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/*
Madge Ambassador ATM Adapter driver .
Copyright ( C ) 1995 - 1999 Madge Networks Ltd .
This program is free software ; you can redistribute it and / or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation ; either version 2 of the License , or
( at your option ) any later version .
This program 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 General Public License for more details .
You should have received a copy of the GNU General Public License
along with this program ; if not , write to the Free Software
Foundation , Inc . , 59 Temple Place , Suite 330 , Boston , MA 02111 - 1307 USA
The GNU GPL is contained in / usr / doc / copyright / GPL on a Debian
system and in the file COPYING in the Linux kernel source .
*/
# ifndef AMBASSADOR_H
# define AMBASSADOR_H
# ifdef CONFIG_ATM_AMBASSADOR_DEBUG
# define DEBUG_AMBASSADOR
# endif
# define DEV_LABEL "amb"
# ifndef PCI_VENDOR_ID_MADGE
# define PCI_VENDOR_ID_MADGE 0x10B6
# endif
# ifndef PCI_VENDOR_ID_MADGE_AMBASSADOR
# define PCI_DEVICE_ID_MADGE_AMBASSADOR 0x1001
# endif
# ifndef PCI_VENDOR_ID_MADGE_AMBASSADOR_BAD
# define PCI_DEVICE_ID_MADGE_AMBASSADOR_BAD 0x1002
# endif
// diagnostic output
# define PRINTK(severity,format,args...) \
printk ( severity DEV_LABEL " : " format " \n " , # # args )
# ifdef DEBUG_AMBASSADOR
# define DBG_ERR 0x0001
# define DBG_WARN 0x0002
# define DBG_INFO 0x0004
# define DBG_INIT 0x0008
# define DBG_LOAD 0x0010
# define DBG_VCC 0x0020
# define DBG_QOS 0x0040
# define DBG_CMD 0x0080
# define DBG_TX 0x0100
# define DBG_RX 0x0200
# define DBG_SKB 0x0400
# define DBG_POOL 0x0800
# define DBG_IRQ 0x1000
# define DBG_FLOW 0x2000
# define DBG_REGS 0x4000
# define DBG_DATA 0x8000
# define DBG_MASK 0xffff
/* the ## prevents the annoying double expansion of the macro arguments */
/* KERN_INFO is used since KERN_DEBUG often does not make it to the console */
# define PRINTDB(bits,format,args...) \
( ( debug & ( bits ) ) ? printk ( KERN_INFO DEV_LABEL " : " format , # # args ) : 1 )
# define PRINTDM(bits,format,args...) \
( ( debug & ( bits ) ) ? printk ( format , # # args ) : 1 )
# define PRINTDE(bits,format,args...) \
( ( debug & ( bits ) ) ? printk ( format " \n " , # # args ) : 1 )
# define PRINTD(bits,format,args...) \
( ( debug & ( bits ) ) ? printk ( KERN_INFO DEV_LABEL " : " format " \n " , # # args ) : 1 )
# else
# define PRINTD(bits,format,args...)
# define PRINTDB(bits,format,args...)
# define PRINTDM(bits,format,args...)
# define PRINTDE(bits,format,args...)
# endif
# define PRINTDD(bits,format,args...)
# define PRINTDDB(sec,fmt,args...)
# define PRINTDDM(sec,fmt,args...)
# define PRINTDDE(sec,fmt,args...)
// tunable values (?)
