# This generates libvirt_c.c (the core of the bindings). You don't
# need to run this program unless you are extending the bindings
# themselves (eg. because libvirt has been extended).
+#
+# Please read libvirt/README.
use strict;
# The functions in the libvirt API that we can generate.
+# The 'sig' (signature) doesn't have a meaning or any internal structure.
+# It is interpreted by the generation functions below to indicate what
+# "class" the function falls into, and to generate the right class of
+# binding.
+#
+# Any function added since libvirt 0.2.1 must be marked weak.
+
my @functions = (
+ { name => "virConnectClose", sig => "conn : free" },
{ name => "virConnectGetHostname", sig => "conn : string", weak => 1 },
{ name => "virConnectGetURI", sig => "conn : string", weak => 1 },
{ name => "virConnectGetType", sig => "conn : static string" },
sig => "conn, int : string array", weak => 1 },
{ name => "virConnectGetCapabilities", sig => "conn : string" },
+ { name => "virDomainCreateLinux", sig => "conn, string, 0U : dom" },
+ { name => "virDomainCreateLinuxJob",
+ sig => "conn, string, 0U : job", weak => 1 },
+ { name => "virDomainFree", sig => "dom : free" },
+ { name => "virDomainDestroy", sig => "dom : free" },
{ name => "virDomainLookupByName", sig => "conn, string : dom" },
+ { name => "virDomainLookupByID", sig => "conn, int : dom" },
+ { name => "virDomainLookupByUUID", sig => "conn, uuid : dom" },
{ name => "virDomainLookupByUUIDString", sig => "conn, string : dom" },
{ name => "virDomainGetName", sig => "dom : static string" },
{ name => "virDomainGetOSType", sig => "dom : string" },
{ name => "virDomainGetXMLDesc", sig => "dom, 0 : string" },
+ { name => "virDomainGetUUID", sig => "dom : uuid" },
+ { name => "virDomainGetUUIDString", sig => "dom : uuid string" },
+ { name => "virDomainGetMaxVcpus", sig => "dom : int" },
+ { name => "virDomainSave", sig => "dom, string : unit" },
+ { name => "virDomainSaveJob",
+ sig => "dom, string : job from dom", weak => 1 },
+ { name => "virDomainRestore", sig => "conn, string : unit" },
+ { name => "virDomainRestoreJob",
+ sig => "conn, string : job", weak => 1 },
+ { name => "virDomainCoreDump", sig => "dom, string, 0 : unit" },
+ { name => "virDomainCoreDumpJob",
+ sig => "dom, string, 0 : job from dom", weak => 1 },
{ name => "virDomainSuspend", sig => "dom : unit" },
{ name => "virDomainResume", sig => "dom : unit" },
{ name => "virDomainShutdown", sig => "dom : unit" },
{ name => "virDomainReboot", sig => "dom, 0 : unit" },
+ { name => "virDomainDefineXML", sig => "conn, string : dom" },
{ name => "virDomainUndefine", sig => "dom : unit" },
{ name => "virDomainCreate", sig => "dom : unit" },
-
+ { name => "virDomainCreateJob",
+ sig => "dom, 0U : job from dom", weak => 1 },
+ { name => "virDomainAttachDevice", sig => "dom, string : unit" },
+ { name => "virDomainDetachDevice", sig => "dom, string : unit" },
+ { name => "virDomainGetAutostart", sig => "dom : bool" },
+ { name => "virDomainSetAutostart", sig => "dom, bool : unit" },
+
+ { name => "virNetworkFree", sig => "net : free" },
+ { name => "virNetworkDestroy", sig => "net : free" },
{ name => "virNetworkLookupByName", sig => "conn, string : net" },
+ { name => "virNetworkLookupByUUID", sig => "conn, uuid : net" },
{ name => "virNetworkLookupByUUIDString", sig => "conn, string : net" },
{ name => "virNetworkGetName", sig => "net : static string" },
{ name => "virNetworkGetXMLDesc", sig => "net, 0 : string" },
{ name => "virNetworkGetBridgeName", sig => "net : string" },
+ { name => "virNetworkGetUUID", sig => "net : uuid" },
+ { name => "virNetworkGetUUIDString", sig => "net : uuid string" },
{ name => "virNetworkUndefine", sig => "net : unit" },
