#!/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 # Extended by Matthias Bolte 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/; $_ } @elems; join "", @elems } # Read the input file (usually remote_protocol.x) and form an # opinion about the name, args and return type of each RPC. my ($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) => $id */\n"; } print " .fn = NULL,\n"; print " .args_filter = (xdrproc_t) xdr_void,\n"; print " .ret_filter = (xdrproc_t) xdr_void,\n"; print "},\n"; } } } # Bodies for dispatch functions ("remote_dispatch_bodies.c"). elsif ($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 ($args_member =~ m/(\S+)<\S+>;/) { if (! @args_list) { push(@args_list, "conn"); } if ($calls{$_}->{ProcName} eq "SecretSetValue") { push(@args_list, "(const unsigned char *)args->$1.$1_val"); } elsif ($calls{$_}->{ProcName} eq "CPUBaseline") { push(@args_list, "(const char **)args->$1.$1_val"); } else { push(@args_list, "args->$1.$1_val"); } push(@args_list, "args->$1.$1_len"); } elsif ($args_member =~ m/(\S+) (\S+);/) { if (! @args_list) { push(@args_list, "conn"); } if ($1 eq "remote_uuid") { push(@args_list, "(unsigned char *) args->$2"); } elsif ($1 eq "remote_string") { push(@vars_list, "char *$2"); push(@optionals_list, "$2"); push(@args_list, "$2"); } else { push(@args_list, "args->$2"); } } elsif ($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/(char|short|int|hyper) (\S+)\[\S+\];/) { push(@ret_list, "memcpy(ret->$2, tmp.$2, sizeof ret->$2);"); } elsif ($ret_member =~ m/char (\S+);/ or $ret_member =~ m/short (\S+);/ or $ret_member =~ m/int (\S+);/ or $ret_member =~ m/hyper (\S+);/) { push(@ret_list, "ret->$1 = tmp.$1;"); } 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/hyper (\S+);/) { push(@vars_list, "unsigned long $1"); push(@ret_list, "ret->$1 = $1;"); $single_ret_var = $1; if ($calls{$_}->{ProcName} eq "DomainGetMaxMemory" or $calls{$_}->{ProcName} eq "NodeGetFreeMemory") { $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") { my $flags = pop(@args_list); push(@args_list, "&tmp"); push(@args_list, $flags); } elsif ($calls{$_}->{ProcName} eq "DomainBlockStats") { $struct_name .= "Struct"; push(@args_list, "&tmp"); push(@args_list, "sizeof tmp"); } elsif ($calls{$_}->{ProcName} eq "DomainInterfaceStats") { $struct_name .= "Struct"; push(@args_list, "&tmp"); push(@args_list, "sizeof tmp"); } else { push(@args_list, "&tmp"); } push(@vars_list, "vir$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{$_}->{ProcName} =~ m/^(\S+)DumpXML$/) { $proc_name = "${1}GetXMLDesc" } 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{$_}->{ProcName}("; print join(', ', @args_list); print ") < 0)\n"; print " goto cleanup;\n"; print "\n"; if (@ret_list) { print " "; } print join("\n ", @ret_list); print "\n"; } print " rv = 0;\n"; print "\n"; print "cleanup:\n"; print " if (rv < 0)"; if (scalar(@free_list_on_error) > 1) { print " {"; } print "\n "; print join("\n ", @free_list_on_error); print "\n"; if (scalar(@free_list_on_error) > 1) { print " }\n"; } print join("\n", @free_list); if (@free_list) { print "\n"; } print " return rv;\n"; print "}\n"; } } # Bodies for client functions ("remote_client_bodies.c"). elsif ($opt_k) { # list of functions that currently are not generatable my @ungeneratable; if ($structprefix eq "remote") { @ungeneratable = ("Close", "DomainEventsDeregisterAny", "DomainEventsRegisterAny", "DomainMigratePrepareTunnel", "DomainOpenConsole", "DomainPinVcpu", "DomainSetSchedulerParameters", "DomainSetMemoryParameters", "DomainSetBlkioParameters", "Open", "StorageVolUpload", "StorageVolDownload", "AuthList", "AuthSaslInit", "AuthSaslStart", "AuthSaslStep", "AuthPolkit", "CPUBaseline", "DomainCreate", "DomainDestroy", "DomainMigrateFinish", "NWFilterDefineXML", # public