/* MUST be powers of two -- why ? */
# define COM_Q_ENTRIES 8
# define TX_Q_ENTRIES 32
# define RX_Q_ENTRIES 64
// fixed values
// guessing
# define AMB_EXTENT 0x80
// Minimum allowed size for an Ambassador queue
# define MIN_QUEUE_SIZE 2
// Ambassador microcode allows 1 to 4 pools, we use 4 (simpler)
# define NUM_RX_POOLS 4
// minimum RX buffers required to cope with replenishing delay
# define MIN_RX_BUFFERS 1
// minimum PCI latency we will tolerate (32 IS TOO SMALL)
# define MIN_PCI_LATENCY 64 // 255
// VCs supported by card (VPI always 0)
# define NUM_VPI_BITS 0
# define NUM_VCI_BITS 10
# define NUM_VCS 1024
/* The status field bits defined so far. */
# define RX_ERR 0x8000 // always present if there is an error (hmm)
# define CRC_ERR 0x4000 // AAL5 CRC error
# define LEN_ERR 0x2000 // overlength frame
# define ABORT_ERR 0x1000 // zero length field in received frame
# define UNUSED_ERR 0x0800 // buffer returned unused
// Adaptor commands
# define SRB_OPEN_VC 0
/* par_0: dwordswap(VC_number) */
/* par_1: dwordswap(flags<<16) or wordswap(flags)*/
/* flags: */
/* LANE: 0x0004 */
/* NOT_UBR: 0x0008 */
/* ABR: 0x0010 */
/* RxPool0: 0x0000 */
/* RxPool1: 0x0020 */
/* RxPool2: 0x0040 */
/* RxPool3: 0x0060 */
/* par_2: dwordswap(fp_rate<<16) or wordswap(fp_rate) */
# define SRB_CLOSE_VC 1
/* par_0: dwordswap(VC_number) */
# define SRB_GET_BIA 2
/* returns */
/* par_0: dwordswap(half BIA) */
/* par_1: dwordswap(half BIA) */
# define SRB_GET_SUNI_STATS 3
/* par_0: dwordswap(physical_host_address) */
# define SRB_SET_BITS_8 4
# define SRB_SET_BITS_16 5
# define SRB_SET_BITS_32 6
# define SRB_CLEAR_BITS_8 7
# define SRB_CLEAR_BITS_16 8
# define SRB_CLEAR_BITS_32 9
/* par_0: dwordswap(ATMizer address) */
/* par_1: dwordswap(mask) */
# define SRB_SET_8 10
# define SRB_SET_16 11
# define SRB_SET_32 12
/* par_0: dwordswap(ATMizer address) */
/* par_1: dwordswap(data) */
# define SRB_GET_32 13
/* par_0: dwordswap(ATMizer address) */
/* returns */
/* par_1: dwordswap(ATMizer data) */
# define SRB_GET_VERSION 14
/* returns */
/* par_0: dwordswap(Major Version) */
/* par_1: dwordswap(Minor Version) */
# define SRB_FLUSH_BUFFER_Q 15
/* Only flags to define which buffer pool; all others must be zero */
/* par_0: dwordswap(flags<<16) or wordswap(flags)*/
# define SRB_GET_DMA_SPEEDS 16
/* returns */
/* par_0: dwordswap(Read speed (bytes/sec)) */
/* par_1: dwordswap(Write speed (bytes/sec)) */
# define SRB_MODIFY_VC_RATE 17
/* par_0: dwordswap(VC_number) */
/* par_1: dwordswap(fp_rate<<16) or wordswap(fp_rate) */
# define SRB_MODIFY_VC_FLAGS 18
/* par_0: dwordswap(VC_number) */
/* par_1: dwordswap(flags<<16) or wordswap(flags)*/
/* flags: */
/* LANE: 0x0004 */
/* NOT_UBR: 0x0008 */
/* ABR: 0x0010 */
/* RxPool0: 0x0000 */
/* RxPool1: 0x0020 */
/* RxPool2: 0x0040 */
/* RxPool3: 0x0060 */
# define SRB_RATE_SHIFT 16
# define SRB_POOL_SHIFT (SRB_FLAGS_SHIFT+5)
# define SRB_FLAGS_SHIFT 16
# define SRB_STOP_TASKING 19
# define SRB_START_TASKING 20
# define SRB_SHUT_DOWN 21
# define MAX_SRB 21
# define SRB_COMPLETE 0xffffffff
# define TX_FRAME 0x80000000
// number of types of SRB MUST be a power of two -- why?
