#include #include #include #include #include #include #include #include #include "interfaces/openbmc_intf.h" #include "openbmc.h" #include "gpio.h" /* ------------------------------------------------------------------------- */ static const gchar* dbus_object_path = "/org/openbmc/control"; static const gchar* instance_name = "bmc0"; static const gchar* dbus_name = "org.openbmc.control.Bmc"; //this probably should come from some global SOC config #define LPC_BASE (off_t)0x1e789000 #define LPC_HICR6 0x80 #define LPC_HICR7 0x88 #define LPC_HICR8 0x8c #define SPI_BASE (off_t)0x1e630000 #define SCU_BASE (off_t)0x1e780000 #define UART_BASE (off_t)0x1e783000 #define COM_BASE (off_t)0x1e789000 #define COM_BASE2 (off_t)0x1e789100 #define GPIO_BASE (off_t)0x1e6e2000 static GDBusObjectManagerServer *manager = NULL; void* memmap(int mem_fd,off_t base) { void* bmcreg; bmcreg = mmap(NULL, getpagesize(), PROT_READ | PROT_WRITE, MAP_SHARED, mem_fd, base); if(bmcreg == MAP_FAILED) { printf("ERROR: Unable to map LPC register memory"); exit(1); } return bmcreg; } void reg_init() { g_print("BMC init\n"); // BMC init done here void *bmcreg; int mem_fd = open("/dev/mem", O_RDWR | O_SYNC); if(mem_fd < 0) { printf("ERROR: Unable to open /dev/mem"); exit(1); } bmcreg = memmap(mem_fd,LPC_BASE); devmem(bmcreg+LPC_HICR6,0x00000500); //Enable LPC FWH cycles, Enable LPC to AHB bridge devmem(bmcreg+LPC_HICR7,0x30000E00); //32M PNOR devmem(bmcreg+LPC_HICR8,0xFE0001FF); //flash controller bmcreg = memmap(mem_fd,SPI_BASE); devmem(bmcreg+0x00,0x00000003); devmem(bmcreg+0x04,0x00002404); //UART bmcreg = memmap(mem_fd,UART_BASE); devmem(bmcreg+0x00,0x00000000); //Set Baud rate divisor -> 13 (Baud 115200) devmem(bmcreg+0x04,0x00000000); //Set Baud rate divisor -> 13 (Baud 115200) devmem(bmcreg+0x08,0x000000c1); //Disable Parity, 1 stop bit, 8 bits bmcreg = memmap(mem_fd,COM_BASE); devmem(bmcreg+0x9C,0x00000000); //Set UART routing bmcreg = memmap(mem_fd,SCU_BASE); devmem(bmcreg+0x00,0x13008CE7); devmem(bmcreg+0x04,0x0370E677); devmem(bmcreg+0x20,0xDF48F7FF); devmem(bmcreg+0x24,0xC738F202); //GPIO bmcreg = memmap(mem_fd,GPIO_BASE); devmem(bmcreg+0x84,0x00fff0c0); //Enable UART1 devmem(bmcreg+0x70,0x120CE406); devmem(bmcreg+0x80,0xCB000000); devmem(bmcreg+0x88,0x01C000FF); devmem(bmcreg+0x8c,0xC1C000FF); devmem(bmcreg+0x90,0x003FA009); bmcreg = memmap(mem_fd,COM_BASE); devmem(bmcreg+0x170,0x00000042); devmem(bmcreg+0x174,0x00004000); close(mem_fd); } static gboolean on_init(Control *control, GDBusMethodInvocation *invocation, gpointer user_data) { //#ifdef __arm__ //reg_init(); //#endif control_complete_init(control,invocation); //control_emit_goto_system_state(control,"BMC_STARTING"); return TRUE; } static gboolean on_warm_reset(ControlBmc *bmc, GDBusMethodInvocation *invocation, gpointer user_data) { GError *err = NULL; /* Wait a while before reboot, so the caller can be responded. * Note that g_spawn_command_line_async() cannot parse ';' as * a command separator. Need to use 'sh -c' to let shell parse it. */ gchar *reboot_command = "/bin/sh -c 'sleep 3;reboot'"; g_spawn_command_line_async(reboot_command, &err); if(err != NULL) { fprintf(stderr, "warmReset() error: %s\n", err->message); g_error_free(err); } control_bmc_complete_warm_reset(bmc, invocation); return TRUE; } gboolean go(gpointer user_data) { cmdline *cmd = user_data; Control* control = object_get_control((Object*)cmd->user_data); #ifdef __arm__ reg_init(); #endif control_emit_goto_system_state(control,"BMC_STARTING"); //g_main_loop_quit(cmd->loop); return FALSE; } static void on_bus_acquired(GDBusConnection *connection, const gchar *name, gpointer user_data) { ObjectSkeleton *object; cmdline *cmd = user_data; manager = g_dbus_object_manager_server_new(dbus_object_path); gchar *s; s = g_strdup_printf("%s/%s",dbus_object_path,instance_name); object = object_skeleton_new(s); g_free(s); ControlBmc* control_bmc = control_bmc_skeleton_new(); object_skeleton_set_control_bmc(object, control_bmc); g_object_unref(control_bmc); Control* control = control_skeleton_new(); object_skeleton_set_control(object, control); g_object_unref(control); //define method callbacks here g_signal_connect(control, "handle-init", G_CALLBACK(on_init), NULL); /* user_data */ g_signal_connect(control_bmc, "handle-warm-reset", G_CALLBACK(on_warm_reset), NULL); /* user_data */ /* Export the object (@manager takes its own reference to @object) */ g_dbus_object_manager_server_export(manager, G_DBUS_OBJECT_SKELETON(object)); g_object_unref(object); /* Export all objects */ g_dbus_object_manager_server_set_connection(manager, connection); //TODO: This is a bad hack to wait for object to be on bus //sleep(1); cmd->user_data = object; //g_idle_add(go,cmd); } static void on_name_acquired(GDBusConnection *connection, const gchar *name, gpointer user_data) { } static void on_name_lost(GDBusConnection *connection, const gchar *name, gpointer user_data) { } /*----------------------------------------------------------------*/ /* Main Event Loop */ gint main(gint argc, gchar *argv[]) { GMainLoop *loop; cmdline cmd; cmd.argc = argc; cmd.argv = argv; guint id; loop = g_main_loop_new(NULL, FALSE); cmd.loop = loop; id = g_bus_own_name(DBUS_TYPE, dbus_name, G_BUS_NAME_OWNER_FLAGS_ALLOW_REPLACEMENT | G_BUS_NAME_OWNER_FLAGS_REPLACE, on_bus_acquired, on_name_acquired, on_name_lost, &cmd, NULL); g_main_loop_run(loop); g_bus_unown_name(id); g_main_loop_unref(loop); return 0; }