#!/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: # # gendispatch.pl -t remote ../src/remote/remote_protocol.x # gendispatch.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_b, $opt_k); getopts ('ptardbk'); my $structprefix = shift or die "missing prefix argument"; my $protocol = shift or die "missing protocol argument"; my @autogen; my $procprefix = uc $structprefix; # 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/; $_ =~ s/Pm/PM/; $_ } @elems; join "", @elems } # Read the input file (usually remote_protocol.x) and form an # opinion about the name, args and return type of each RPC. my ($name, $ProcName, $id, $flags, %calls, @calls); my $collect_args_members = 0; my $collect_ret_members = 0; my $last_name; open PROTOCOL, "<$protocol" or die "cannot open $protocol: $!"; while () { if ($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 ${structprefix}_(.*)_ret\s+{(.*)$/) { $name = $1; $flags = $2; $ProcName = name_to_ProcName ($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}_${name}_ret", ret_members => [] } } if ($flags ne "" and ($opt_b or $opt_k)) { if (!($flags =~ m/^\s*\/\*\s*insert@(\d+)\s*\*\/\s*$/)) { die "invalid generator flags for $calls{$name}->{ret}"; } $calls{$name}->{ret_offset} = int($1); } $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+)\s*,?(.*)$/) { $name = lc $1; $id = $2; $flags = $3; $ProcName = name_to_ProcName ($name); if (!exists $calls{$name}) { # that the argument and return value cases have not yet added # this procedure to the calls hash means that it has no arguments # and no return value. add it to the calls hash now because all # procedures have to be listed in the calls hash $calls{$name} = { name => $name, ProcName => $ProcName, UC_NAME => uc $name, args => "void", ret => "void" } } if ($opt_b or $opt_k) { if (!($flags =~ m/^\s*\/\*\s*(\S+)\s+(\S+)\s*(\|.*)?\s+(priority:(\S+))?\s*\*\/\s*$/)) { die "invalid generator flags for ${procprefix}_PROC_${name}" } my $genmode = $opt_b ? $1 : $2; my $genflags = $3; my $priority = defined $5 ? $5 : "low"; if ($genmode eq "autogen") { push(@autogen, $ProcName); } elsif ($genmode eq "skipgen") { # ignore it } else { die "invalid generator flags for ${procprefix}_PROC_${name}" } if (defined $genflags and $genflags ne "") { if ($genflags =~ m/^\|\s*(read|write)stream@(\d+)\s*$/) { $calls{$name}->{streamflag} = $1; $calls{$name}->{streamoffset} = int($2); } else { die "invalid generator flags for ${procprefix}_PROC_${name}" } } else { $calls{$name}->{streamflag} = "none"; } # for now, we distinguish only two levels of prioroty: # low (0) and high (1) if ($priority eq "high") { $calls{$name}->{priority} = 1; } elsif ($priority eq "low") { $calls{$name}->{priority} = 0; } else { die "invalid priority ${priority} for ${procprefix}_PROC_${name}" } } $calls[$id] = $calls{$name}; $collect_args_members = 0; $collect_ret_members = 0; } else { $collect_args_members = 0; $collect_ret_members = 0; } } close(PROTOCOL); # this hash contains the procedures that are allowed to map [unsigned] hyper # to [unsigned] long for legacy reasons in their signature and return type. # this list is fixed. new procedures and public APIs have to map [unsigned] # hyper to [unsigned] long long my $long_legacy = { DomainGetInfo => { ret => { maxMem => 1, memory => 1 } }, DomainMigrate => { arg => { flags => 1, resource => 1 } }, DomainMigrate2 => { arg => { flags => 1, resource => 1 } }, DomainMigrateBegin3 => { arg => { flags => 1, resource => 1 } }, DomainMigrateConfirm3 => { arg => { flags => 1, resource => 1 } }, DomainMigrateDirect => { arg => { flags => 1, resource => 1 } }, DomainMigrateFinish => { arg => { flags => 1 } }, DomainMigrateFinish2 => { arg => { flags => 1 } }, DomainMigrateFinish3 => { arg => { flags => 1 } }, DomainMigratePeer2Peer => { arg => { flags => 1, resource => 1 } }, DomainMigratePerform => { arg => { flags => 1, resource => 1 } }, DomainMigratePerform3 => { arg => { flags => 1, resource => 1 } }, DomainMigratePrepare => { arg => { flags => 1, resource => 1 } }, DomainMigratePrepare2 => { arg => { flags => 1, resource => 1 } }, DomainMigratePrepare3 => { arg => { flags => 1, resource => 1 } }, DomainMigratePrepareTunnel => { arg => { flags => 1, resource => 1 } }, DomainMigratePrepareTunnel3 => { arg => { flags => 1, resource => 1 } }, DomainMigrateToURI => { arg => { flags => 1, resource => 1 } }, DomainMigrateToURI2 => { arg => { flags => 1, resource => 1 } }, DomainMigrateVersion1 => { arg => { flags => 1, resource => 1 } }, DomainMigrateVersion2 => { arg => { flags => 1, resource => 1 } }, DomainMigrateVersion3 => { arg => { flags => 1, resource => 1 } }, DomainMigrateSetMaxSpeed => { arg => { bandwidth => 1 } }, DomainSetMaxMemory => { arg => { memory => 1 } }, DomainSetMemory => { arg => { memory => 1 } }, DomainSetMemoryFlags => { arg => { memory => 1 } }, GetLibVersion => { ret => { lib_ver => 1 } }, GetVersion => { ret => { hv_ver => 1 } }, NodeGetInfo => { ret => { memory => 1 } }, DomainBlockPull => { arg => { bandwidth => 1 } }, DomainBlockRebase => { arg => { bandwidth => 1 } }, DomainBlockJobSetSpeed => { arg => { bandwidth => 1 } }, DomainMigrateGetMaxSpeed => { ret => { bandwidth => 1 } }, }; sub hyper_to_long { my $proc_name = shift; my $ret_or_arg = shift; my $member = shift; if ($long_legacy->{$proc_name} and $long_legacy->{$proc_name}->{$ret_or_arg} and $long_legacy->{$proc_name}->{$ret_or_arg}->{$member}) { return 1; } else { return 0 } } #---------------------------------------------------------------------- # Output print <<__EOF__; /* Automatically generated by gendispatch.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"; print " priority -> $calls{$_}->{priority}\n"; } } # Bodies for dispatch functions ("remote_dispatch_bodies.h"). elsif ($opt_b) { my %generate = map { $_ => 1 } @autogen; my @keys = sort (keys %calls); foreach (@keys) { my $call = $calls{$_}; # skip things which are REMOTE_MESSAGE next if $call->{msg}; my $name = $structprefix . "Dispatch" . $call->{ProcName}; my $argtype = $call->{args}; my $rettype = $call->{ret}; my $argann = $argtype ne "void" ? "" : " ATTRIBUTE_UNUSED"; my $retann = $rettype ne "void" ? "" : " ATTRIBUTE_UNUSED"; # First we print out a function declaration for the # real dispatcher body print "static int ${name}(\n"; print " virNetServerPtr server,\n"; print " virNetServerClientPtr client,\n"; print " virNetMessagePtr msg,\n"; print " virNetMessageErrorPtr rerr"; if ($argtype ne "void") { print ",\n $argtype *args"; } if ($rettype ne "void") { print ",\n $rettype *ret"; } print ");\n"; # Next we print out a generic wrapper method which has # fixed function signature, for use in the dispatcher # table. This simply callers the real dispatcher method print "static int ${name}Helper(\n"; print " virNetServerPtr server,\n"; print " virNetServerClientPtr client,\n"; print " virNetMessagePtr msg,\n"; print " virNetMessageErrorPtr rerr,\n"; print " void *args$argann,\n"; print " void *ret$retann)\n"; print "{\n"; print " VIR_DEBUG(\"server=%p client=%p msg=%p rerr=%p args=%p ret=%p\", server, client, msg, rerr, args, ret);\n"; print " return $name(server, client, msg, rerr"; if ($argtype ne "void") { print ", args"; } if ($rettype ne "void") { print ", ret"; } print ");\n"; print "}\n"; # Finally we print out the dispatcher method body impl # (if possible) if (!exists($generate{$call->{ProcName}})) { print "/* ${structprefix}Dispatch$call->{ProcName} body has " . "to be implemented manually */\n\n\n\n"; next; } my $has_node_device = 0; my @vars_list = (); my @optionals_list = (); my @getters_list = (); my @args_list = (); my @prepare_ret_list = (); my @ret_list = (); my @free_list = (); my @free_list_on_error = ("virNetMessageSaveError(rerr);"); # handle arguments to the function if ($argtype ne "void") { # node device is special, as it's identified by name if ($argtype =~ m/^remote_node_device_/ and !($argtype =~ m/^remote_node_device_lookup_by_name_/) and !($argtype =~ m/^remote_node_device_create_xml_/)) { $has_node_device = 1; push(@vars_list, "virNodeDevicePtr dev = NULL"); push(@getters_list, " if (!