
push(@setters_list, "args.$arg_name.${arg_name}_val = (char *)$arg_name;");
push(@setters_list, "args.$arg_name.${arg_name}_len = ${arg_name}len;");
push(@args_check_list, { name => "\"$arg_name\"", arg => "${arg_name}len", limit => $limit });
} elsif ($args_member =~ m/^(unsigned )?(int|hyper) (\S+);/) {
my $type_name;
my $arg_name = $3;
$type_name = $1 if ($1);
$type_name .= $2;
$type_name =~ s/hyper/long/;
if ($type_name eq "int") {
# fix bad decisions in the xdr protocol
if ($arg_name eq "flags" and
$call->{ProcName} ne "DomainCoreDump" and
$call->{ProcName} ne "DomainGetXMLDesc" and
$call->{ProcName} ne "NetworkGetXMLDesc") {
$type_name = "unsigned int";
} elsif ($arg_name eq "nvcpus" and
$call->{ProcName} eq "DomainSetVcpus") {
$type_name = "unsigned int";
} elsif ($arg_name eq "vcpu" and
$call->{ProcName} eq "DomainPinVcpu") {
$type_name = "unsigned int";
}
}
if ($call->{ProcName} eq "DomainMigrateSetMaxDowntime" and
$arg_name eq "downtime") {
$type_name = "unsigned long long";
}
push(@args_list, "$type_name $arg_name");
push(@setters_list, "args.$arg_name = $arg_name;");
} elsif ($args_member =~ m/^(\/)?\*/) {
# ignore comments
} else {
die "unhandled type for argument value: $args_member";
}
if ($is_first_arg and $priv_src eq "conn") {
unshift(@args_list, "virConnectPtr conn");
}
$is_first_arg = 0;
}
}
if (! @args_list) {
push(@args_list, "virConnectPtr conn");
}
if ($call->{ProcName} eq "NWFilterDefineXML") {
# SPECIAL: virNWFilterDefineXML has a flags parameter in the
# public API that is missing in the XDR protocol
push(@args_list, "unsigned int flags ATTRIBUTE_UNUSED");
}
# fix priv_name for the NumOf* functions
if ($priv_name eq "privateData" and
!($call->{ProcName} =~ m/(Domains|DomainSnapshot)/) and
($call->{ProcName} =~ m/NumOf(Defined|Domain)*(\S+)s/ or
$call->{ProcName} =~ m/List(Defined|Domain)*(\S+)s/)) {
my $prefix = lc $2;
$prefix =~ s/(pool|vol)$//;
$priv_name = "${prefix}PrivateData";
}
# handle return values of the function
my @ret_list = ();
my $call_ret = "&ret";
my $single_ret_var = "int rv = -1";
my $single_ret_type = "int";
my $single_ret_as_list = 0;
my $single_ret_list_error_msg_type = "undefined";
my $single_ret_list_name = "undefined";
my $single_ret_list_max_var = "undefined";
my $single_ret_list_max_define = "undefined";
my $multi_ret = 0;
if ($call->{ret} ne "void" and
scalar(@{$call->{ret_members}}) > 1) {
$multi_ret = 1;
}
if ($call->{ret} eq "void") {
$call_ret = "NULL";
} else {
push(@vars_list, "$call->{ret} ret");
foreach my $ret_member (@{$call->{ret_members}}) {
if ($multi_ret) {
if ($ret_member =~ m/^(unsigned )?(char|short|int|hyper) (\S+)\[\S+\];/) {
push(@ret_list, "memcpy(result->$3, ret.$3, sizeof result->$3);");
} elsif ($ret_member =~ m/<\S+>;/ or $ret_member =~ m/\[\S+\];/) {
# just make all other array types fail
die "unhandled type for multi-return-value: $ret_member";
} elsif ($ret_member =~ m/^(unsigned )?(char|short|int|hyper) (\S+);/) {
push(@ret_list, "result->$3 = ret.$3;");
} else {
die "unhandled type for multi-return-value: $ret_member";
