freebsd-skq/sys/dev/hfa/fore_aali.h
phk c3dd1fa899 Add new files for HARP3
Host ATM Research Platform (HARP), Network Computing Services, Inc.
This software was developed with the support of the Defense Advanced
Research Projects Agency (DARPA).
1998-09-15 08:23:17 +00:00

605 lines
18 KiB
C

/*
*
* ===================================
* HARP | Host ATM Research Platform
* ===================================
*
*
* This Host ATM Research Platform ("HARP") file (the "Software") is
* made available by Network Computing Services, Inc. ("NetworkCS")
* "AS IS". NetworkCS does not provide maintenance, improvements or
* support of any kind.
*
* NETWORKCS MAKES NO WARRANTIES OR REPRESENTATIONS, EXPRESS OR IMPLIED,
* INCLUDING, BUT NOT LIMITED TO, IMPLIED WARRANTIES OF MERCHANTABILITY
* AND FITNESS FOR A PARTICULAR PURPOSE, AS TO ANY ELEMENT OF THE
* SOFTWARE OR ANY SUPPORT PROVIDED IN CONNECTION WITH THIS SOFTWARE.
* In no event shall NetworkCS be responsible for any damages, including
* but not limited to consequential damages, arising from or relating to
* any use of the Software or related support.
*
* Copyright 1994-1998 Network Computing Services, Inc.
*
* Copies of this Software may be made, however, the above copyright
* notice must be reproduced on all copies.
*
* @(#) $Id: fore_aali.h,v 1.5 1997/05/09 00:42:25 mks Exp $
*
*/
/*
* FORE Systems 200-Series Adapter Support
* ---------------------------------------
*
* ATM Adaptation Layer Interface (AALI) definitions
*
*/
#ifndef _FORE_AALI_H
#define _FORE_AALI_H
/*
* This file contains the definitions required by the FORE ATM Adaptation
* Layer Interface (AALI) specification.
*/
/*
* Addressing/Pointer definitions
*
* The CP memory only supports 32-bit word accesses (read and write) - thus,
* all memory must be defined and accessed as 32-bit words. Also, since the
* data transfers are word-sized, we must take care of byte-swapping issues
* from/to little-endian hosts (the CP is an i960 processor, ie big-endian).
*
* All pointers to CP memory areas are actually offsets from the start of
* the adapter RAM address space.
*
* All CP-resident data structures are declared volatile.
*/
typedef void * H_addr; /* Host-resident address */
typedef unsigned long H_dma; /* Host-resident DMA address */
typedef unsigned long CP_word; /* CP-resident word */
typedef unsigned long CP_addr; /* CP-resident CP memory offset */
typedef unsigned long CP_dma; /* CP-resident DMA address */
/*
* Structure defining the CP's shared memory interface to the mon960 program
*/
struct mon960 {
CP_word mon_xmitmon; /* Uart - host to mon960 (see below) */
CP_word mon_xmithost; /* Uart - mon960 to host (see below) */
CP_word mon_bstat; /* Boot status word (see below) */
CP_addr mon_appl; /* Pointer to application memory area */
CP_word mon_ver; /* Mon960 firmware version */
};
typedef volatile struct mon960 Mon960;
/*
* Pseudo-UART usage
*/
#define UART_READY 0x00000000 /* UART is ready for more data */