(dev = virNodeDeviceLookupByName(priv->conn, args->name)))\n" . " goto cleanup;\n"); push(@args_list, "dev"); push(@free_list, " if (dev)\n" . " virNodeDeviceFree(dev);"); } foreach my $args_member (@{$call->{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(priv->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(priv->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_uuid) (\S+)<\S+>;/) { if (! @args_list) { push(@args_list, "priv->conn"); } push(@args_list, "args->$1.$1_val"); push(@args_list, "args->$1.$1_len"); } elsif ($args_member =~ m/^(?:opaque|remote_nonnull_string) (\S+)<\S+>;(.*)$/) { if (! @args_list) { push(@args_list, "priv->conn"); } my $cast = ""; my $arg_name = $1; my $annotation = $2; if ($annotation ne "") { if ($annotation =~ m/\s*\/\*\s*(.*)\s*\*\//) { $cast = $1; } else { die "malformed cast annotation for argument: $args_member"; } } push(@args_list, "${cast}args->$arg_name.${arg_name}_val"); push(@args_list, "args->$arg_name.${arg_name}_len"); } elsif ($args_member =~ m/^(?:unsigned )?int (\S+)<\S+>;/) { if (! @args_list) { push(@args_list, "priv->conn"); } push(@args_list, "args->$1.$1_val"); push(@args_list, "args->$1.$1_len"); } elsif ($args_member =~ m/^remote_typed_param (\S+)<(\S+)>;/) { push(@vars_list, "virTypedParameterPtr $1 = NULL"); push(@vars_list, "int n$1"); push(@args_list, "$1"); push(@args_list, "n$1"); push(@getters_list, " if (($1 = remoteDeserializeTypedParameters(args->$1.$1_val,\n" . " args->$1.$1_len,\n" . " $2,\n" . " &n$1)) == NULL)\n" . " goto cleanup;\n"); push(@free_list, " virTypedParameterArrayClear($1, n$1);"); push(@free_list, " VIR_FREE($1);"); } elsif ($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, "priv->conn"); } push(@args_list, "(unsigned char *) args->$1"); } elsif ($args_member =~ m/^remote_string (\S+);/) { if (! @args_list) { push(@args_list, "priv->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, "priv->conn"); } push(@args_list, "args->$1"); } elsif ($args_member =~ m/^(unsigned )?int (\S+);/) { if (! @args_list) { push(@args_list, "priv->conn"); } push(@args_list, "args->$2"); } elsif ($args_member =~ m/^(unsigned )?hyper (\S+);/) { if (! @args_list) { push(@args_list, "priv->conn"); } my $arg_name = $2; if (hyper_to_long($call->{ProcName}, "arg", $arg_name)) { my $type_name = $1; $type_name .= "long"; my $sign = ""; $sign = "U" if ($1); push(@vars_list, "$type_name $arg_name"); push(@getters_list, " HYPER_TO_${sign}LONG($arg_name, args->$arg_name);\n"); push(@args_list, "$arg_name"); } else { push(@args_list, "args->$arg_name"); } } 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 $multi_ret = 0; if ($rettype ne "void" and scalar(@{$call->{ret_members}}) > 1) { $multi_ret = 1; } if ($rettype ne "void") { foreach my $ret_member (@{$call->{ret_members}}) { if ($multi_ret) { if ($ret_member =~ m/^(unsigned )?(char|short|int|hyper) (\S+)\[\S+\];/) { if ($2 eq "hyper" and hyper_to_long($call->{ProcName}, "ret", $3)) { die "legacy [u]long hyper arrays aren't supported"; } 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+)>;\s*\/\*\s*insert@(\d+)\s*\*\//) { push(@vars_list, "int len"); splice(@args_list, int($3), 0, ("ret->$1.$1_val")); 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 = $2; } elsif ($ret_member =~ m/^remote_nonnull_string (\S+)<\S+>;/) { # error out on unannotated arrays die "remote_nonnull_string array without insert@ annotation: $ret_member"; } elsif ($ret_member =~ m/^remote_nonnull_string (\S+);/) { if ($call->{ProcName} eq "GetType") { # SPECIAL: virConnectGetType returns a constant string that must # not be freed. Therefore, duplicate the string here. push(@vars_list, "const char *$1"); push(@ret_list, "/* We have to strdup because remoteDispatchClientRequest will"); push(@ret_list, " * free this string after it's been serialised. */"); push(@ret_list, "if (!