# define NUM_OF_SRB 32
// number of bits of period info for rate
# define MAX_RATE_BITS 6
# define TX_UBR 0x0000
# define TX_UBR_CAPPED 0x0008
# define TX_ABR 0x0018
# define TX_FRAME_NOTCAP 0x0000
# define TX_FRAME_CAPPED 0x8000
# define FP_155_RATE 0x24b1
# define FP_25_RATE 0x1f9d
/* #define VERSION_NUMBER 0x01000000 // initial release */
/* #define VERSION_NUMBER 0x01010000 // fixed startup probs PLX MB0 not cleared */
/* #define VERSION_NUMBER 0x01020000 // changed SUNI reset timings; allowed r/w onchip */
/* #define VERSION_NUMBER 0x01030000 // clear local doorbell int reg on reset */
/* #define VERSION_NUMBER 0x01040000 // PLX bug work around version PLUS */
/* remove race conditions on basic interface */
/* indicate to the host that diagnostics */
/* have finished; if failed, how and what */
/* failed */
/* fix host memory test to fix PLX bug */
/* allow flash upgrade and BIA upgrade directly */
/* */
# define VERSION_NUMBER 0x01050025 /* Jason's first hacked version. */
/* Change in download algorithm */
# define DMA_VALID 0xb728e149 /* completely random */
# define FLASH_BASE 0xa0c00000
# define FLASH_SIZE 0x00020000 /* 128K */
# define BIA_BASE (FLASH_BASE+0x0001c000) /* Flash Sector 7 */
# define BIA_ADDRESS ((void *)0xa0c1c000)
# define PLX_BASE 0xe0000000
typedef enum {
host_memory_test = 1 ,
read_adapter_memory ,
write_adapter_memory ,
adapter_start ,
get_version_number ,
interrupt_host ,
flash_erase_sector ,
adap_download_block = 0x20 ,
adap_erase_flash ,
adap_run_in_iram ,
adap_end_download
} loader_command ;
# define BAD_COMMAND (-1)
# define COMMAND_IN_PROGRESS 1
# define COMMAND_PASSED_TEST 2
# define COMMAND_FAILED_TEST 3
# define COMMAND_READ_DATA_OK 4
# define COMMAND_READ_BAD_ADDRESS 5
# define COMMAND_WRITE_DATA_OK 6
# define COMMAND_WRITE_BAD_ADDRESS 7
# define COMMAND_WRITE_FLASH_FAILURE 8
# define COMMAND_COMPLETE 9
# define COMMAND_FLASH_ERASE_FAILURE 10
# define COMMAND_WRITE_BAD_DATA 11
/* bit fields for mailbox[0] return values */
# define GPINT_TST_FAILURE 0x00000001
# define SUNI_DATA_PATTERN_FAILURE 0x00000002
# define SUNI_DATA_BITS_FAILURE 0x00000004
# define SUNI_UTOPIA_FAILURE 0x00000008
# define SUNI_FIFO_FAILURE 0x00000010
# define SRAM_FAILURE 0x00000020
# define SELF_TEST_FAILURE 0x0000003f
/* mailbox[1] = 0 in progress, -1 on completion */
/* mailbox[2] = current test 00 00 test(8 bit) phase(8 bit) */
/* mailbox[3] = last failure, 00 00 test(8 bit) phase(8 bit) */
/* mailbox[4],mailbox[5],mailbox[6] random failure values */
/* PLX/etc. memory map including command structure */
/* These registers may also be memory mapped in PCI memory */
# define UNUSED_LOADER_MAILBOXES 6
typedef struct {
u32 stuff [ 16 ] ;
union {
struct {
u32 result ;
u32 ready ;
u32 stuff [ UNUSED_LOADER_MAILBOXES ] ;
} loader ;
struct {
u32 cmd_address ;
u32 tx_address ;
u32 rx_address [ NUM_RX_POOLS ] ;
u32 gen_counter ;
u32 spare ;
} adapter ;
} mb ;
u32 doorbell ;
u32 interrupt ;
u32 interrupt_control ;
u32 reset_control ;
} amb_mem ;