+ { name => "virNetworkCreateXML", sig => "conn, string : net" },
+ { name => "virNetworkCreateXMLJob",
+ sig => "conn, string : job", weak => 1 },
+ { name => "virNetworkDefineXML", sig => "conn, string : net" },
{ name => "virNetworkCreate", sig => "net : unit" },
+ { name => "virNetworkCreateJob",
+ sig => "net : job from net", weak => 1 },
+ { name => "virNetworkGetAutostart", sig => "net : bool" },
+ { name => "virNetworkSetAutostart", sig => "net, bool : unit" },
+ { name => "virStoragePoolFree", sig => "pool : free", weak => 1 },
+ { name => "virStoragePoolDestroy", sig => "pool : free", weak => 1 },
{ name => "virStoragePoolLookupByName",
sig => "conn, string : pool", weak => 1 },
+ { name => "virStoragePoolLookupByUUID",
+ sig => "conn, uuid : pool", weak => 1 },
{ name => "virStoragePoolLookupByUUIDString",
sig => "conn, string : pool", weak => 1 },
{ name => "virStoragePoolGetName",
sig => "pool : static string", weak => 1 },
{ name => "virStoragePoolGetXMLDesc",
- sig => "pool, 0 : string", weak => 1 },
+ sig => "pool, 0U : string", weak => 1 },
+ { name => "virStoragePoolGetUUID",
+ sig => "pool : uuid", weak => 1 },
+ { name => "virStoragePoolGetUUIDString",
+ sig => "pool : uuid string", weak => 1 },
+ { name => "virStoragePoolCreateXML",
+ sig => "conn, string, 0U : pool", weak => 1 },
+ { name => "virStoragePoolDefineXML",
+ sig => "conn, string, 0U : pool", weak => 1 },
+ { name => "virStoragePoolBuild",
+ sig => "pool, uint : unit", weak => 1 },
{ name => "virStoragePoolUndefine",
- sig => "pool : string", weak => 1 },
+ sig => "pool : unit", weak => 1 },
{ name => "virStoragePoolCreate",
- sig => "pool : string", weak => 1 },
- { name => "virStoragePoolShutdown",
- sig => "pool : string", weak => 1 },
+ sig => "pool, 0U : unit", weak => 1 },
+ { name => "virStoragePoolDelete",
+ sig => "pool, uint : unit", weak => 1 },
{ name => "virStoragePoolRefresh",
- sig => "pool, 0 : string", weak => 1 },
-
+ sig => "pool, 0U : unit", weak => 1 },
+ { name => "virStoragePoolGetAutostart",
+ sig => "pool : bool", weak => 1 },
+ { name => "virStoragePoolSetAutostart",
+ sig => "pool, bool : unit", weak => 1 },
+ { name => "virStoragePoolNumOfVolumes",
+ sig => "pool : int", weak => 1 },
+ { name => "virStoragePoolListVolumes",
+ sig => "pool, int : string array", weak => 1 },
+
+ { name => "virStorageVolFree", sig => "vol : free", weak => 1 },
+ { name => "virStorageVolDelete",
+ sig => "vol, uint : unit", weak => 1 },
{ name => "virStorageVolLookupByName",
- sig => "conn, string : vol", weak => 1 },
+ sig => "pool, string : vol from pool", weak => 1 },
{ name => "virStorageVolLookupByKey",
sig => "conn, string : vol", weak => 1 },
{ name => "virStorageVolLookupByPath",
sig => "conn, string : vol", weak => 1 },
+ { name => "virStorageVolCreateXML",
+ sig => "pool, string, 0U : vol from pool", weak => 1 },
{ name => "virStorageVolGetXMLDesc",
- sig => "pool, 0 : string", weak => 1 },
+ sig => "vol, 0U : string", weak => 1 },
{ name => "virStorageVolGetPath",
- sig => "pool : string", weak => 1 },
+ sig => "vol : string", weak => 1 },
{ name => "virStorageVolGetKey",
- sig => "pool : static string", weak => 1 },
+ sig => "vol : static string", weak => 1 },
{ name => "virStorageVolGetName",
- sig => "pool : static string", weak => 1 },
+ sig => "vol : static string", weak => 1 },
+ { name => "virStoragePoolLookupByVolume",
+ sig => "vol : pool from vol", weak => 1 },
+
+ { name => "virJobFree",
+ sig => "job : free", weak => 1 },
+ { name => "virJobCancel",
+ sig => "job : unit", weak => 1 },
+ { name => "virJobGetNetwork",
+ sig => "job : net from job", weak => 1 },
+ { name => "virJobGetDomain",
+ sig => "job : dom from job", weak => 1 },
);
-# Functions we haven't implemented anywhere yet.