API and XDR protocol mismatch "DomainMigratePerform", "DomainMigrateFinish2", "DomainSnapshotListNames", "FindStoragePoolSources", "IsSecure", "ListDefinedDomains", "ListDefinedInterfaces", "ListNWFilters", "SupportsFeature", "NodeListDevices", "NodeGetCellsFreeMemory", "ListDefinedNetworks", "StoragePoolListVolumes", "ListDomains", "ListStoragePools", "SecretSetValue", "GetURI", "ListInterfaces", "ListDefinedStoragePools", "NodeDeviceDettach", "ListNetworks", "NodeDeviceListCaps", "NodeDeviceReset", "NodeDeviceReAttach", "ListSecrets", "DomainBlockPeek", "DomainCreateWithFlags", "DomainEventsDeregister", "DomainEventsRegister", "DomainGetBlkioParameters", "DomainGetMemoryParameters", "DomainGetSchedulerParameters", "DomainGetSchedulerType", "DomainGetSecurityLabel", "DomainGetVcpus", "DomainMemoryPeek", "DomainMemoryStats", "DomainMigratePrepare", "DomainMigratePrepare2", "GetType", "NodeDeviceGetParent", "NodeGetSecurityModel", "SecretGetValue"); } elsif ($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 @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+);/) { push(@args_list, "const char *$1"); push(@setters_list, "args.$1 = (char *)$1;"); } elsif ($args_member =~ m/(\S+)<\S+>;/) { # ignored for now } elsif ($args_member =~ m/^(.*) (\S+);/) { my $type_name = $1; my $arg_name = $2; $type_name =~ s/hyper/long/; $type_name =~ s/^unsigned$/unsigned int/; $type_name =~ s/u_int/unsigned int/; if ($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 "DomainDumpXML" and $call->{ProcName} ne "NetworkDumpXML") { $type_name = "unsigned int"; } elsif ($arg_name eq "nvcpus" and $call->{ProcName} eq "DomainSetVcpus") { $type_name = "unsigned int"; } } if ($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"); } $is_first_arg = 0; } } if (! @args_list) { push(@args_list, "virConnectPtr conn"); } # fix priv_name for the NumOf* functions if ($priv_name eq "privateData" and !($call->{ProcName} =~ m/Domains/) and $call->{ProcName} =~ m/NumOf(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 $multi_ret = 0; if ($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/(char|short|int|hyper) (\S+)\[\S+\];/) { push(@ret_list, "memcpy(result->$2, ret.$2, sizeof result->$2);"); } elsif ($ret_member =~ m/char (\S+);/ or $ret_member =~ m/short (\S+);/ or $ret_member =~ m/int (\S+);/ or $ret_member =~ m/hyper (\S+);/) { push(@ret_list, "result->$1 = ret.$1;"); } else { die "unhandled type for multi-return-value: $ret_member"; } } elsif ($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/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"; $single_ret_type = "int"; } else { push(@ret_list, "rv = ret.$arg_name;"); if ($call->{ProcName} eq "NodeGetFreeMemory") { $single_ret_var = "unsigned long long rv = 0"; $single_ret_type = "unsigned long long"; } else { $single_ret_var = "unsigned long rv = 0"; $single_ret_type = "unsigned long"; } } } 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") { $last_arg = pop(@args_list); } push(@args_list, "vir${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 " $var;\n"; } print "\n"; print " remoteDriverLock(priv);\n"; if (@setters_list) { print "\n"; print " "; } print join("\n ", @setters_list); if (@setters_list) { print "\n"; } if ($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 (@ret_list) { print " "; print join("\n ", @ret_list); print "\n"; } if ($multi_ret or !@ret_list) { print " rv = 0;\n"; } print "\n"; print "done:\n"; print " remoteDriverUnlock(priv);\n"; print " return rv;\n"; print "}\n"; } }