(ret->type = strdup(type))) {"); push(@ret_list, " virReportOOMError();"); push(@ret_list, " goto cleanup;"); push(@ret_list, "}"); } else { 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_string (\S+);/) { push(@vars_list, "char *$1 = NULL"); push(@vars_list, "char **$1_p = NULL"); push(@ret_list, "ret->$1 = $1_p;"); push(@free_list, " VIR_FREE($1);"); push(@free_list_on_error, "VIR_FREE($1_p);"); push(@prepare_ret_list, "if (VIR_ALLOC($1_p) < 0) {\n" . " virReportOOMError();\n" . " goto cleanup;\n" . " }\n" . " \n" . " *$1_p = strdup($1);\n" . " if (*$1_p == NULL) {\n" . " virReportOOMError();\n" . " goto cleanup;\n" . " }\n"); $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($1); if ($call->{ProcName} eq "DomainCreateWithFlags") { # SPECIAL: virDomainCreateWithFlags updates the given # domain object instead of returning a new one push(@ret_list, "make_nonnull_$1(&ret->$2, $2);"); $single_ret_var = undef; $single_ret_by_ref = 1; } else { push(@vars_list, "vir${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+)>;\s*\/\*\s*insert@(\d+)\s*\*\//) { push(@vars_list, "int len"); splice(@args_list, int($3), 0, ("ret->$1.$1_val")); 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 = $2; } elsif ($ret_member =~ m/^int (\S+)<\S+>;/) { # error out on unannotated arrays die "int array without insert@ annotation: $ret_member"; } elsif ($ret_member =~ m/^int (\S+);/) { push(@vars_list, "int $1"); push(@ret_list, "ret->$1 = $1;"); $single_ret_var = $1; if ($call->{ProcName} =~ m/GetAutostart$/) { $single_ret_by_ref = 1; } else { $single_ret_by_ref = 0; if ($call->{ProcName} eq "CPUCompare") { $single_ret_check = " == VIR_CPU_COMPARE_ERROR"; } else { $single_ret_check = " < 0"; } } } elsif ($ret_member =~ m/^(?:unsigned )?hyper (\S+)<(\S+)>;\s*\/\*\s*insert@(\d+)\s*\*\//) { if (hyper_to_long($call->{ProcName}, "ret", $1)) { die "legacy [u]long hyper arrays aren't supported"; } 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_var = "max$1"; $single_ret_list_max_define = $2; if ($call->{ProcName} eq "NodeGetCellsFreeMemory") { $single_ret_check = " <= 0"; splice(@args_list, int($3), 0, ("(unsigned long long *)ret->$1.$1_val")); } else { $single_ret_check = " < 0"; splice(@args_list, int($3), 0, ("ret->$1.$1_val")); } } elsif ($ret_member =~ m/^(?:unsigned )?hyper (\S+)<\S+>;/) { # error out on unannotated arrays die "hyper array without insert@ annotation: $ret_member"; } elsif ($ret_member =~ m/^(unsigned )?hyper (\S+);(?:\s*\/\*\s*insert@(\d+)\s*\*\/)?/) { my $type_name = $1; my $ret_name = $2; my $ret_assign; my $insert = $3; if (hyper_to_long($call->{ProcName}, "ret", $ret_name)) { my $sign = ""; $sign = "U" if ($1); $type_name .= "long"; $ret_assign = "HYPER_TO_${sign}LONG(ret->$ret_name, $ret_name);"; } else { $type_name .= "long long"; $ret_assign = "ret->$ret_name = $ret_name;"; } push(@vars_list, "$type_name $ret_name"); push(@ret_list, $ret_assign); if ($insert) { splice(@args_list, int($insert), 0, "&$ret_name"); $single_ret_var = undef; } else { $single_ret_var = $ret_name; } if ($call->{ProcName} eq "DomainGetMaxMemory" or $call->{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 { $single_ret_by_ref = 1; } } elsif ($ret_member =~ m/^opaque (\S+)<(\S+)>;\s*\/\*\s*insert@(\d+)\s*\*\//) { push(@vars_list, "char *$1 = NULL"); push(@vars_list, "int $1_len = 0"); splice(@args_list, int($3), 0, ("&$1", "&$1_len")); push(@ret_list, "ret->$1.$1_val = $1;"); push(@ret_list, "ret->$1.$1_len = $1_len;"); push(@free_list_on_error, "VIR_FREE($1);"); $single_ret_var = undef; $single_ret_by_ref = 1; } elsif ($ret_member =~ m/^opaque (\S+)<\S+>;/) { # error out on unannotated arrays die "opaque array without insert@ annotation: $ret_member"; } elsif ($ret_member =~ m/^(\/)?\*/) { # ignore comments } else { die "unhandled type for return value: $ret_member"; } } } # select struct type for multi-return-value functions if ($multi_ret) { if (!