/* RESET bit, IRQ (card to host) and doorbell (host to card) enable bits */
# define AMB_RESET_BITS 0x40000000
# define AMB_INTERRUPT_BITS 0x00000300
# define AMB_DOORBELL_BITS 0x00030000
/* loader commands */
# define MAX_COMMAND_DATA 13
# define MAX_TRANSFER_DATA 11
typedef struct {
__be32 address ;
__be32 count ;
__be32 data [ MAX_TRANSFER_DATA ] ;
} transfer_block ;
typedef struct {
__be32 result ;
__be32 command ;
union {
transfer_block transfer ;
__be32 version ;
__be32 start ;
__be32 data [ MAX_COMMAND_DATA ] ;
} payload ;
__be32 valid ;
} loader_block ;
/* command queue */
/* Again all data are BIG ENDIAN */
typedef struct {
union {
struct {
__be32 vc ;
__be32 flags ;
__be32 rate ;
} open ;
struct {
__be32 vc ;
__be32 rate ;
} modify_rate ;
struct {
__be32 vc ;
__be32 flags ;
} modify_flags ;
struct {
__be32 vc ;
} close ;
struct {
__be32 lower4 ;
__be32 upper2 ;
} bia ;
struct {
__be32 address ;
} suni ;
struct {
__be32 major ;
__be32 minor ;
} version ;
struct {
__be32 read ;
__be32 write ;
} speed ;
struct {
__be32 flags ;
} flush ;
struct {
__be32 address ;
__be32 data ;
} memory ;
__be32 par [ 3 ] ;
} args ;
__be32 request ;
} command ;
/* transmit queues and associated structures */
/* The hosts transmit structure. All BIG ENDIAN; host address
restricted to first 1 GByte , but address passed to the card must
have the top MS bit or ' ed in . - - check this */
/* TX is described by 1+ tx_frags followed by a tx_frag_end */
typedef struct {
__be32 bytes ;
__be32 address ;
} tx_frag ;
/* apart from handle the fields here are for the adapter to play with
and should be set to zero */
typedef struct {
u32 handle ;
u16 vc ;
u16 next_descriptor_length ;
u32 next_descriptor ;
# ifdef AMB_NEW_MICROCODE
u8 cpcs_uu ;
u8 cpi ;
u16 pad ;
# endif
} tx_frag_end ;
typedef struct {
tx_frag tx_frag ;
tx_frag_end tx_frag_end ;
struct sk_buff * skb ;
} tx_simple ;
#if 0
typedef union {
tx_frag fragment ;
tx_frag_end end_of_list ;
} tx_descr ;
# endif
/* this "points" to the sequence of fragments and trailer */
typedef struct {
__be16 vc ;
__be16 tx_descr_length ;
__be32 tx_descr_addr ;
} tx_in ;
/* handle is the handle from tx_in */
typedef struct {
u32 handle ;
} tx_out ;
/* receive frame structure */
/* All BIG ENDIAN; handle is as passed from host; length is zero for
aborted frames , and frames with errors . Header is actually VC
number , lec - id is NOT yet supported . */
typedef struct {
u32 handle ;
__be16 vc ;
__be16 lec_id ; // unused
__be16 status ;
__be16 length ;
} rx_out ;
/* buffer supply structure */
typedef struct {
u32 handle ;
__be32 host_address ;
} rx_in ;
/* This first structure is the area in host memory where the adapter
writes its pointer values . These pointer values are BIG ENDIAN and
reside in the same 4 MB ' page ' as this structure . The host gives the
adapter the address of this block by sending a doorbell interrupt
to the adapter after downloading the code and setting it going . The
addresses have the top 10 bits set to 1010000010 b - - really ?
