coreboot-kgpe-d16/payloads/libpayload/drivers/usb/xhci_private.h

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/*
* This file is part of the libpayload project.
*
* Copyright (C) 2010 Patrick Georgi
* Copyright (C) 2013 secunet Security Networks AG
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#ifndef __XHCI_PRIVATE_H
#define __XHCI_PRIVATE_H
//#define USB_DEBUG
#include <usb/usb.h>
//#define XHCI_DUMPS
#define xhci_debug(fmt, args...) usb_debug("%s: " fmt, __func__, ## args)
#ifdef XHCI_SPEW_DEBUG
# define xhci_spew(fmt, args...) xhci_debug(fmt, ##args)
#else
# define xhci_spew(fmt, args...) do {} while(0)
#endif
#define MASK(startbit, lenbit) (((1<<(lenbit))-1)<<(startbit))
enum { XHCI_FULL_SPEED = 1, XHCI_LOW_SPEED = 2, XHCI_HIGH_SPEED = 3, XHCI_SUPER_SPEED = 4 };
#define TIMEOUT -1
#define CONTROLLER_ERROR -2
#define COMMUNICATION_ERROR -3
#define OUT_OF_MEMORY -4
#define DRIVER_ERROR -5
#define CC_SUCCESS 1
#define CC_TRB_ERROR 5
#define CC_STALL_ERROR 6
#define CC_SHORT_PACKET 13
#define CC_EVENT_RING_FULL_ERROR 21
#define CC_COMMAND_RING_STOPPED 24
#define CC_COMMAND_ABORTED 25
#define CC_STOPPED 26
#define CC_STOPPED_LENGTH_INVALID 27
enum {
TRB_NORMAL = 1,
TRB_SETUP_STAGE = 2, TRB_DATA_STAGE = 3, TRB_STATUS_STAGE = 4,
TRB_LINK = 6,
TRB_CMD_ENABLE_SLOT = 9, TRB_CMD_DISABLE_SLOT = 10, TRB_CMD_ADDRESS_DEV = 11,
TRB_CMD_CONFIGURE_EP = 12, TRB_CMD_EVAL_CTX = 13, TRB_CMD_RESET_EP = 14,
TRB_CMD_STOP_EP = 15, TRB_CMD_SET_TR_DQ = 16, TRB_CMD_NOOP = 23,
TRB_EV_TRANSFER = 32, TRB_EV_CMD_CMPL = 33, TRB_EV_PORTSC = 34, TRB_EV_HOST = 37,
};
enum { TRB_TRT_NO_DATA = 0, TRB_TRT_OUT_DATA = 2, TRB_TRT_IN_DATA = 3 };
enum { TRB_DIR_OUT = 0, TRB_DIR_IN = 1 };
#define TRB_PORT_FIELD ptr_low
#define TRB_PORT_START 24
#define TRB_PORT_LEN 8
#define TRB_TL_FIELD status /* TL - Transfer Length */
#define TRB_TL_START 0
#define TRB_TL_LEN 17
#define TRB_EVTL_FIELD status /* EVTL - (Event TRB) Transfer Length */
#define TRB_EVTL_START 0
#define TRB_EVTL_LEN 24
#define TRB_TDS_FIELD status /* TDS - TD Size */
#define TRB_TDS_START 17
#define TRB_TDS_LEN 5
#define TRB_CC_FIELD status /* CC - Completion Code */
#define TRB_CC_START 24
#define TRB_CC_LEN 8
#define TRB_C_FIELD control /* C - Cycle Bit */
#define TRB_C_START 0
#define TRB_C_LEN 1
#define TRB_TC_FIELD control /* TC - Toggle Cycle */
#define TRB_TC_START 1
#define TRB_TC_LEN 1
#define TRB_ISP_FIELD control /* ISP - Interrupt-on Short Packet */
#define TRB_ISP_START 2
#define TRB_ISP_LEN 1
#define TRB_CH_FIELD control /* CH - Chain Bit */
#define TRB_CH_START 4
#define TRB_CH_LEN 1
#define TRB_IOC_FIELD control /* IOC - Interrupt On Completion */
#define TRB_IOC_START 5
#define TRB_IOC_LEN 1
#define TRB_IDT_FIELD control /* IDT - Immediate Data */
#define TRB_IDT_START 6
#define TRB_IDT_LEN 1
#define TRB_DC_FIELD control /* DC - Deconfigure */
#define TRB_DC_START 9