(defined $call->{ret_offset})) { die "multi-return-value without insert@ annotation: $call->{ret}"; } if (! @args_list) { push(@args_list, "priv->conn"); } my $struct_name = $call->{ProcName}; $struct_name =~ s/Get//; splice(@args_list, $call->{ret_offset}, 0, ("&tmp")); if ($call->{ProcName} eq "DomainBlockStats" || $call->{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"; splice(@args_list, $call->{ret_offset} + 1, 0, ("sizeof tmp")); } push(@vars_list, "vir$struct_name tmp"); } if ($call->{streamflag} ne "none") { splice(@args_list, $call->{streamoffset}, 0, ("st")); push(@free_list_on_error, "if (stream) {"); push(@free_list_on_error, " virStreamAbort(st);"); push(@free_list_on_error, " daemonFreeClientStream(client, stream);"); push(@free_list_on_error, "} else {"); push(@free_list_on_error, " virStreamFree(st);"); push(@free_list_on_error, "}"); } # print functions signature print "static int $name(\n"; print " virNetServerPtr server ATTRIBUTE_UNUSED,\n"; print " virNetServerClientPtr client,\n"; print " virNetMessagePtr msg ATTRIBUTE_UNUSED,\n"; print " virNetMessageErrorPtr rerr"; if ($argtype ne "void") { print ",\n $argtype *args"; } if ($rettype ne "void") { print ",\n $rettype *ret"; } print ")\n"; # print function body print "{\n"; print " int rv = -1;\n"; foreach my $var (@vars_list) { print " $var;\n"; } print " struct daemonClientPrivate *priv =\n"; print " virNetServerClientGetPrivateData(client);\n"; if ($call->{streamflag} ne "none") { print " virStreamPtr st = NULL;\n"; print " daemonClientStreamPtr stream = NULL;\n"; } print "\n"; print " if (!priv->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->$optional : NULL;\n"; } if (@optionals_list) { print "\n"; } if ($call->{streamflag} ne "none") { print " if (!(st = virStreamNew(priv->conn, VIR_STREAM_NONBLOCK)))\n"; print " goto cleanup;\n"; print "\n"; print " if (!(stream = daemonCreateClientStream(client, st, remoteProgram, &msg->header)))\n"; print " goto cleanup;\n"; print "\n"; } if ($rettype eq "void") { print " if (vir$call->{ProcName}("; print join(', ', @args_list); print ") < 0)\n"; print " goto cleanup;\n"; print "\n"; } elsif (!$multi_ret) { my $prefix = ""; my $proc_name = $call->{ProcName}; if (! @args_list) { push(@args_list, "priv->conn"); if ($call->{ProcName} ne "NodeGetFreeMemory") { $prefix = "Connect" } } if ($call->{ProcName} eq "GetSysinfo" or $call->{ProcName} eq "GetMaxVcpus" or $call->{ProcName} eq "DomainXMLFromNative" or $call->{ProcName} eq "DomainXMLToNative" or $call->{ProcName} eq "FindStoragePoolSources" or $call->{ProcName} =~ m/^List/) { $prefix = "Connect" } elsif ($call->{ProcName} eq "SupportsFeature") { $prefix = "Drv" } elsif ($call->{ProcName} eq "CPUBaseline") { $proc_name = "ConnectBaselineCPU" } elsif ($call->{ProcName} eq "CPUCompare") { $proc_name = "ConnectCompareCPU" } elsif ($structprefix eq "qemu" && $call->{ProcName} =~ /^Domain/) { $proc_name =~ s/^(Domain)/${1}Qemu/; } 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); if (defined $single_ret_var) { print ", &$single_ret_var"; } print ") < 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"; } else { print " if (vir$call->{ProcName}("; print join(', ', @args_list); print ") < 0)\n"; print " goto cleanup;\n"; print "\n"; } if ($call->{streamflag} ne "none") { print " if (daemonAddClientStream(client, stream, "; if ($call->{streamflag} eq "write") { print "false"; } else { print "true"; } print ") < 0)\n"; print " goto cleanup;\n"; print "\n"; } if (@prepare_ret_list) { print " "; print join("\n ", @prepare_ret_list); 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\n\n\n"; } # Finally we write out the huge dispatch table which lists # the dispatch helper method. the XDR proc for processing # args and return values, and the size of the args and # return value structs. All methods are marked as requiring # authentication. Methods are selectively relaxed in the # daemon code which registers the program. print "virNetServerProgramProc ${structprefix}Procs[] = {\n"; for ($id = 0 ; $id <= $#calls ; $id++) { my ($comment, $name, $argtype, $arglen, $argfilter, $retlen, $retfilter, $priority); if (defined $calls[$id] && !