-# We create stubs for these, but they need to either be moved ^^ so they
-# are auto-generated or implementations written in libvirt_c_oneoffs.c.
+# Functions we haven't implemented anywhere yet but which are mentioned
+# in 'libvirt.ml'.
+#
+# We create stubs for these, but eventually they need to either be
+# moved ^^^ so they are auto-generated, or implementations of them
+# written in 'libvirt_c_oneoffs.c'.
my @unimplemented = (
- "ocaml_libvirt_domain_create_job",
- "ocaml_libvirt_domain_core_dump_job",
- "ocaml_libvirt_domain_restore_job",
- "ocaml_libvirt_domain_save_job",
- "ocaml_libvirt_connect_create_linux_job",
- "ocaml_libvirt_network_create_job",
- "ocaml_libvirt_network_create_xml_job",
- "ocaml_libvirt_storage_pool_set_autostart",
- "ocaml_libvirt_storage_pool_get_autostart",
- "ocaml_libvirt_storage_pool_get_info",
- "ocaml_libvirt_storage_pool_get_uuid_string",
- "ocaml_libvirt_storage_pool_get_uuid",
- "ocaml_libvirt_storage_pool_free",
- "ocaml_libvirt_storage_pool_destroy",
- "ocaml_libvirt_storage_pool_define_xml",
- "ocaml_libvirt_storage_pool_create_xml",
- "ocaml_libvirt_storage_pool_lookup_by_uuid",
- "ocaml_libvirt_storage_vol_free",
- "ocaml_libvirt_storage_vol_destroy",
- "ocaml_libvirt_storage_vol_create_xml",
- "ocaml_libvirt_storage_vol_get_info",
- "ocaml_libvirt_pool_of_volume",
- "ocaml_libvirt_job_cancel",
- "ocaml_libvirt_job_get_network",
- "ocaml_libvirt_job_get_domain",
- "ocaml_libvirt_job_get_info",
);
#----------------------------------------------------------------------
# Write the prologue.
print F <<'END';
-/* WARNING: THIS FILE IS AUTOMATICALLY GENERATED BY 'generator.pl'.
+/* !!! WARNING WARNING WARNING WARNING WARNING WARNING WARNING !!!
+ *
+ * THIS FILE IS AUTOMATICALLY GENERATED BY 'generator.pl'.
+ *
* Any changes you make to this file may be overwritten.
*/
elsif ($_ eq "net") { "virNetworkPtr" }
elsif ($_ eq "pool") { "virStoragePoolPtr" }
elsif ($_ eq "vol") { "virStorageVolPtr" }
+ elsif ($_ eq "job") { "virJobPtr" }
else {
die "unknown short name $_"
}
}
+# Generate a C signature for the original function. Used when building
+# weak bindings.
+
sub gen_c_signature
{
my $sig = shift;
} elsif ($sig =~ /^(\w+) : int$/) {
my $c_type = short_name_to_c_type ($1);
"int $c_name ($c_type $1)"
+ } elsif ($sig =~ /^(\w+) : uuid$/) {
+ my $c_type = short_name_to_c_type ($1);
+ "int $c_name ($c_type $1, unsigned char *)"
+ } elsif ($sig =~ /^(\w+) : uuid string$/) {
+ my $c_type = short_name_to_c_type ($1);
+ "int $c_name ($c_type $1, char *)"
+ } elsif ($sig =~ /^(\w+) : bool$/) {
+ my $c_type = short_name_to_c_type ($1);
+ "int $c_name ($c_type $1, int *r)"
+ } elsif ($sig =~ /^(\w+), bool : unit$/) {
+ my $c_type = short_name_to_c_type ($1);
+ "int $c_name ($c_type $1, int b)"
} elsif ($sig eq "conn, int : int array") {
"int $c_name (virConnectPtr conn, int *ids, int maxids)"
- } elsif ($sig eq "conn, int : string array") {
- "int $c_name (virConnectPtr conn, char **const names, int maxnames)"
- } elsif ($sig =~ /^(\w+), 0 : string$/) {
+ } elsif ($sig =~ /^(\w+), int : string array$/) {
+ my $c_type = short_name_to_c_type ($1);
+ "int $c_name ($c_type $1, char **const names, int maxnames)"
+ } elsif ($sig =~ /^(\w+), 0(U?) : string$/) {
my $c_type = short_name_to_c_type ($1);
- "char *$c_name ($c_type $1, int flags)"
- } elsif ($sig =~ /^(\w+), 0 : unit$/) {
