///////////////////////////////////////////////////////////////////////// // $Id$ ///////////////////////////////////////////////////////////////////////// // // Copyright (C) 2009-2016 Benjamin D Lunt (fys [at] fysnet [dot] net) // 2009-2016 The Bochs Project // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2 of the License, or (at your option) any later version. // // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA #ifndef BX_IODEV_UHCI_CORE_H #define BX_IODEV_UHCI_CORE_H #define USB_UHCI_PORTS 2 typedef struct { int timer_index; // Registers // Base + 0x00 Command register // Base + 0x02 Status register // Base + 0x04 Interrupt Enable register // Base + 0x06 Frame Number register // Base + 0x08 Frame Base Register (32-bit) // Base + 0x0C Start of Frame Modify register // Base + 0x0D // Base + 0x0E // Base + 0x0F // Base + 0x10 Eight(?) 16-bit ports (one for each port on hub) // Bit reps of registers above // Command Register // Bits 15-8 are reserved // Bit 7 = Maximum packet size // Bit 6 = Host Controller has been configured (set by software) // Bit 5 = software debug mode // Bit 4 = force global resume // Bit 3 = enter global suspend mode // Bit 2 = global reset // Bit 1 = host controller reset // Bit 0 = run/stop schedule struct { bx_bool max_packet_size; //(bit 7) 0 = 32 bytes, 1 = 64 bytes bx_bool configured; //(bit 6) bx_bool debug; //(bit 5) bx_bool resume; //(bit 4) bx_bool suspend; //(bit 3) bx_bool reset; //(bit 2) bx_bool host_reset; //(bit 1) bx_bool schedule; //(bit 0) 0 = Stop, 1 = Run } usb_command; // Status Register // Bits 15-6 are reserved // Bit 5 = Host controller halted // Bit 4 = Host controller process error // Bit 3 = PCI Bus error // Bit 2 = resume received // Bit 1 = USB error interrupt // Bit 0 = USB interrupt struct { bx_bool host_halted; //(bit 5) bx_bool host_error; //(bit 4) bx_bool pci_error; //(bit 3) bx_bool resume; //(bit 2) bx_bool error_interrupt; //(bit 1) bx_bool interrupt; //(bit 0) Bit8u status2; // bit 0 and 1 are used to generate the interrupt } usb_status; // Interrupt Enable Register // Bits 15-4 are reserved // Bit 3 = enable short packet interrupts // Bit 2 = enable interrupt On Complete // Bit 1 = enable resume // Bit 0 = enable timeout/crc struct { bx_bool short_packet; //(bit 3) bx_bool on_complete; //(bit 2) bx_bool resume; //(bit 1) bx_bool timeout_crc; //(bit 0) } usb_enable; // Frame Number Register // Bits 15-11 are reserved // Bits 10-0 Frame List Current Index/Frame Number struct { Bit16u frame_num; } usb_frame_num; // Frame List Base Address Register // Bits 31-12 Base // Bits 11-0 *must* be zeros when written to struct { Bit32u frame_base; } usb_frame_base; // Start of Frame Modify Register // Bit 7 reserved // Bits 6-0 SOF timing value (default 64) // SOF cycle time equals 11936+timing value struct { Bit8u sof_timing; } usb_sof; // Port Register (0-1) // Bits 15-13 are reserved // Bit 12 suspend port // Bit 11-10 are reserved // Bit 9 port in reset state // Bit 8 low-speed device is attached (read-only) // Bit 7 reserved // Bit 6 resume detected (read-only) // Bit 5 line-status D+ (read-only) // Bit 4 line-status D- (read-only) // Bit 3 port enabled/disable status has changed // (write 1 to this bit to clear it) // Bit 2 port is enabled // Bit 1 connect status has changed // (write 1 to this bit to clear it) // Bit 0 current connect status (read-only) // Can only write in WORD sizes (Read in byte sizes???) struct { // our data usb_device_c *device; // device connected to this port // bit reps of actual port bx_bool suspend; bx_bool reset; bx_bool low_speed; bx_bool resume; bx_bool line_dminus; bx_bool line_dplus; bx_bool able_changed; bx_bool enabled; bx_bool connect_changed; bx_bool status; } usb_port[USB_UHCI_PORTS]; Bit8u devfunc; } bx_uhci_core_t; #pragma pack (push, 1) struct TD { Bit32u dword0; Bit32u dword1; Bit32u dword2; Bit32u dword3; Bit32u resv[4]; }; #pragma pack (pop) #define HC_HORZ 0x80 #define HC_VERT 0x81 struct HCSTACK { Bit32u next; Bit8u d; // if queue, denotes VERT or HORZ bx_bool q; bx_bool t; }; class bx_uhci_core_c : public bx_devmodel_c, public bx_pci_device_stub_c { public: bx_uhci_core_c(); virtual ~bx_uhci_core_c(); virtual void init_uhci(Bit8u devfunc, Bit16u devid, Bit8u headt, Bit8u intp); virtual void reset_uhci(unsigned); virtual void register_state(bx_list_c *parent); virtual void after_restore_state(void); virtual void set_port_device(int port, usb_device_c *dev); virtual Bit32u pci_read_handler(Bit8u address, unsigned io_len); virtual void pci_write_handler(Bit8u address, Bit32u value, unsigned io_len); void event_handler(int event, USBPacket *packet, int port); protected: bx_uhci_core_t hub; Bit8u global_reset; bx_bool busy; USBAsync *packets; void update_irq(void); int broadcast_packet(USBPacket *p); void set_connect_status(Bit8u port, int type, bx_bool connected); static void uhci_timer_handler(void *); void uhci_timer(void); bx_bool DoTransfer(Bit32u address, Bit32u queue_num, struct TD *); void set_status(struct TD *td, bx_bool stalled, bx_bool data_buffer_error, bx_bool babble, bx_bool nak, bx_bool crc_time_out, bx_bool bitstuff_error, Bit16u act_len); static Bit32u read_handler(void *this_ptr, Bit32u address, unsigned io_len); static void write_handler(void *this_ptr, Bit32u address, Bit32u value, unsigned io_len); Bit32u read(Bit32u address, unsigned io_len); void write(Bit32u address, Bit32u value, unsigned io_len); }; #endif