#define UART_VALID 0x01000000 /* UART character is valid */
#define UART_DATAMASK 0x000000ff /* UART character data mask */
/*
* Boot Status Word
*/
#define BOOT_COLDSTART 0xc01dc01d /* CP is performing cold start */
#define BOOT_MONREADY 0x02201958 /* Monitor is waiting for commands */
#define BOOT_FAILTEST 0xadbadbad /* Monitor failed self-test */
#define BOOT_RUNNING 0xce11feed /* Microcode downloaded and running */
#define BOOT_LOOPS 20 /* Loops to wait for CP to boot */
#define BOOT_DELAY 100000 /* Delay (us) for each boot loop */
/*
* Supported AALs
*/
enum fore_aal {
FORE_AAL_0 = 0, /* Cell Service */
FORE_AAL_4 = 4, /* AAL 3/4 */
FORE_AAL_5 = 5 /* AAL 5 */
};
typedef enum fore_aal Fore_aal;
/*
* Buffer strategy definition
*/
struct buf_strategy {
CP_word bfs_quelen; /* Buffer supply queue entries */
CP_word bfs_bufsize; /* Buffer size */
CP_word bfs_cppool; /* Buffers in CP-resident pool */
CP_word bfs_entsize; /* Buffers in each supply queue entry */
};
typedef volatile struct buf_strategy Buf_strategy;
/*
* Buffer strategy id
*/
#define BUF_STRAT_1 0 /* Buffer strategy one */
#define BUF_STRAT_2 1 /* Buffer strategy two */
#ifdef ATM_KERNEL
/*
* Common Queue Element
*
* Used for Transmit, Receive and Buffer Supply Queues
*/
struct com_queue {
CP_dma cq_descr; /* Pointer to element descriptor */
CP_dma cq_status; /* Pointer to element status word */
};
typedef volatile struct com_queue Com_queue;
/*
* Queue element status word
*/
typedef volatile unsigned long Q_status;
#define QSTAT_PENDING 0x01 /* Operation is pending */
#define QSTAT_COMPLETED 0x02 /* Operation successfully completed */
#define QSTAT_FREE 0x04 /* Queue element is free/unused */
#define QSTAT_ERROR 0x08 /* Operation encountered an error */
#define QSTAT_ALIGN 4
/*
* PDU Transmit Queue
*/
/*
* PDU Transmit Queue Element
*/
typedef volatile struct com_queue Xmit_queue;
/*
* PDU Transmit buffer segment descriptor
*/
struct xmit_seg_descr {
H_dma xsd_buffer; /* Buffer's DMA address */
u_int xsd_len; /* Data length in buffer */
};
typedef struct xmit_seg_descr Xmit_seg_descr;
#define XMIT_SEG_ALIGN 4
/*
* PDU Transmit descriptor header
*/
struct xmit_descr_hdr {
u_long xdh_cell_hdr; /* Cell header (minus HEC) */
u_long xdh_spec; /* Transmit specification (see below) */
u_long xdh_rate; /* Rate control (data/idle cell ratio)*/
u_long xdh_pad; /* Pad to quad-word boundary */
};
typedef struct xmit_descr_hdr Xmit_descr_hdr;
#define XMIT_BLK_BITS 5 /* Bits to encode block size */
#define XMIT_MAX_BLK_BITS 4 /* Max bits we can use */
#define XMIT_BLK_SIZE (1 << XMIT_BLK_BITS)
#define XMIT_SEGS_TO_BLKS(nseg) \
((((nseg) * sizeof(Xmit_seg_descr)) \
+ sizeof(Xmit_descr_hdr) + (XMIT_BLK_SIZE - 1)) \
>> XMIT_BLK_BITS)
#define XMIT_MAX_BLKS ((1 << XMIT_MAX_BLK_BITS) - 1)
#define XMIT_HDR_SEGS ((XMIT_BLK_SIZE - sizeof(Xmit_descr_hdr)) \
/ sizeof(Xmit_seg_descr))
#define XMIT_BLK_SEGS (XMIT_BLK_SIZE / sizeof(Xmit_seg_descr))
#define XMIT_EXTRA_SEGS ((XMIT_MAX_BLKS - 1) * XMIT_BLK_SEGS)