#define TRB_DC_LEN 1
#define TRB_TT_FIELD control /* TT - TRB Type */
#define TRB_TT_START 10
#define TRB_TT_LEN 6
#define TRB_TRT_FIELD control /* TRT - Transfer Type */
#define TRB_TRT_START 16
#define TRB_TRT_LEN 2
#define TRB_DIR_FIELD control /* DIR - Direction */
#define TRB_DIR_START 16
#define TRB_DIR_LEN 1
#define TRB_EP_FIELD control /* EP - Endpoint ID */
#define TRB_EP_START 16
#define TRB_EP_LEN 5
#define TRB_ID_FIELD control /* ID - Slot ID */
#define TRB_ID_START 24
#define TRB_ID_LEN 8
#define TRB_MASK(tok) MASK(TRB_##tok##_START, TRB_##tok##_LEN)
#define TRB_GET(tok, trb) (((trb)->TRB_##tok##_FIELD & TRB_MASK(tok)) \
>> TRB_##tok##_START)
#define TRB_SET(tok, trb, to) (trb)->TRB_##tok##_FIELD = \
(((trb)->TRB_##tok##_FIELD & ~TRB_MASK(tok)) | \
(((to) << TRB_##tok##_START) & TRB_MASK(tok)))
#define TRB_DUMP(tok, trb) usb_debug(" "#tok"\t0x%04"PRIx32"\n", TRB_GET(tok, trb))
#define TRB_CYCLE (1 << 0)
typedef volatile struct trb {
u32 ptr_low;
u32 ptr_high;
u32 status;
u32 control;
} trb_t;
#define EVENT_RING_SIZE 64
typedef struct {
trb_t *ring;
trb_t *cur;
trb_t *last;
u8 ccs;
u8 adv;
} event_ring_t;
#define TRANSFER_RING_SIZE 32
typedef struct {
trb_t *ring;
trb_t *cur;
u8 pcs;
} __attribute__ ((packed)) transfer_ring_t;
#define COMMAND_RING_SIZE 4
typedef transfer_ring_t command_ring_t;
#define SC_ROUTE_FIELD f1 /* ROUTE - Route String */
#define SC_ROUTE_START 0
#define SC_ROUTE_LEN 20
#define SC_SPEED_FIELD f1
#define SC_SPEED_START 20
#define SC_SPEED_LEN 4
#define SC_MTT_FIELD f1 /* MTT - Multi Transaction Translator */
#define SC_MTT_START 25
#define SC_MTT_LEN 1
#define SC_HUB_FIELD f1 /* HUB - Is this a hub? */
#define SC_HUB_START 26
#define SC_HUB_LEN 1
#define SC_CTXENT_FIELD f1 /* CTXENT - Context Entries (number of following ep contexts) */
#define SC_CTXENT_START 27
#define SC_CTXENT_LEN 5
#define SC_RHPORT_FIELD f2 /* RHPORT - Root Hub Port Number */
#define SC_RHPORT_START 16
#define SC_RHPORT_LEN 8
#define SC_NPORTS_FIELD f2 /* NPORTS - Number of Ports */
#define SC_NPORTS_START 24
#define SC_NPORTS_LEN 8
#define SC_TTID_FIELD f3 /* TTID - TT Hub Slot ID */
#define SC_TTID_START 0
#define SC_TTID_LEN 8
#define SC_TTPORT_FIELD f3 /* TTPORT - TT Port Number */
#define SC_TTPORT_START 8
#define SC_TTPORT_LEN 8
#define SC_TTT_FIELD f3 /* TTT - TT Think Time */
#define SC_TTT_START 16
#define SC_TTT_LEN 2
#define SC_UADDR_FIELD f4 /* UADDR - USB Device Address */
#define SC_UADDR_START 0
#define SC_UADDR_LEN 8
#define SC_STATE_FIELD f4 /* STATE - Slot State */
#define SC_STATE_START 27
#define SC_STATE_LEN 8
#define SC_MASK(tok) MASK(SC_##tok##_START, SC_##tok##_LEN)
#define SC_GET(tok, sc) (((sc).SC_##tok##_FIELD & SC_MASK(tok)) \
>> SC_##tok##_START)
#define SC_SET(tok, sc, to) (sc).SC_##tok##_FIELD = \
(((sc).SC_##tok##_FIELD & ~SC_MASK(tok)) | \
(((to) << SC_##tok##_START) & SC_MASK(tok)))