$calls[$id]->{msg}) { $comment = "/* Method $calls[$id]->{ProcName} => $id */"; $name = $structprefix . "Dispatch" . $calls[$id]->{ProcName} . "Helper"; my $argtype = $calls[$id]->{args}; my $rettype = $calls[$id]->{ret}; $arglen = $argtype ne "void" ? "sizeof($argtype)" : "0"; $retlen = $rettype ne "void" ? "sizeof($rettype)" : "0"; $argfilter = $argtype ne "void" ? "xdr_$argtype" : "xdr_void"; $retfilter = $rettype ne "void" ? "xdr_$rettype" : "xdr_void"; } else { if ($calls[$id]->{msg}) { $comment = "/* Async event $calls[$id]->{ProcName} => $id */"; } else { $comment = "/* Unused $id */"; } $name = "NULL"; $arglen = $retlen = 0; $argfilter = "xdr_void"; $retfilter = "xdr_void"; } $priority = defined $calls[$id]->{priority} ? $calls[$id]->{priority} : 0; print "{ $comment\n ${name},\n $arglen,\n (xdrproc_t)$argfilter,\n $retlen,\n (xdrproc_t)$retfilter,\n true,\n $priority\n},\n"; } print "};\n"; print "size_t ${structprefix}NProcs = ARRAY_CARDINALITY(${structprefix}Procs);\n"; } # Bodies for client functions ("remote_client_bodies.h"). elsif ($opt_k) { my %generate = map { $_ => 1 } @autogen; my @keys = sort (keys %calls); foreach (@keys) { my $call = $calls{$_}; # skip things which are REMOTE_MESSAGE next if $call->{msg}; # skip procedures not on generate list next if ! exists($generate{$call->{ProcName}}); my $argtype = $call->{args}; my $rettype = $call->{ret}; # handle arguments to the function my @args_list = (); my @vars_list = (); my @args_check_list = (); my @setters_list = (); my @setters_list2 = (); my @free_list = (); my $priv_src = "conn"; my $priv_name = "privateData"; my $call_args = "&args"; if ($argtype eq "void") { $call_args = "NULL"; } else { push(@vars_list, "$argtype args"); my $is_first_arg = 1; my $has_node_device = 0; # node device is special if ($argtype =~ m/^remote_node_/ and !($argtype =~ m/^remote_node_device_lookup_by_name_/) and !($argtype =~ 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+)>;(.*)$/) { my $type_name = "const char **"; my $arg_name = $1; my $limit = $2; my $annotation = $3; if ($annotation ne "") { if ($annotation =~ m/\s*\/\*\s*\((.*)\)\s*\*\//) { $type_name = $1; } else { die "malformed cast annotation for argument: $args_member"; } } push(@args_list, "$type_name$arg_name"); push(@args_list, "unsigned 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 => $2 }); } elsif ($args_member =~ m/^remote_nonnull_string (\S+);/) { push(@args_list, "const char *$1"); push(@setters_list, "args.$1 = (char *)$1;"); } elsif ($args_member =~ m/^opaque (\S+)<(\S+)>;(.*)$/) { my $type_name = "const char *"; my $arg_name = $1; my $limit = $2; my $annotation = $3; if ($annotation ne "") { if ($annotation =~ m/\s*\/\*\s*\((.*)\)\s*\*\//) { $type_name = $1; } else { die "malformed cast annotation for argument: $args_member"; } } push(@args_list, "$type_name$arg_name"); if ($call->{ProcName} eq "SecretSetValue") { # SPECIAL: virSecretSetValue uses size_t instead of int push(@args_list, "size_t ${arg_name}len"); } else { 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/^remote_string (\S+)<(\S+)>;/) { my $arg_name = $1; my $limit = $2; push(@args_list, "const char *$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) (\S+)<(\S+)>;/) { my $type_name = $1; my $arg_name = $2; my $limit = $3; push(@args_list, "${type_name} *$arg_name"); push(@args_list, "int ${arg_name}len"); push(@setters_list, "args.$arg_name.${arg_name}_val = $arg_name;"); push(@setters_list, "args.$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/^remote_typed_param (\S+)<(\S+)>;/) { push(@args_list, "virTypedParameterPtr $1"); push(@args_list, "int n$1"); push(@setters_list2, "if (remoteSerializeTypedParameters($1, n$1, &args.$1.$1_val, &args.$1.$1_len) < 0) {\n" . " xdr_free((xdrproc_t)xdr_$call->{args}, (char *)&args);\n" . " goto done;\n" . " }"); push(@free_list, " remoteFreeTypedParameters(args.params.params_val, args.params.params_len);\n"); } elsif ($args_member =~ m/^((?:unsigned )?int) (\S+);\s*\/\*\s*call-by-reference\s*\*\//) { my $type_name = "$1 *"; my $arg_name = $2; push(@args_list, "$type_name $arg_name"); push(@setters_list, "args.$arg_name = *$arg_name;"); } elsif ($args_member =~ m/^((?:unsigned )?int) (\S+);/) { my $type_name = $1; my $arg_name = $2; push(@args_list, "$type_name $arg_name"); push(@setters_list, "args.