+ my $unsigned = $2 eq "U" ? "unsigned " : "";
+ "char *$c_name ($c_type $1, $unsigned int flags)"
+ } elsif ($sig =~ /^(\w+), 0(U?) : unit$/) {
my $c_type = short_name_to_c_type ($1);
- "int $c_name ($c_type $1, int flags)"
+ my $unsigned = $2 eq "U" ? "unsigned " : "";
+ "int $c_name ($c_type $1, $unsigned int flags)"
} elsif ($sig =~ /^(\w+) : unit$/) {
my $c_type = short_name_to_c_type ($1);
- "int $c_name ($c_type $1 dom)"
+ "int $c_name ($c_type $1)"
+ } elsif ($sig =~ /^(\w+) : free$/) {
+ my $c_type = short_name_to_c_type ($1);
+ "int $c_name ($c_type $1)"
+ } elsif ($sig =~ /^(\w+), string : unit$/) {
+ my $c_type = short_name_to_c_type ($1);
+ "int $c_name ($c_type $1, const char *str)"
+ } elsif ($sig =~ /^(\w+), string, 0(U?) : unit$/) {
+ my $c_type = short_name_to_c_type ($1);
+ my $unsigned = $2 eq "U" ? "unsigned " : "";
+ "int $c_name ($c_type $1, const char *str, ${unsigned}int flags)"
} elsif ($sig =~ /^(\w+), string : (\w+)$/) {
my $c_type = short_name_to_c_type ($1);
my $c_ret_type = short_name_to_c_type ($2);
- "$c_ret_type $c_name ($c_type $1 dom)"
+ "$c_ret_type $c_name ($c_type $1, const char *str)"
+ } elsif ($sig =~ /^(\w+), string, 0(U?) : (\w+)$/) {
+ my $c_type = short_name_to_c_type ($1);
+ my $unsigned = $2 eq "U" ? "unsigned " : "";
+ my $c_ret_type = short_name_to_c_type ($3);
+ "$c_ret_type $c_name ($c_type $1, const char *str, ${unsigned}int flags)"
+ } elsif ($sig =~ /^(\w+), (u?)int : unit$/) {
+ my $c_type = short_name_to_c_type ($1);
+ my $unsigned = $2 eq "u" ? "unsigned " : "";
+ "int $c_name ($c_type $1, ${unsigned}int i)"
+ } elsif ($sig =~ /^(\w+), (u?)int : (\w+)$/) {
+ my $c_type = short_name_to_c_type ($1);
+ my $unsigned = $2 eq "u" ? "unsigned " : "";
+ my $c_ret_type = short_name_to_c_type ($3);
+ "$c_ret_type $c_name ($c_type $1, ${unsigned}int i)"
+ } elsif ($sig =~ /^(\w+), uuid : (\w+)$/) {
+ my $c_type = short_name_to_c_type ($1);
+ my $c_ret_type = short_name_to_c_type ($2);
+ "$c_ret_type $c_name ($c_type $1, const unsigned char *str)"
+ } elsif ($sig =~ /^(\w+), 0(U?) : (\w+)$/) {
+ my $c_type = short_name_to_c_type ($1);
+ my $unsigned = $2 eq "U" ? "unsigned " : "";
+ my $c_ret_type = short_name_to_c_type ($3);
+ "$c_ret_type $c_name ($c_type $1, $unsigned int flags)"
+ } elsif ($sig =~ /^(\w+) : (\w+)$/) {
+ my $c_type = short_name_to_c_type ($1);
+ my $c_ret_type = short_name_to_c_type ($2);
+ "$c_ret_type $c_name ($c_type $1)"
+ } elsif ($sig =~ /^(\w+), string : (\w+) from \w+$/) {
+ my $c_type = short_name_to_c_type ($1);
+ my $c_ret_type = short_name_to_c_type ($2);
+ "$c_ret_type $c_name ($c_type $1, const char *str)"
+ } elsif ($sig =~ /^(\w+), string, 0(U?) : (\w+) from \w+$/) {
+ my $c_type = short_name_to_c_type ($1);
+ my $unsigned = $2 eq "U" ? "unsigned " : "";
+ my $c_ret_type = short_name_to_c_type ($3);
+ "$c_ret_type $c_name ($c_type $1, const char *str, $unsigned int flags)"
+ } elsif ($sig =~ /^(\w+), 0(U?) : (\w+) from \w+$/) {
+ my $c_type = short_name_to_c_type ($1);
+ my $unsigned = $2 eq "U" ? "unsigned " : "";
+ my $c_ret_type = short_name_to_c_type ($3);
+ "$c_ret_type $c_name ($c_type $1, $unsigned int flags)"
+ } elsif ($sig =~ /^(\w+) : (\w+) from \w+$/) {
+ my $c_type = short_name_to_c_type ($1);
+ my $c_ret_type = short_name_to_c_type ($2);
+ "$c_ret_type $c_name ($c_type $1)"
} else {
die "unknown signature $sig"
}
}
+# OCaml argument names.