#define SC_DUMP(tok, sc) usb_debug(" "#tok"\t0x%04"PRIx32"\n", SC_GET(tok, sc))
typedef struct slotctx {
u32 f1;
u32 f2;
u32 f3;
u32 f4;
u32 rsvd[4];
} slotctx_t;
#define EC_STATE_FIELD f1 /* STATE - Endpoint State */
#define EC_STATE_START 0
#define EC_STATE_LEN 3
#define EC_INTVAL_FIELD f1 /* INTVAL - Interval */
#define EC_INTVAL_START 16
#define EC_INTVAL_LEN 8
#define EC_CERR_FIELD f2 /* CERR - Error Count */
#define EC_CERR_START 1
#define EC_CERR_LEN 2
#define EC_TYPE_FIELD f2 /* TYPE - EP Type */
#define EC_TYPE_START 3
#define EC_TYPE_LEN 3
#define EC_MBS_FIELD f2 /* MBS - Max Burst Size */
#define EC_MBS_START 8
#define EC_MBS_LEN 8
#define EC_MPS_FIELD f2 /* MPS - Max Packet Size */
#define EC_MPS_START 16
#define EC_MPS_LEN 16
#define EC_DCS_FIELD tr_dq_low /* DCS - Dequeue Cycle State */
#define EC_DCS_START 0
#define EC_DCS_LEN 1
#define EC_AVRTRB_FIELD f5 /* AVRTRB - Average TRB Length */
#define EC_AVRTRB_START 0
#define EC_AVRTRB_LEN 16
#define EC_MXESIT_FIELD f5 /* MXESIT - Max ESIT Payload */
#define EC_MXESIT_START 16
#define EC_MXESIT_LEN 16
#define EC_MASK(tok) MASK(EC_##tok##_START, EC_##tok##_LEN)
#define EC_GET(tok, ec) (((ec).EC_##tok##_FIELD & EC_MASK(tok)) \
>> EC_##tok##_START)
#define EC_SET(tok, ec, to) (ec).EC_##tok##_FIELD = \
(((ec).EC_##tok##_FIELD & ~EC_MASK(tok)) | \
(((to) << EC_##tok##_START) & EC_MASK(tok)))
#define EC_DUMP(tok, ec) usb_debug(" "#tok"\t0x%04"PRIx32"\n", EC_GET(tok, ec))
enum { EP_ISOC_OUT = 1, EP_BULK_OUT = 2, EP_INTR_OUT = 3,
EP_CONTROL = 4, EP_ISOC_IN = 5, EP_BULK_IN = 6, EP_INTR_IN = 7 };
typedef struct epctx {
u32 f1;
u32 f2;
u32 tr_dq_low;
u32 tr_dq_high;
u32 f5;
u32 rsvd[3];
} epctx_t;
typedef union devctx {
struct {
slotctx_t slot;
epctx_t ep0;
epctx_t eps1_30[30];
};
epctx_t eps[32]; /* At index 0 it's actually the slotctx,
we have it like that so we can use
the ep_id directly as index. */
} devctx_t;
typedef struct inputctx {
struct {
u32 drop;
u32 add;
u32 reserved[6];
} control;
devctx_t dev;
} inputctx_t;
typedef struct intrq {
size_t size; /* Size of each transfer */
size_t count; /* The number of TRBs to fill at once */
trb_t *next; /* The next TRB expected to be processed by the controller */
trb_t *ready; /* The last TRB in the transfer ring processed by the controller */
endpoint_t *ep;
} intrq_t;
typedef struct devinfo {
volatile devctx_t devctx;
transfer_ring_t *transfer_rings[32];
intrq_t *interrupt_queues[32];
} devinfo_t;
#define DEVINFO_FROM_XHCI(xhci, slot_id) \
(((xhci)->dcbaa[slot_id]) \
? phys_to_virt((xhci)->dcbaa[slot_id] - offsetof(devinfo_t, devctx)) \
: NULL)
typedef struct erst_entry {
u32 seg_base_lo;
u32 seg_base_hi;
u32 seg_size;
u32 rsvd;
} erst_entry_t;
typedef struct xhci {
/* capreg is read-only, so no need for volatile,
and thus 32bit accesses can be assumed. */
struct capreg {
u8 caplength;