#define XMIT_MAX_SEGS (XMIT_EXTRA_SEGS + XMIT_HDR_SEGS)
/*
* PDU Transmit descriptor
*/
struct xmit_descr {
Xmit_descr_hdr xd_hdr; /* Descriptor header */
Xmit_seg_descr xd_seg[XMIT_MAX_SEGS]; /* PDU segments */
};
typedef struct xmit_descr Xmit_descr;
#define xd_cell_hdr xd_hdr.xdh_cell_hdr
#define xd_spec xd_hdr.xdh_spec
#define xd_rate xd_hdr.xdh_rate
/*
* Transmit specification
*
* Bits 0-15 - Total PDU length
* Bits 16-23 - Number of transmit segments
* Bits 24-27 - AAL type
* Bits 28-31 - Interrupt flag
*/
#define XDS_SET_SPEC(i,a,n,l) (((i) << 28) | ((a) << 24) | ((n) << 16) | (l))
#define XDS_GET_LEN(s) ((s) & 0xffff)
#define XDS_GET_SEGS(s) (((s) >> 16) & 0xff)
#define XDS_GET_AAL(s) (((s) >> 24) & 0xf)
#define XDS_GET_INTR(s) (((s) >> 28) & 0xf)
#define XMIT_MAX_PDULEN 65535
#define XMIT_DESCR_ALIGN 32
/*
* PDU Receive Queue
*/
/*
* PDU Receive Queue Element
*/
typedef volatile struct com_queue Recv_queue;
/*
* Receive PDU buffer segment description
*/
struct recv_seg_descr {
H_addr rsd_handle; /* Buffer handle (from supply) */
u_int rsd_len; /* Data length in buffer */
};
typedef struct recv_seg_descr Recv_seg_descr;
/*
* PDU Receive descriptor header
*/
struct recv_descr_hdr {
u_long rdh_cell_hdr; /* Cell header (minus HEC) */
u_long rdh_nsegs; /* Number of receive segments */
};
typedef struct recv_descr_hdr Recv_descr_hdr;
#define RECV_BLK_SIZE 32
#define RECV_HDR_SEGS ((RECV_BLK_SIZE - sizeof(Recv_descr_hdr)) \
/ sizeof(Recv_seg_descr))
#define RECV_BLK_SEGS (RECV_BLK_SIZE / sizeof(Recv_seg_descr))
#define RECV_MAX_LG_SEGS ((FORE_IFF_MTU - BUF1_SM_SIZE \
+ (BUF1_LG_SIZE - 1)) / BUF1_LG_SIZE)
#define RECV_EXTRA_BLKS (((RECV_MAX_LG_SEGS + 1 - RECV_HDR_SEGS) \
+ (RECV_BLK_SEGS - 1)) / RECV_BLK_SEGS)
#define RECV_EXTRA_SEGS (RECV_EXTRA_BLKS * RECV_BLK_SEGS)
#define RECV_MAX_SEGS (RECV_EXTRA_SEGS + RECV_HDR_SEGS)
/*
* PDU Receive descriptor
*/
struct recv_descr {
Recv_descr_hdr rd_hdr; /* Descriptor header */
Recv_seg_descr rd_seg[RECV_MAX_SEGS]; /* PDU segments */
};
typedef struct recv_descr Recv_descr;
#define rd_cell_hdr rd_hdr.rdh_cell_hdr
#define rd_nsegs rd_hdr.rdh_nsegs
#define RECV_DESCR_ALIGN 32
/*
* Buffer Supply Queue
*/
/*
* Buffer Supply Queue Element
*/
typedef volatile struct com_queue Buf_queue;
/*
* Buffer supply descriptor for supplying receive buffers
*/
struct buf_descr {
H_addr bsd_handle; /* Host-specific buffer handle */
H_dma bsd_buffer; /* Buffer DMA address */
};
typedef struct buf_descr Buf_descr;
#define BUF_DESCR_ALIGN 32
/*
* Command Queue
*/
/*
* Command Codes
*/
typedef volatile unsigned long Cmd_code;
#define CMD_INIT 0x01 /* Initialize microcode */
#define CMD_ACT_VCCIN 0x02 /* Activate incoming VCC */
#define CMD_ACT_VCCOUT 0x03 /* Activate outgoing VCC */
#define CMD_DACT_VCCIN 0x04 /* Deactivate incoming VCC */
#define CMD_DACT_VCCOUT 0x05 /* Deactivate outgoing VCC */
#define CMD_GET_STATS 0x06 /* Get adapter statistics */