+
sub gen_arg_names
{
my $sig = shift;
( "$1v" )
} elsif ($sig =~ /^(\w+) : int$/) {
( "$1v" )
+ } elsif ($sig =~ /^(\w+) : uuid$/) {
+ ( "$1v" )
+ } elsif ($sig =~ /^(\w+) : uuid string$/) {
+ ( "$1v" )
+ } elsif ($sig =~ /^(\w+) : bool$/) {
+ ( "$1v" )
+ } elsif ($sig =~ /^(\w+), bool : unit$/) {
+ ( "$1v", "bv" )
} elsif ($sig eq "conn, int : int array") {
( "connv", "iv" )
- } elsif ($sig eq "conn, int : string array") {
- ( "connv", "iv" )
- } elsif ($sig =~ /^(\w+), 0 : string$/) {
+ } elsif ($sig =~ /^(\w+), int : string array$/) {
+ ( "$1v", "iv" )
+ } elsif ($sig =~ /^(\w+), 0U? : string$/) {
( "$1v" )
- } elsif ($sig =~ /^(\w+), 0 : unit$/) {
+ } elsif ($sig =~ /^(\w+), 0U? : unit$/) {
( "$1v" )
} elsif ($sig =~ /^(\w+) : unit$/) {
( "$1v" )
+ } elsif ($sig =~ /^(\w+) : free$/) {
+ ( "$1v" )
+ } elsif ($sig =~ /^(\w+), string : unit$/) {
+ ( "$1v", "strv" )
+ } elsif ($sig =~ /^(\w+), string, 0U? : unit$/) {
+ ( "$1v", "strv" )
} elsif ($sig =~ /^(\w+), string : (\w+)$/) {
( "$1v", "strv" )
+ } elsif ($sig =~ /^(\w+), string, 0U? : (\w+)$/) {
+ ( "$1v", "strv" )
+ } elsif ($sig =~ /^(\w+), u?int : (\w+)$/) {
+ ( "$1v", "iv" )
+ } elsif ($sig =~ /^(\w+), uuid : (\w+)$/) {
+ ( "$1v", "uuidv" )
+ } elsif ($sig =~ /^(\w+), 0U? : (\w+)$/) {
+ ( "$1v" )
+ } elsif ($sig =~ /^(\w+) : (\w+)$/) {
+ ( "$1v" )
+ } elsif ($sig =~ /^(\w+), string : (\w+) from \w+$/) {
+ ( "$1v", "strv" )
+ } elsif ($sig =~ /^(\w+), string, 0U? : (\w+) from \w+$/) {
+ ( "$1v", "strv" )
+ } elsif ($sig =~ /^(\w+), 0U? : (\w+) from \w+$/) {
+ ( "$1v" )
+ } elsif ($sig =~ /^(\w+) : (\w+) from \w+$/) {
+ ( "$1v" )
} else {
die "unknown signature $sig"
}
}
+# Unpack the first (object) argument.
+
sub gen_unpack_args
{
local $_ = shift;
} elsif ($_ eq "vol") {
"virStorageVolPtr vol = Volume_val (volv);\n".
" virConnectPtr conn = Connect_volv (volv);"
+ } elsif ($_ eq "job") {
+ "virJobPtr job = Job_val (jobv);\n".
+ " virConnectPtr conn = Connect_jobv (jobv);"
} else {
die "unknown short name $_"
}
}
+# Pack the result if it's an object.