u8 res1;
union {
u16 hciversion;
struct {
u8 hciver_lo;
u8 hciver_hi;
} __attribute__ ((packed));
} __attribute__ ((packed));
union {
u32 hcsparams1;
struct {
unsigned long MaxSlots:7;
unsigned long MaxIntrs:11;
unsigned long:6;
unsigned long MaxPorts:8;
} __attribute__ ((packed));
} __attribute__ ((packed));
union {
u32 hcsparams2;
struct {
unsigned long IST:4;
unsigned long ERST_Max:4;
unsigned long:18;
unsigned long SPR:1;
unsigned long Max_Scratchpad_Bufs:5;
} __attribute__ ((packed));
} __attribute__ ((packed));
union {
u32 hcsparams3;
struct {
unsigned long u1latency:8;
unsigned long:8;
unsigned long u2latency:16;
} __attribute__ ((packed));
} __attribute__ ((packed));
union {
u32 hccparams;
struct {
unsigned long ac64:1;
unsigned long bnc:1;
unsigned long csz:1;
unsigned long ppc:1;
unsigned long pind:1;
unsigned long lhrc:1;
unsigned long ltc:1;
unsigned long nss:1;
unsigned long:4;
unsigned long MaxPSASize:4;
unsigned long xECP:16;
} __attribute__ ((packed));
} __attribute__ ((packed));
u32 dboff;
u32 rtsoff;
} __attribute__ ((packed)) *capreg;
/* opreg is R/W is most places, so volatile access is necessary.
volatile means that the compiler seeks byte writes if possible,
making bitfields unusable for MMIO register blocks. Yay C :-( */
volatile struct opreg {
u32 usbcmd;
#define USBCMD_RS 1<<0
#define USBCMD_HCRST 1<<1
#define USBCMD_INTE 1<<2
u32 usbsts;
#define USBSTS_HCH 1<<0
#define USBSTS_HSE 1<<2
#define USBSTS_EINT 1<<3
#define USBSTS_PCD 1<<4
#define USBSTS_CNR 1<<11
#define USBSTS_PRSRV_MASK ((1 << 1) | 0xffffe000)
u32 pagesize;
u8 res1[0x13-0x0c+1];
u32 dnctrl;
u32 crcr_lo;
u32 crcr_hi;
#define CRCR_RCS 1<<0
#define CRCR_CS 1<<1
#define CRCR_CA 1<<2
#define CRCR_CRR 1<<3
u8 res2[0x2f-0x20+1];
u32 dcbaap_lo;
u32 dcbaap_hi;
u32 config;
#define CONFIG_LP_MASK_MaxSlotsEn 0xff
u8 res3[0x3ff-0x3c+1];
struct {
u32 portsc;
#define PORTSC_CCS (1<<0)
#define PORTSC_PED (1<<1)
// BIT 2 rsvdZ
#define PORTSC_OCA (1<<3)
#define PORTSC_PR (1<<4)
#define PORTSC_PLS (1<<5)
#define PORTSC_PLS_MASK MASK(5, 4)
#define PORTSC_PP (1<<9)
#define PORTSC_PORT_SPEED_START 10
#define PORTSC_PORT_SPEED (1<<PORTSC_PORT_SPEED_START)
#define PORTSC_PORT_SPEED_MASK MASK(PORTSC_PORT_SPEED_START, 4)
#define PORTSC_PIC (1<<14)
#define PORTSC_PIC_MASK MASK(14, 2)
#define PORTSC_LWS (1<<16)
#define PORTSC_CSC (1<<17)
#define PORTSC_PEC (1<<18)
#define PORTSC_WRC (1<<19)
#define PORTSC_OCC (1<<20)
#define PORTSC_PRC (1<<21)
#define PORTSC_PLC (1<<22)
#define PORTSC_CEC (1<<23)
#define PORTSC_CAS (1<<24)
#define PORTSC_WCE (1<<25)
#define PORTSC_WDE (1<<26)
#define PORTSC_WOE (1<<27)
// BIT 29:28 rsvdZ
#define PORTSC_DR (1<<30)
#define PORTSC_WPR (1<<31)
#define PORTSC_RW_MASK (PORTSC_PR | PORTSC_PLS_MASK | PORTSC_PP | PORTSC_PIC_MASK | PORTSC_LWS | PORTSC_WCE | PORTSC_WDE | PORTSC_WOE)
u32 portpmsc;
u32 portli;
u32 res;