$arg_name = $arg_name;"); } elsif ($args_member =~ m/^(unsigned )?hyper (\S+);/) { my $type_name = $1; my $arg_name = $2; if (hyper_to_long($call->{ProcName}, "arg", $arg_name)) { $type_name .= "long"; } else { $type_name .= "long long"; } push(@args_list, "$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 !($call->{ProcName} =~ m/(Domains|DomainSnapshot)/) and ($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 @ret_list2 = (); 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 $single_ret_cleanup = 0; my $multi_ret = 0; if ($rettype ne "void" and scalar(@{$call->{ret_members}}) > 1) { $multi_ret = 1; } if ($rettype eq "void") { $call_ret = "NULL"; } else { push(@vars_list, "$rettype ret"); foreach my $ret_member (@{$call->{ret_members}}) { if ($multi_ret) { if ($ret_member =~ m/^(unsigned )?(char|short|int|hyper) (\S+)\[\S+\];/) { if ($2 eq "hyper" and hyper_to_long($call->{ProcName}, "ret", $3)) { die "legacy [u]long hyper arrays aren't supported"; } 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 for " . "procedure $call->{name}: $ret_member"; } elsif ($ret_member =~ m/^(unsigned )?(char|short|int|hyper) (\S+);/) { if ($2 eq "hyper" and hyper_to_long($call->{ProcName}, "ret", $3)) { my $sign = ""; $sign = "U" if ($1); push(@ret_list, "HYPER_TO_${sign}LONG(result->$3, ret.$3);"); } else { push(@ret_list, "result->$3 = ret.$3;"); } } else { die "unhandled type for multi-return-value for " . "procedure $call->{name}: $ret_member"; } } elsif ($ret_member =~ m/^remote_nonnull_string (\S+)<(\S+)>;\s*\/\*\s*insert@(\d+)\s*\*\//) { splice(@args_list, int($3), 0, ("char **const $1")); push(@ret_list, "rv = ret.$1.$1_len;"); $single_ret_var = "int rv = -1"; $single_ret_type = "int"; $single_ret_as_list = 1; $single_ret_list_name = $1; $single_ret_list_max_var = "max$1"; $single_ret_list_max_define = $2; } elsif ($ret_member =~ m/^remote_nonnull_string (\S+)<\S+>;/) { # error out on unannotated arrays die "remote_nonnull_string array without insert@ annotation: $ret_member"; } elsif ($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_string (\S+);/) { push(@ret_list, "rv = ret.$1 ? *ret.$1 : NULL;"); push(@ret_list, "VIR_FREE(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 ($call->{ProcName} eq "DomainCreateWithFlags") { # SPECIAL: virDomainCreateWithFlags updates the given # domain object instead of returning a new one push(@ret_list, "dom->id = ret.dom.id;"); push(@ret_list, "xdr_free((xdrproc_t)xdr_$call->{ret}, (char *)&ret);"); push(@ret_list, "rv = 0;"); $single_ret_var = "int rv = -1"; $single_ret_type = "int"; } else { if ($name eq "domain_snapshot") { my $dom = "$priv_src"; $dom =~ s/->conn//; push(@ret_list, "rv = get_nonnull_$name($dom, ret.$arg_name);"); } else { push(@ret_list, "rv = get_nonnull_$name($priv_src, ret.$arg_name);"); } push(@ret_list, "xdr_free((xdrproc_t)xdr_$rettype, (char *)&ret);"); $single_ret_var = "vir${type_name}Ptr rv = NULL"; $single_ret_type = "vir${type_name}Ptr"; } } elsif ($ret_member =~ m/^remote_typed_param (\S+)<(\S+)>;\s*\/\*\s*insert@(\d+)\s*\*\//) { splice(@args_list, int($3), 0, ("virTypedParameterPtr $1")); push(@ret_list2, "if (remoteDeserializeTypedParameters(ret.$1.$1_val,\n" . " ret.$1.$1_len,\n" . " $2,\n" . " $1,\n" . " n$1) < 0)\n" . " goto cleanup;\n"); $single_ret_cleanup = 1; } elsif ($ret_member =~ m/^remote_typed_param (\S+)<\S+>;/) { # error out on unannotated arrays die "remote_typed_param array without insert@ annotation: $ret_member"; } elsif ($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+);\s*\/\*\s*insert@(\d+)\s*\*\//) { my $type_name = $1; my $sign = ""; $sign = "U" if ($1); my $ret_name = $2; my $insert = $3; if (hyper_to_long($call->{ProcName}, "ret", $ret_name)) { $type_name .= "long"; push(@ret_list, "if ($ret_name) HYPER_TO_${sign}LONG(*$ret_name, ret.$ret_name);"); } else { $type_name .= "long long"; push(@ret_list, "if ($ret_name) *$ret_name = ret.$ret_name;"); } splice(@args_list, int($insert), 0, ("$type_name *$ret_name")); push(@ret_list, "rv = 0;"); $single_ret_var = "int rv = -1"; $single_ret_type = "int"; } elsif ($ret_member =~ m/^unsigned hyper (\S+);/) { my $ret_name = $1; if ($call->{ProcName} =~ m/Get(Lib)?Version/) { push(@args_list, "unsigned long *$ret_name"); push(@ret_list, "if ($ret_name) HYPER_TO_ULONG(*$ret_name, ret.