#define CMD_SET_OC3_REG 0x07 /* Set SUNI OC3 registers */
#define CMD_GET_OC3_REG 0x08 /* Get SUNI OC3 registers */
#define CMD_GET_PROM 0x09 /* Get PROM data */
#define CMD_INTR_REQ 0x80 /* Request host interrupt */
#endif /* ATM_KERNEL */
/*
* Structure defining the parameters for the Initialize command
*/
struct init_parms {
CP_word init_cmd; /* Command code */
CP_word init_status; /* Completion status */
CP_word init_indisc; /* Not used */
CP_word init_numvcc; /* Number of VCC's supported */
CP_word init_cmd_elem; /* # of command queue elements */
CP_word init_xmit_elem; /* # of transmit queue elements */
CP_word init_recv_elem; /* # of receive queue elements */
CP_word init_recv_ext; /* # of extra receive descr SEGMENTS */
CP_word init_xmit_ext; /* # of extra transmit descr SEGMENTS */
CP_word init_cls_vcc; /* Not used */
CP_word init_pad[2]; /* Pad to quad-word boundary */
Buf_strategy init_buf1s; /* Buffer strategy - 1 small */
Buf_strategy init_buf1l; /* Buffer strategy - 1 large */
Buf_strategy init_buf2s; /* Buffer strategy - 2 small */
Buf_strategy init_buf2l; /* Buffer strategy - 2 large */
};
typedef volatile struct init_parms Init_parms;
#ifdef ATM_KERNEL
/*
* Structure defining the parameters for the Activate commands
*/
struct activate_parms {
CP_word act_spec; /* Command specification (see below) */
CP_word act_vccid; /* VCC id (VPI=0,VCI=id) */
CP_word act_batch; /* # cells in batch (AAL=NULL) */
CP_word act_pad; /* Pad to quad-word boundary */
};
typedef volatile struct activate_parms Activate_parms;
/*
* Activate command specification
*
* Bits 0-7 - command code
* Bits 8-15 - AAL type
* Bits 16-23 - buffer strategy
* Bits 24-31 - reserved
*/
#define ACT_SET_SPEC(b,a,c) (((b) << 16) | ((a) << 8) | (c))
#define ACT_GET_CMD(s) ((s) & 0xff)
#define ACT_GET_AAL(s) (((s) >> 8) & 0xff)
#define ACT_GET_STRAT(s) (((s) >> 16) & 0xff)
/*
* Structure defining the parameters for the Deactivate commands
*/
struct dactivate_parms {
CP_word dact_cmd; /* Command code */
CP_word dact_vccid; /* VCC id (VPI=0,VCI=id) */
CP_word dact_pad[2]; /* Pad to quad-word boundary */
};
typedef volatile struct dactivate_parms Dactivate_parms;
/*
* Structure defining the parameters for the Get Statistics command
*/
struct stats_parms {
CP_word stats_cmd; /* Command code */
CP_dma stats_buffer; /* DMA address of host stats buffer */
CP_word stats_pad[2]; /* Pad to quad-word boundary */
};
typedef volatile struct stats_parms Stats_parms;
/*
* Structure defining the parameters for the SUNI OC3 commands
*/
struct suni_parms {
CP_word suni_spec; /* Command specification (see below) */
CP_dma suni_buffer; /* DMA address of host SUNI buffer */
CP_word suni_pad[2]; /* Pad to quad-word boundary */
};
typedef volatile struct suni_parms Suni_parms;
/*
* SUNI OC3 command specification
*
* Bits 0-7 - command code
* Bits 8-15 - SUNI register number
* Bits 16-23 - Value(s) to set in register
* Bits 24-31 - Mask selecting value bits
*/