} __attribute__ ((packed)) prs[];
} __attribute__ ((packed)) *opreg;
/* R/W, volatile, MMIO -> no bitfields */
volatile struct hcrreg {
u32 mfindex;
u8 res1[0x20-0x4];
struct {
u32 iman;
u32 imod;
u32 erstsz;
u32 res;
u32 erstba_lo;
u32 erstba_hi;
u32 erdp_lo;
u32 erdp_hi;
} __attribute__ ((packed)) intrrs[]; // up to 1024, but maximum host specific, given in capreg->MaxIntrs
} __attribute__ ((packed)) *hcrreg;
/* R/W, volatile, MMIO -> no bitfields */
volatile u32 *dbreg;
/* R/W, volatile, Memory -> bitfields allowed */
u64 *dcbaa; /* pointers to sp_ptrs and output (device) contexts */
u64 *sp_ptrs; /* pointers to scratchpad buffers */
command_ring_t cr;
event_ring_t er;
volatile erst_entry_t *ev_ring_table;
usbdev_t *roothub;
u8 max_slots_en;
} xhci_t;
#define XHCI_INST(controller) ((xhci_t*)((controller)->instance))
void *xhci_align(const size_t min_align, const size_t size);
void xhci_init_cycle_ring(transfer_ring_t *, const size_t ring_size);
int xhci_set_address (hci_t *, int speed, int hubport, int hubaddr);
int xhci_finish_device_config(usbdev_t *);
void xhci_destroy_dev(hci_t *, int slot_id);
void xhci_reset_event_ring(event_ring_t *);
void xhci_advance_event_ring(xhci_t *);
void xhci_update_event_dq(xhci_t *);
void xhci_handle_events(xhci_t *);
int xhci_wait_for_command_aborted(xhci_t *, const trb_t *);
int xhci_wait_for_command_done(xhci_t *, const trb_t *, int clear_event);
int xhci_wait_for_transfer(xhci_t *, const int slot_id, const int ep_id);
void xhci_clear_trb(trb_t *, int pcs);
trb_t *xhci_next_command_trb(xhci_t *);
void xhci_post_command(xhci_t *);
int xhci_cmd_enable_slot(xhci_t *, int *slot_id);
int xhci_cmd_disable_slot(xhci_t *, int slot_id);
int xhci_cmd_address_device(xhci_t *, int slot_id, inputctx_t *);
int xhci_cmd_configure_endpoint(xhci_t *, int slot_id, int config_id, inputctx_t *);
int xhci_cmd_evaluate_context(xhci_t *, int slot_id, inputctx_t *);
int xhci_cmd_reset_endpoint(xhci_t *, int slot_id, int ep);
int xhci_cmd_stop_endpoint(xhci_t *, int slot_id, int ep);
int xhci_cmd_set_tr_dq(xhci_t *, int slot_id, int ep, trb_t *, int dcs);
static inline int xhci_ep_id(const endpoint_t *const ep) {
return ((ep->endpoint & 0x7f) << 1) + (ep->direction == IN);
}
#ifdef XHCI_DUMPS
void xhci_dump_slotctx(const slotctx_t *);
void xhci_dump_epctx(const epctx_t *);
void xhci_dump_devctx(const devctx_t *, const u32 ctx_mask);
void xhci_dump_inputctx(const inputctx_t *);
void xhci_dump_transfer_trb(const trb_t *);
void xhci_dump_transfer_trbs(const trb_t *first, const trb_t *last);
#else
#define xhci_dump_slotctx(args...) do {} while(0)
#define xhci_dump_epctx(args...) do {} while(0)
#define xhci_dump_devctx(args...) do {} while(0)
#define xhci_dump_inputctx(args...) do {} while(0)
#define xhci_dump_transfer_trb(args...) do {} while(0)
#define xhci_dump_transfer_trbs(args...) do {} while(0)
#endif
#endif