}
} elsif ($ret_member =~ m/^remote_nonnull_string (\S+)<(\S+)>;/) {
$single_ret_as_list = 1;
$single_ret_list_name = $1;
$single_ret_list_max_var = "max$1";
$single_ret_list_max_define = $2;
my $first_arg = shift(@args_list);
my $second_arg;
if ($call->{ProcName} eq "NodeListDevices") {
$second_arg = shift(@args_list);
}
unshift(@args_list, "char **const $1");
if (defined $second_arg) {
unshift(@args_list, $second_arg);
}
unshift(@args_list, $first_arg);
push(@ret_list, "rv = ret.$1.$1_len;");
$single_ret_var = "int rv = -1";
$single_ret_type = "int";
} elsif ($ret_member =~ m/^remote_nonnull_string (\S+);/) {
push(@ret_list, "rv = ret.$1;");
$single_ret_var = "char *rv = NULL";
$single_ret_type = "char *";
} elsif ($ret_member =~ m/^remote_nonnull_(domain|network|storage_pool|storage_vol|node_device|interface|secret|nwfilter|domain_snapshot) (\S+);/) {
my $name = $1;
my $arg_name = $2;
my $type_name = name_to_ProcName($name);
if ($name eq "node_device") {
$priv_name = "devMonPrivateData";
} elsif ($name =~ m/^storage_/) {
$priv_name = "storagePrivateData";
} elsif (!($name =~ m/^domain/)) {
$priv_name = "${name}PrivateData";
}
if ($name eq "domain_snapshot") {
push(@ret_list, "rv = get_nonnull_$name(dom, ret.$arg_name);");
} else {
push(@ret_list, "rv = get_nonnull_$name($priv_src, ret.$arg_name);");
}
push(@ret_list, "xdr_free((xdrproc_t)xdr_$call->{ret}, (char *)&ret);");
$single_ret_var = "vir${type_name}Ptr rv = NULL";
$single_ret_type = "vir${type_name}Ptr";
} elsif ($ret_member =~ m/^int (\S+);/) {
my $arg_name = $1;
if ($call->{ProcName} =~ m/GetAutostart$/) {
push(@args_list, "int *$arg_name");
push(@ret_list, "if ($arg_name) *$arg_name = ret.$arg_name;");
push(@ret_list, "rv = 0;");
} else {
push(@ret_list, "rv = ret.$arg_name;");
}
$single_ret_var = "int rv = -1";
$single_ret_type = "int";
} elsif ($ret_member =~ m/^unsigned hyper (\S+);/) {
my $arg_name = $1;
push(@ret_list, "rv = ret.$arg_name;");
$single_ret_var = "unsigned long rv = 0";
$single_ret_type = "unsigned long";
} elsif ($ret_member =~ m/^hyper (\S+);/) {
my $arg_name = $1;
if ($call->{ProcName} =~ m/Get(Lib)?Version/) {
push(@args_list, "unsigned long *$arg_name");
push(@ret_list, "if ($arg_name) *$arg_name = ret.$arg_name;");
push(@ret_list, "rv = 0;");
$single_ret_var = "int rv = -1";
$single_ret_type = "int";
} elsif ($call->{ProcName} eq "NodeGetFreeMemory") {
push(@ret_list, "rv = ret.$arg_name;");
$single_ret_var = "unsigned long long rv = 0";
$single_ret_type = "unsigned long long";
} else {
die "unhandled type for return value: $ret_member";
}
} else {
die "unhandled type for return value: $ret_member";
}
}
}
# select struct type for multi-return-value functions
if ($multi_ret) {
my $last_arg;
my $struct_name = $call->{ProcName};
$struct_name =~ s/Get//;
if ($call->{ProcName} eq "DomainGetBlockInfo") {
# SPECIAL: virDomainGetBlockInfo has flags parameter after
# the struct parameter in its signature
$last_arg = pop(@args_list);
}
push(@args_list, "vir${struct_name}Ptr result");
