u-boot/board/evb64260/zuma_pbb.h

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2002-01-27 00:56:55 +00:00
#ifndef ZUMA_PBB_H
#define ZUMA_PBB_H
#define MAX_NUM_BUFFER_PER_RING 32
#ifdef __BIG_ENDIAN
#define cpu_bits _be_s_bits /* use with le32_to_cpu only */
#define pci_bits _be_bits /* may contain swapped bytes,
but dont need le32_to_cpu */
#endif
#ifdef __LITTLE_ENDIAN
#define cpu_bits _le_bits
#define pci_bits _le_bits
#endif
#define VENDOR_ID_ZUMA 0x1172
#define DEVICE_ID_ZUMA_PBB 0x0004
#define RXDBP(chan) (&sip->rx_desc[chan].base) /* ch*8 */
#define RXDP(chan) (&sip->rx_desc[chan].current) /* ch*8 + 4 */
#define TXDBP(chan) (&sip->tx_desc[chan].base) /* ch*8 + 64 */
#define TXDP(chan) (&sip->tx_desc[chan].current) /* ch*8 + 68 */
#define PBB_DMA_OWN_BIT 0x80000000
#define PBB_DMA_LAST_BIT 0x40000000
#define EOF_RX_FLAG 1 /* bit 0 */
#define EOB_RX_FLAG 2 /* bit 1 */
#define EOF_TX_FLAG 4 /* bit 2 */
#define EOB_TX_FLAG 8 /* bit 3 */
#define TX_MODE(m) (((m)&7) << 16)
#define RX_DESC(i) (cs->rx_desc[i])
#define TX_DESC(i) (cs->tx_desc[i])
#define RX_CONTROL(i) (RX_DESC(i).control.word)
#define RX_CONTROL_SIZE(i) (RX_DESC(i).control.rx.size)
#define TX_CONTROL(i) (TX_DESC(i).control.word)
#define RX_DATA_P(i) (&RX_DESC(i).ptr)
#define TX_DATA_P(i) (&TX_DESC(i).ptr)
typedef volatile unsigned char V8;
typedef volatile unsigned short V16;
typedef volatile unsigned int V32;
/* RAM descriptor layout */
typedef struct _tag_dma_descriptor {
V32 ptr;
union {
struct {
V32 owner:1;
V32 last:1;
V32 reserved0: 10;
V32 tx_mode: 4;
V32 reserved1: 5;
V32 size: 11;
} tx;
struct {
V32 owner:1;
V32 last:1;
V32 reserved0: 14;
V32 reserved1: 5;
V32 size: 11;
} rx;
V32 word;
} control;
} DMA_DESCRIPTOR;
/*
* NOTE: DO NOT USE structure to write non-word values... all registers
* MUST be written 4 bytes at a time in SI version 0.
* Non-word writes will result in "unaccessed" bytes written as zero.
*
* Byte reads are allowed.
*
* V32 pads are because the registers are spaced every 8 bytes (64 bits)
*
*/
/* NOTE!!! 4 dwords */
typedef struct _tag_dma_descriptor_ring {
DMA_DESCRIPTOR *base;
V32 pad1; /* skip high dword */
volatile DMA_DESCRIPTOR *current;
V32 pad3; /* skip high dword */
} DMA_DESCRIPTOR_RING;
/* 1 dword */
typedef union _tag_dma_generic {
struct { /* byte 3 2 1 0 */
V32 chan7:4; /* bits 31-28 */
V32 chan6:4; /* bits 27-24 */
V32 chan5:4; /* bits 23-20 */
V32 chan4:4; /* bits 19-16 */
V32 chan3:4; /* bits 15-12 */
V32 chan2:4; /* bits 11-8 */
V32 chan1:4; /* bits 7-4 */
V32 chan0:4; /* bits 3-0 */
} _be_s_bits;
struct { /* byte 0 1 2 3 */
V32 chan1:4; /* bits 7-4 */
V32 chan0:4; /* bits 3-0 */
V32 chan3:4; /* bits 15-12 */
V32 chan2:4; /* bits 11-8 */