The host must initialise these before handing the block to the
adapter . */
typedef struct {
__be32 command_start ; /* SRB commands completions */
__be32 command_end ; /* SRB commands completions */
__be32 tx_start ;
__be32 tx_end ;
__be32 txcom_start ; /* tx completions */
__be32 txcom_end ; /* tx completions */
struct {
__be32 buffer_start ;
__be32 buffer_end ;
u32 buffer_q_get ;
u32 buffer_q_end ;
u32 buffer_aptr ;
__be32 rx_start ; /* rx completions */
__be32 rx_end ;
u32 rx_ptr ;
__be32 buffer_size ; /* size of host buffer */
} rec_struct [ NUM_RX_POOLS ] ;
# ifdef AMB_NEW_MICROCODE
u16 init_flags ;
u16 talk_block_spare ;
# endif
} adap_talk_block ;
/* This structure must be kept in line with the vcr image in sarmain.h
This is the structure in the host filled in by the adapter by
GET_SUNI_STATS */
typedef struct {
u8 racp_chcs ;
u8 racp_uhcs ;
u16 spare ;
u32 racp_rcell ;
u32 tacp_tcell ;
u32 flags ;
u32 dropped_cells ;
u32 dropped_frames ;
} suni_stats ;
typedef enum {
dead
} amb_flags ;
# define NEXTQ(current,start,limit) \
( ( current ) + 1 < ( limit ) ? ( current ) + 1 : ( start ) )
typedef struct {
command * start ;
command * in ;
command * out ;
command * limit ;
} amb_cq_ptrs ;
typedef struct {
spinlock_t lock ;
unsigned int pending ;
unsigned int high ;
unsigned int filled ;
unsigned int maximum ; // size - 1 (q implementation)
amb_cq_ptrs ptrs ;
} amb_cq ;
typedef struct {
spinlock_t lock ;
unsigned int pending ;
unsigned int high ;
unsigned int filled ;
unsigned int maximum ; // size - 1 (q implementation)
struct {
tx_in * start ;
tx_in * ptr ;
tx_in * limit ;
} in ;
struct {
tx_out * start ;
tx_out * ptr ;
tx_out * limit ;
} out ;
} amb_txq ;
typedef struct {
spinlock_t lock ;
unsigned int pending ;
unsigned int low ;
unsigned int emptied ;
unsigned int maximum ; // size - 1 (q implementation)
struct {
rx_in * start ;
rx_in * ptr ;
rx_in * limit ;
} in ;
struct {
rx_out * start ;
rx_out * ptr ;
rx_out * limit ;
} out ;
unsigned int buffers_wanted ;
unsigned int buffer_size ;
} amb_rxq ;
typedef struct {
unsigned long tx_ok ;
struct {
unsigned long ok ;
unsigned long error ;
unsigned long badcrc ;
unsigned long toolong ;
unsigned long aborted ;
unsigned long unused ;
} rx ;
} amb_stats ;
// a single struct pointed to by atm_vcc->dev_data
typedef struct {
u8 tx_vc_bits : 7 ;
u8 tx_present : 1 ;
} amb_tx_info ;
typedef struct {
unsigned char pool ;
} amb_rx_info ;
typedef struct {
amb_rx_info rx_info ;
u16 tx_frame_bits ;
unsigned int tx_rate ;
unsigned int rx_rate ;
} amb_vcc ;
struct amb_dev {
u8 irq ;
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unsigned long flags ;
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u32 iobase ;
u32 * membase ;
amb_cq cq ;
amb_txq txq ;
amb_rxq rxq [ NUM_RX_POOLS ] ;
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struct mutex vcc_sf ;
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amb_tx_info txer [ NUM_VCS ] ;
struct atm_vcc * rxer [ NUM_VCS ] ;
unsigned int tx_avail ;
unsigned int rx_avail ;
amb_stats stats ;
struct atm_dev * atm_dev ;
struct pci_dev * pci_dev ;
struct timer_list housekeeping ;
} ;
typedef struct amb_dev amb_dev ;
# define AMB_DEV(atm_dev) ((amb_dev *) (atm_dev)->dev_data)
# define AMB_VCC(atm_vcc) ((amb_vcc *) (atm_vcc)->dev_data)
/* rate rounding */
typedef enum {
round_up ,
round_down ,
round_nearest
} rounding ;
# endif