+
sub gen_pack_result
{
local $_ = shift;
- if ($_ eq "dom") {
- "rv = Val_domain (r, connv);"
- } elsif ($_ eq "net") {
- "rv = Val_network (r, connv);"
- } elsif ($_ eq "pool") {
- "rv = Val_pool (r, connv);"
- } elsif ($_ eq "vol") {
- "rv = Val_volume (r, connv);"
+ if ($_ eq "dom") { "rv = Val_domain (r, connv);" }
+ elsif ($_ eq "net") { "rv = Val_network (r, connv);" }
+ elsif ($_ eq "pool") { "rv = Val_pool (r, connv);" }
+ elsif ($_ eq "vol") { "rv = Val_volume (r, connv);" }
+ elsif ($_ eq "job") { "rv = Val_job (r, connv);" }
+ else {
+ die "unknown short name $_"
+ }
+}
+
+sub gen_free_arg
+{
+ local $_ = shift;
+
+ if ($_ eq "conn") { "Connect_val (connv) = NULL;" }
+ elsif ($_ eq "dom") { "Domain_val (domv) = NULL;" }
+ elsif ($_ eq "net") { "Network_val (netv) = NULL;" }
+ elsif ($_ eq "pool") { "Pool_val (poolv) = NULL;" }
+ elsif ($_ eq "vol") { "Volume_val (volv) = NULL;" }
+ elsif ($_ eq "job") { "Job_val (jobv) = NULL;" }
+ else {
+ die "unknown short name $_"
}
}
+# Generate the C body for each signature (class of function).
+
sub gen_c_code
{
my $sig = shift;
CAMLreturn (Val_int (r));
"
+ } elsif ($sig =~ /^(\w+) : uuid$/) {
+ "\
+ CAMLlocal1 (rv);
+ " . gen_unpack_args ($1) . "
+ unsigned char uuid[VIR_UUID_BUFLEN];
+ int r;
+
+ NONBLOCKING (r = $c_name ($1, uuid));
+ CHECK_ERROR (r == -1, conn, \"$c_name\");
+
+ /* UUIDs are byte arrays with a fixed length. */
+ rv = caml_alloc_string (VIR_UUID_BUFLEN);
+ memcpy (String_val (rv), uuid, VIR_UUID_BUFLEN);
+ CAMLreturn (rv);
+"
+ } elsif ($sig =~ /^(\w+) : uuid string$/) {
+ "\
+ CAMLlocal1 (rv);
+ " . gen_unpack_args ($1) . "
+ char uuid[VIR_UUID_STRING_BUFLEN];
+ int r;
+
+ NONBLOCKING (r = $c_name ($1, uuid));
+ CHECK_ERROR (r == -1, conn, \"$c_name\");
+
+ rv = caml_copy_string (uuid);
+ CAMLreturn (rv);
+"
+ } elsif ($sig =~ /^(\w+) : bool$/) {
+ "\
+ " . gen_unpack_args ($1) . "
+ int r, b;
+
+ NONBLOCKING (r = $c_name ($1, &b));
+ CHECK_ERROR (r == -1, conn, \"$c_name\");
+
+ CAMLreturn (b ? Val_true : Val_false);
+"
+ } elsif ($sig =~ /^(\w+), bool : unit$/) {
+ "\
+ " . gen_unpack_args ($1) . "
+ int r, b;
+
+ b = bv == Val_true ? 1 : 0;
+
+ NONBLOCKING (r = $c_name ($1, b));
+ CHECK_ERROR (r == -1, conn, \"$c_name\");
+
+ CAMLreturn (Val_unit);
+"
} elsif ($sig eq "conn, int : int array") {
"\
CAMLlocal1 (rv);
CAMLreturn (rv);
"
- } elsif ($sig eq "conn, int : string array") {
+ } elsif ($sig =~ /^(\w+), int : string array$/) {
"\
CAMLlocal2 (rv, strv);
- virConnectPtr conn = Connect_val (connv);
+ " . gen_unpack_args ($1) . "
int i = Int_val (iv);
char *names[i];
int r;
- NONBLOCKING (r = $c_name (conn, names, i));
+ NONBLOCKING (r = $c_name ($1, names, i));
CHECK_ERROR (r == -1, conn, \"$c_name\");
rv = caml_alloc (r, 0);
CAMLreturn (rv);
"
- } elsif ($sig =~ /^(\w+), 0 : string$/) {
+ } elsif ($sig =~ /^(\w+), 0U? : string$/) {
"\
CAMLlocal1 (rv);
" . gen_unpack_args ($1) . "
free (r);
CAMLreturn (rv);
"
+ } elsif ($sig =~ /^(\w+), 0U? : unit$/) {
+ "\
+ " . gen_unpack_args ($1) . "
+ int r;
+
+ NONBLOCKING (r = $c_name ($1, 0));