if (defined $last_arg) {
push(@args_list, $last_arg);
}
}
# print function
print "\n";
print "static $single_ret_type\n";
print "remote$call->{ProcName}(";
print join(", ", @args_list);
print ")\n";
print "{\n";
print " $single_ret_var;\n";
print " struct private_data *priv = $priv_src->$priv_name;\n";
foreach my $var (@vars_list) {
print " $var;\n";
}
if ($single_ret_as_list) {
print " int i;\n";
}
print "\n";
print " remoteDriverLock(priv);\n";
foreach my $args_check (@args_check_list) {
print "\n";
print " if ($args_check->{arg} > $args_check->{limit}) {\n";
print " remoteError(VIR_ERR_RPC,\n";
print " _(\"%s length greater than maximum: %d > %d\"),\n";
print " $args_check->{name}, (int)$args_check->{arg}, $args_check->{limit});\n";
print " goto done;\n";
print " }\n";
}
if ($single_ret_as_list) {
print "\n";
print " if ($single_ret_list_max_var > $single_ret_list_max_define) {\n";
print " remoteError(VIR_ERR_RPC,\n";
print " _(\"too many remote ${single_ret_list_error_msg_type}s: %d > %d\"),\n";
print " $single_ret_list_max_var, $single_ret_list_max_define);\n";
print " goto done;\n";
print " }\n";
}
if (@setters_list) {
print "\n";
print " ";
}
print join("\n ", @setters_list);
if (@setters_list) {
print "\n";
}
if ($call->{ret} ne "void") {
print "\n";
print " memset(&ret, 0, sizeof ret);\n";
}
print "\n";
print " if (call($priv_src, priv, 0, ${procprefix}_PROC_$call->{UC_NAME},\n";
print " (xdrproc_t)xdr_$call->{args}, (char *)$call_args,\n";
print " (xdrproc_t)xdr_$call->{ret}, (char *)$call_ret) == -1)\n";
print " goto done;\n";
print "\n";
if ($single_ret_as_list) {
print " if (ret.$single_ret_list_name.${single_ret_list_name}_len > $single_ret_list_max_var) {\n";
print " remoteError(VIR_ERR_RPC,\n";
print " _(\"too many remote ${single_ret_list_error_msg_type}s: %d > %d\"),\n";
print " ret.$single_ret_list_name.${single_ret_list_name}_len, $single_ret_list_max_var);\n";
print " goto cleanup;\n";
print " }\n";
print "\n";
print " /* This call is caller-frees (although that isn't clear from\n";
print " * the documentation). However xdr_free will free up both the\n";
print " * names and the list of pointers, so we have to strdup the\n";
print " * names here. */\n";
print " for (i = 0; i < ret.$single_ret_list_name.${single_ret_list_name}_len; ++i) {\n";
print " ${single_ret_list_name}[i] = strdup(ret.$single_ret_list_name.${single_ret_list_name}_val[i]);\n";
print "\n";
print " if (${single_ret_list_name}[i] == NULL) {\n";
print " for (--i; i >= 0; --i)\n";
print " VIR_FREE(${single_ret_list_name}[i]);\n";
print "\n";
print " virReportOOMError();\n";
print " goto cleanup;\n";
print " }\n";
print " }\n";
print "\n";
}
if (@ret_list) {
print " ";
print join("\n ", @ret_list);
print "\n";
}
if ($multi_ret or !@ret_list) {
print " rv = 0;\n";
}
if ($single_ret_as_list) {
print "\n";
print "cleanup:\n";
print " xdr_free((xdrproc_t)xdr_remote_$call->{name}_ret, (char *)&ret);\n";
}
print "\n";
print "done:\n";
print " remoteDriverUnlock(priv);\n";
print " return rv;\n";
print "}\n";
}
}