$ret_name);"); push(@ret_list, "rv = 0;"); $single_ret_var = "int rv = -1"; $single_ret_type = "int"; } elsif (hyper_to_long($call->{ProcName}, "ret", $ret_name)) { push(@ret_list, "HYPER_TO_ULONG(rv, ret.$ret_name);"); $single_ret_var = "unsigned long rv = 0"; $single_ret_type = "unsigned long"; } else { push(@ret_list, "rv = ret.$ret_name;"); $single_ret_var = "unsigned long long rv = 0"; $single_ret_type = "unsigned long long"; } } elsif ($ret_member =~ m/^(\/)?\*/) { # ignore comments } else { die "unhandled type for return value for procedure " . "$call->{name}: $ret_member"; } } } # select struct type for multi-return-value functions if ($multi_ret) { if (!(defined $call->{ret_offset})) { die "multi-return-value without insert@ annotation: $call->{ret}"; } my $struct_name = $call->{ProcName}; $struct_name =~ s/Get//; splice(@args_list, $call->{ret_offset}, 0, ("vir${struct_name}Ptr result")); } if ($call->{streamflag} ne "none") { splice(@args_list, $call->{streamoffset}, 0, ("virStreamPtr st")); } # print function print "\n"; print "static $single_ret_type\n"; print "$structprefix$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"; } if ($call->{streamflag} ne "none") { print " virNetClientStreamPtr netst = NULL;\n"; } print "\n"; print " remoteDriverLock(priv);\n"; if ($call->{streamflag} ne "none") { print "\n"; print " if (!(netst = virNetClientStreamNew(priv->remoteProgram, REMOTE_PROC_$call->{UC_NAME}, priv->counter)))\n"; print " goto done;\n"; print "\n"; print " if (virNetClientAddStream(priv->client, netst) < 0) {\n"; print " virNetClientStreamFree(netst);\n"; print " goto done;\n"; print " }"; print "\n"; print " st->driver = &remoteStreamDrv;\n"; print " st->privateData = netst;\n"; } if ($call->{ProcName} eq "SupportsFeature") { # SPECIAL: VIR_DRV_FEATURE_REMOTE feature is handled directly print "\n"; print " if (feature == VIR_DRV_FEATURE_REMOTE) {\n"; print " rv = 1;\n"; print " goto done;\n"; print " }\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, $single_ret_list_max_define);\n"; print " goto done;\n"; print " }\n"; } if (@setters_list) { print "\n"; print " "; } print join("\n ", @setters_list); if (@setters_list) { print "\n"; } if (@setters_list2) { print "\n"; print " "; } print join("\n ", @setters_list2); if (@setters_list2) { print "\n"; } if ($rettype ne "void") { print "\n"; print " memset(&ret, 0, sizeof ret);\n"; } my $callflags = "0"; if ($structprefix eq "qemu") { $callflags = "REMOTE_CALL_QEMU"; } print "\n"; print " if (call($priv_src, priv, $callflags, ${procprefix}_PROC_$call->{UC_NAME},\n"; print " (xdrproc_t)xdr_$argtype, (char *)$call_args,\n"; print " (xdrproc_t)xdr_$rettype, (char *)$call_ret) == -1) {\n"; if ($call->{streamflag} ne "none") { print " virNetClientRemoveStream(priv->client, netst);\n"; print " virNetClientStreamFree(netst);\n"; print " st->driver = NULL;\n"; print " st->privateData = NULL;\n"; } print " goto done;\n"; print " }\n"; print "\n"; if ($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(${single_ret_list_name}[i]);\n"; print "\n"; print " virReportOOMError();\n"; print " goto cleanup;\n"; print " }\n"; print " }\n"; print "\n"; } if (@ret_list2) { print " "; print join("\n ", @ret_list2); print "\n"; } if (@ret_list) { print " "; print join("\n ", @ret_list); print "\n"; } if ($call->{ProcName} eq "DomainDestroy" || $call->{ProcName} eq "DomainSave" || $call->{ProcName} eq "DomainManagedSave") { # SPECIAL: virDomain{Destroy|Save|ManagedSave} need to reset # the domain id explicitly on success print " dom->id = -1;\n"; } if ($multi_ret or !@ret_list) { print " rv = 0;\n"; } if ($single_ret_as_list or $single_ret_cleanup) { print "\n"; print "cleanup:\n"; print " xdr_free((xdrproc_t)xdr_remote_$call->{name}_ret, (char *)&ret);\n"; } print "\n"; print "done:\n"; print join("\n", @free_list); print " remoteDriverUnlock(priv);\n"; print " return rv;\n"; print "}\n"; } }