#define SUNI_SET_SPEC(m,v,r,c) (((m) << 24) | ((v) << 16) | ((r) << 8) | (c))
#define SUNI_GET_CMD(s) ((s) & 0xff)
#define SUNI_GET_REG(s) (((s) >> 8) & 0xff)
#define SUNI_GET_VALUE(s) (((s) >> 16) & 0xff)
#define SUNI_GET_MASK(s) (((s) >> 24) & 0xff)
/*
* Structure defining the parameters for the Get Prom command
*/
struct prom_parms {
CP_word prom_cmd; /* Command code */
CP_dma prom_buffer; /* DMA address of host prom buffer */
CP_word prom_pad[2]; /* Pad to quad-word boundary */
};
typedef volatile struct prom_parms Prom_parms;
/*
* Command Queue Element
*/
struct cmd_queue {
union { /* Command-specific parameters */
Activate_parms cmdqu_act;
Dactivate_parms cmdqu_dact;
Stats_parms cmdqu_stats;
Suni_parms cmdqu_suni;
Prom_parms cmdqu_prom;
} cmdq_u;
CP_dma cmdq_status; /* Pointer to element status word */
CP_word cmdq_pad[3]; /* Pad to quad-word boundary */
};
#define cmdq_act cmdq_u.cmdqu_act
#define cmdq_dact cmdq_u.cmdqu_dact
#define cmdq_stats cmdq_u.cmdqu_stats
#define cmdq_suni cmdq_u.cmdqu_suni
#define cmdq_prom cmdq_u.cmdqu_prom
typedef volatile struct cmd_queue Cmd_queue;
#endif /* ATM_KERNEL */
/*
* Structure defining the CP's shared memory interface to the
* AALI firmware program (downloaded microcode)
*/
struct aali {
CP_addr aali_cmd_q; /* Pointer to command queue */
CP_addr aali_xmit_q; /* Pointer to transmit queue */
CP_addr aali_recv_q; /* Pointer to receive queue */
CP_addr aali_buf1s_q; /* Pointer to strategy-1 small queue */
CP_addr aali_buf1l_q; /* Pointer to strategy-1 large queue */
CP_addr aali_buf2s_q; /* Pointer to strategy-2 small queue */
CP_addr aali_buf2l_q; /* Pointer to strategy-2 large queue */
CP_word aali_intr_ena; /* Enables interrupts if non-zero */
CP_word aali_intr_sent; /* Interrupt issued if non-zero */
CP_addr aali_heap; /* Pointer to application heap */
CP_word aali_heaplen; /* Length of application heap */
CP_word aali_hostlog; /* FORE internal use */
CP_word aali_heartbeat; /* Monitor microcode health */
CP_word aali_ucode_ver; /* Microcode firmware version */
CP_word aali_mon_ver; /* Mon960 version */
CP_word aali_xmit_tput; /* FORE internal use */
/* This must be on a quad-word boundary */
Init_parms aali_init; /* Initialize command parameters */
};
typedef volatile struct aali Aali;
/*
* CP maintained statistics - DMA'd to host with CMD_GET_STATS command
*/
struct stats_taxi {
u_long taxi_bad_crc; /* Bad header CRC errors */
u_long taxi_framing; /* Framing errors */
u_long taxi_pad[2]; /* Pad to quad-word boundary */
};
typedef struct stats_taxi Stats_taxi;
struct stats_oc3 {
u_long oc3_sect_bip8; /* Section 8-bit intrlv parity errors */
u_long oc3_path_bip8; /* Path 8-bit intrlv parity errors */
u_long oc3_line_bip24; /* Line 24-bit intrlv parity errors */
u_long oc3_line_febe; /* Line far-end block errors */
u_long oc3_path_febe; /* Path far-end block errors */
u_long oc3_hec_corr; /* Correctible HEC errors */
u_long oc3_hec_uncorr; /* Uncorrectible HEC errors */
u_long oc3_pad; /* Pad to quad-word boundary */