+ CHECK_ERROR (r == -1, conn, \"$c_name\");
+
+ CAMLreturn (Val_unit);
+"
} elsif ($sig =~ /^(\w+) : unit$/) {
"\
" . gen_unpack_args ($1) . "
CAMLreturn (Val_unit);
"
- } elsif ($sig =~ /^(\w+), 0 : unit$/) {
+ } elsif ($sig =~ /^(\w+) : free$/) {
"\
" . gen_unpack_args ($1) . "
int r;
- NONBLOCKING (r = $c_name ($1, 0));
+ NONBLOCKING (r = $c_name ($1));
CHECK_ERROR (r == -1, conn, \"$c_name\");
+ /* So that we don't double-free in the finalizer: */
+ " . gen_free_arg ($1) . "
+
+ CAMLreturn (Val_unit);
+"
+ } elsif ($sig =~ /^(\w+), string : unit$/) {
+ "\
+ " . gen_unpack_args ($1) . "
+ char *str = String_val (strv);
+ int r;
+
+ NONBLOCKING (r = $c_name ($1, str));
+ CHECK_ERROR (r == -1, conn, \"$c_name\");
+
+ CAMLreturn (Val_unit);
+"
+ } elsif ($sig =~ /^(\w+), string, 0U? : unit$/) {
+ "\
+ CAMLlocal1 (rv);
+ " . gen_unpack_args ($1) . "
+ char *str = String_val (strv);
+ int r;
+
+ NONBLOCKING (r = $c_name ($1, str, 0));
+ CHECK_ERROR (!r, conn, \"$c_name\");
+
CAMLreturn (Val_unit);
"
} elsif ($sig =~ /^(\w+), string : (\w+)$/) {
CAMLreturn (rv);
"
+ } elsif ($sig =~ /^(\w+), string, 0U? : (\w+)$/) {
+ my $c_ret_type = short_name_to_c_type ($2);
+ "\
+ CAMLlocal1 (rv);
+ " . gen_unpack_args ($1) . "
+ char *str = String_val (strv);
+ $c_ret_type r;
+
+ NONBLOCKING (r = $c_name ($1, str, 0));
+ CHECK_ERROR (!r, conn, \"$c_name\");
+
+ " . gen_pack_result ($2) . "
+
+ CAMLreturn (rv);
+"
+ } elsif ($sig =~ /^(\w+), (u?)int : unit$/) {
+ my $unsigned = $2 eq "u" ? "unsigned " : "";
+ "\
+ " . gen_unpack_args ($1) . "
+ ${unsigned}int i = Int_val (iv);
+ int r;
+
+ NONBLOCKING (r = $c_name ($1, i));
+ CHECK_ERROR (!r, conn, \"$c_name\");
+
+ CAMLreturn (Val_unit);
+"
+ } elsif ($sig =~ /^(\w+), (u?)int : (\w+)$/) {
+ my $c_ret_type = short_name_to_c_type ($3);
+ my $unsigned = $2 eq "u" ? "unsigned " : "";
+ "\
+ CAMLlocal1 (rv);
+ " . gen_unpack_args ($1) . "
+ ${unsigned}int i = Int_val (iv);
+ $c_ret_type r;
+
+ NONBLOCKING (r = $c_name ($1, i));
+ CHECK_ERROR (!r, conn, \"$c_name\");
+
+ " . gen_pack_result ($3) . "
+
+ CAMLreturn (rv);
+"
+ } elsif ($sig =~ /^(\w+), uuid : (\w+)$/) {
+ my $c_ret_type = short_name_to_c_type ($2);
+ "\
+ CAMLlocal1 (rv);
+ " . gen_unpack_args ($1) . "
+ unsigned char *uuid = (unsigned char *) String_val (uuidv);
+ $c_ret_type r;
+
+ NONBLOCKING (r = $c_name ($1, uuid));
+ CHECK_ERROR (!r, conn, \"$c_name\");
+
+ " . gen_pack_result ($2) . "
+
+ CAMLreturn (rv);
+"
+ } elsif ($sig =~ /^(\w+), 0U? : (\w+)$/) {
+ my $c_ret_type = short_name_to_c_type ($2);
+ "\
+ CAMLlocal1 (rv);
+ " . gen_unpack_args ($1) . "
+ $c_ret_type r;
+
+ NONBLOCKING (r = $c_name ($1, 0));
+ CHECK_ERROR (!r, conn, \"$c_name\");
+
+ " . gen_pack_result ($2) . "
+
+ CAMLreturn (rv);
+"
+ } elsif ($sig =~ /^(\w+) : (\w+)$/) {
+ my $c_ret_type = short_name_to_c_type ($2);
+ "\
+ CAMLlocal1 (rv);
+ " . gen_unpack_args ($1) . "
+ $c_ret_type r;
+
+ NONBLOCKING (r = $c_name ($1));
+ CHECK_ERROR (!r, conn, \"$c_name\");
+
+ " . gen_pack_result ($2) . "
+
+ CAMLreturn (rv);
+"