};
typedef struct stats_oc3 Stats_oc3;
struct stats_atm {
u_long atm_xmit; /* Cells transmitted */
u_long atm_rcvd; /* Cells received */
u_long atm_vpi_range; /* Cell drops - VPI out of range */
u_long atm_vpi_noconn; /* Cell drops - no connect for VPI */
u_long atm_vci_range; /* Cell drops - VCI out of range */
u_long atm_vci_noconn; /* Cell drops - no connect for VCI */
u_long atm_pad[2]; /* Pad to quad-word boundary */
};
typedef struct stats_atm Stats_atm;
struct stats_aal0 {
u_long aal0_xmit; /* Cells transmitted */
u_long aal0_rcvd; /* Cells received */
u_long aal0_drops; /* Cell drops */
u_long aal0_pad; /* Pad to quad-word boundary */
};
typedef struct stats_aal0 Stats_aal0;
struct stats_aal4 {
u_long aal4_xmit; /* Cells transmitted */
u_long aal4_rcvd; /* Cells received */
u_long aal4_crc; /* Cells with payload CRC errors */
u_long aal4_sar_cs; /* Cells with SAR/CS errors */
u_long aal4_drops; /* Cell drops */
u_long aal4_pdu_xmit; /* CS PDUs transmitted */
u_long aal4_pdu_rcvd; /* CS PDUs received */
u_long aal4_pdu_errs; /* CS layer protocol errors */
u_long aal4_pdu_drops; /* CS PDUs dropped */
u_long aal4_pad[3]; /* Pad to quad-word boundary */
};
typedef struct stats_aal4 Stats_aal4;
struct stats_aal5 {
u_long aal5_xmit; /* Cells transmitted */
u_long aal5_rcvd; /* Cells received */
u_long aal5_crc_len; /* Cells with CRC/length errors */
u_long aal5_drops; /* Cell drops */
u_long aal5_pdu_xmit; /* CS PDUs transmitted */
u_long aal5_pdu_rcvd; /* CS PDUs received */
u_long aal5_pdu_crc; /* CS PDUs with CRC errors */
u_long aal5_pdu_errs; /* CS layer protocol errors */
u_long aal5_pdu_drops; /* CS PDUs dropped */
u_long aal5_pad[3]; /* Pad to quad-word boundary */
};
typedef struct stats_aal5 Stats_aal5;
struct stats_misc {
u_long buf1_sm_fail; /* Alloc fail: buffer strat 1 small */
u_long buf1_lg_fail; /* Alloc fail: buffer strat 1 large */
u_long buf2_sm_fail; /* Alloc fail: buffer strat 2 small */
u_long buf2_lg_fail; /* Alloc fail: buffer strat 2 large */
u_long rcvd_pdu_fail; /* Received PDU allocation failure */
u_long carrier_status; /* Carrier status */
u_long misc_pad[2]; /* Pad to quad-word boundary */
};
typedef struct stats_misc Stats_misc;
struct fore_cp_stats {
Stats_taxi st_cp_taxi; /* TAXI layer statistics */
Stats_oc3 st_cp_oc3; /* OC3 layer statistics */
Stats_atm st_cp_atm; /* ATM layer statistics */
Stats_aal0 st_cp_aal0; /* AAL0 layer statistics */
Stats_aal4 st_cp_aal4; /* AAL3/4 layer statistics */
Stats_aal5 st_cp_aal5; /* AAL5 layer statistics */
Stats_misc st_cp_misc; /* Miscellaneous statistics */
};
typedef struct fore_cp_stats Fore_cp_stats;
#define FORE_STATS_ALIGN 32
/*
* CP PROM data - DMA'd to host with CMD_GET_PROM command
*/
struct fore_prom {
u_long pr_hwver; /* Hardware version number */
u_long pr_serno; /* Serial number */
u_char pr_mac[8]; /* MAC address */
};
typedef struct fore_prom Fore_prom;
#define FORE_PROM_ALIGN 32
#endif /* _FORE_AALI_H */