+ } elsif ($sig =~ /^(\w+), string : (\w+) from (\w+)$/) {
+ my $c_ret_type = short_name_to_c_type ($2);
+ "\
+ CAMLlocal2 (rv, connv);
+ " . gen_unpack_args ($1) . "
+ char *str = String_val (strv);
+ $c_ret_type r;
+
+ NONBLOCKING (r = $c_name ($1, str));
+ CHECK_ERROR (!r, conn, \"$c_name\");
+
+ connv = Field ($3v, 1);
+ " . gen_pack_result ($2) . "
+
+ CAMLreturn (rv);
+"
+ } elsif ($sig =~ /^(\w+), string, 0U? : (\w+) from (\w+)$/) {
+ my $c_ret_type = short_name_to_c_type ($2);
+ "\
+ CAMLlocal2 (rv, connv);
+ " . gen_unpack_args ($1) . "
+ char *str = String_val (strv);
+ $c_ret_type r;
+
+ NONBLOCKING (r = $c_name ($1, str, 0));
+ CHECK_ERROR (!r, conn, \"$c_name\");
+
+ connv = Field ($3v, 1);
+ " . gen_pack_result ($2) . "
+
+ CAMLreturn (rv);
+"
+ } elsif ($sig =~ /^(\w+), 0U? : (\w+) from (\w+)$/) {
+ my $c_ret_type = short_name_to_c_type ($2);
+ "\
+ CAMLlocal2 (rv, connv);
+ " . gen_unpack_args ($1) . "
+ $c_ret_type r;
+
+ NONBLOCKING (r = $c_name ($1, 0));
+ CHECK_ERROR (!r, conn, \"$c_name\");
+
+ connv = Field ($3v, 1);
+ " . gen_pack_result ($2) . "
+
+ CAMLreturn (rv);
+"
+ } elsif ($sig =~ /^(\w+) : (\w+) from (\w+)$/) {
+ my $c_ret_type = short_name_to_c_type ($2);
+ "\
+ CAMLlocal2 (rv, connv);
+ " . gen_unpack_args ($1) . "
+ $c_ret_type r;
+
+ NONBLOCKING (r = $c_name ($1));
+ CHECK_ERROR (!r, conn, \"$c_name\");
+
+ connv = Field ($3v, 1);
+ " . gen_pack_result ($2) . "
+
+ CAMLreturn (rv);
+"
} else {
die "unknown signature $sig"
}
my $is_weak = $function->{weak};
my $sig = $function->{sig};
- my $is_pool_func = $c_name =~ /^virStoragePool/;
- my $is_vol_func = $c_name =~ /^virStorageVol/;
+ #print "generating $c_name with sig \"$sig\" ...\n";
+
+ #my $is_pool_func = $c_name =~ /^virStoragePool/;
+ #my $is_vol_func = $c_name =~ /^virStorageVol/;
# Generate an equivalent C-external name for the function, unless
# one is defined already.
die "cannot convert c_name $c_name to c_external_name"
}
+ print F <<END;
+/* Automatically generated binding for $c_name.
+ * In generator.pl this function has signature "$sig".
+ */
+
+END
+
# Generate a full function prototype if the function is weak.
my $have_name = "HAVE_" . uc ($c_name);
if ($is_weak) {
#ifndef $have_name
/* Symbol $c_name not found at compile time. */
not_supported ("$c_name");
- /* Suppresses a compiler warning. */
- (void) caml__frame;
+ CAMLnoreturn;
#else
/* Check that the symbol $c_name
* is in runtime version of libvirt.
# Unimplemented functions.
-printf "$0: warning: %d unimplemented functions\n", scalar (@unimplemented);
+if (@unimplemented) {
+ printf "$0: warning: %d unimplemented functions\n", scalar (@unimplemented);
+
+ print F <<'END';
+/* The following functions are unimplemented and always fail.
+ * See generator.pl '@unimplemented'
+ */
+
+END
-foreach my $c_external_name (@unimplemented) {
- print F <<END
+ foreach my $c_external_name (@unimplemented) {
+ print F <<END;
CAMLprim value
$c_external_name ()
{
}
END
-}
+ } # end foreach
+} # end if @unimplemented
#----------------------------------------------------------------------