V32 chan5:4; /* bits 23-20 */
V32 chan4:4; /* bits 19-16 */
V32 chan7:4; /* bits 31-28 */
V32 chan6:4; /* bits 27-24 */
} _be_bits;
struct { /* byte 0 1 2 3 */
V32 chan0:4; /* bits 0-3 */
V32 chan1:4; /* bits 4-7 */
V32 chan2:4; /* bits 8-11 */
V32 chan3:4; /* bits 12-15 */
V32 chan4:4; /* bits 16-19 */
V32 chan5:4; /* bits 20-23 */
V32 chan6:4; /* bits 24-27 */
V32 chan7:4; /* bits 28-31 */
} _le_bits;
V8 byte[4];
V32 word;
} DMA_RXTX_ENABLE, DMA_RX_DELETE,
DMA_INT_STATUS, DMA_INT_MASK,
DMA_RX_LEVEL_STATUS, DMA_RX_LEVEL_INT_MASK;
/* 1 dword */
typedef union _tag_dma_rx_timer{
struct {
V32 res0:8; /* bits 32-24 */
V32 res1:7; /* bits 23-17 */
V32 enable:1; /* bit 16 */
V32 value:16; /* bits 15-0 */
} _be_s_bits;
struct {
/* crosses byte boundary. must use swap. */
V32 s_value:16; /* bits 7-0,15-8 */
V32 enable:1; /* bit 16 */
V32 res1:7; /* bits 23-17 */
V32 res0:8; /* bits 32-24 */
} _be_bits;
struct {
V32 value:16; /* bits 0-15 */
V32 enable:1; /* bit 16 */
V32 res1:7; /* bits 17-23 */
V32 res0:8; /* bits 24-32 */
} _le_bits;
V8 byte[4];
V32 word;
} DMA_RX_TIMER;
/* NOTE!!!: 2 dwords */
typedef struct _tag_dma_desc_level{
union {
struct {
V32 res1:8; /* bits 31-24 */
V32 res0:7; /* bits 23-17 */
V32 write:1; /* bit 16 */
V32 thresh:8; /* bits 15-8 */
V32 level:8; /* bits 7-0 */
} _be_s_bits;
struct {
V32 level:8; /* bits 7-0 */
V32 thresh:8; /* bits 15-8 */
V32 res0:7; /* bits 30-17 */
V32 write:1; /* bit 16 */
V32 res1:8; /* bits 31-24 */
} _be_bits;
struct {
V32 level:8; /* bits 0-7 */
V32 thresh:8; /* bits 8-15 */
V32 write:1; /* bit 16 */
V32 res0:7; /* bit 17-30 */
V32 res1:8; /* bits 24-31 */
} _le_bits;
V8 byte[4];
V32 word;
} desc;
V32 pad1;
} DMA_DESC_LEVEL;
typedef struct _tag_pbb_dma_reg_map {
/* 0-15 (0x000-0x078) */
DMA_DESCRIPTOR_RING rx_desc[8]; /* 4 dwords each, 128 bytes tot. */
/* 16-31 (0x080-0x0f8) */
DMA_DESCRIPTOR_RING tx_desc[8]; /* 4 dwords each, 128 bytes tot. */
/* 32/33 (0x100/0x108) */
V32 reserved_32;
V32 pad_32;
V32 reserved_33;
V32 pad_33;
/* 34 (0x110) */
DMA_RXTX_ENABLE rxtx_enable;
V32 pad_34;
/* 35 (0x118) */
DMA_RX_DELETE rx_delete;
V32 pad_35;
/* 36-38 (0x120-0x130) */
DMA_INT_STATUS status;
V32 pad_36;
DMA_INT_STATUS last_status;
V32 pad_37;
DMA_INT_MASK int_mask;
V32 pad_38;
/* 39/40 (0x138/0x140) */
union {
/* NOTE!! 4 dwords */
struct {
V32 channel_3:8;
V32 channel_2:8;
V32 channel_1:8;
V32 channel_0:8;
V32 pad1;
V32 channel_7:8;
V32 channel_6:8;
V32 channel_5:8;
V32 channel_4:8;
V32 pad3;
} _be_s_bits;
struct {
V32 channel_0:8;
V32 channel_1:8;
V32 channel_2:8;
V32 channel_3:8;
V32 pad1;
V32 channel_4:8;
V32 channel_5:8;
V32 channel_6:8;
V32 channel_7:8;
V32 pad3;
} _be_bits, _le_bits;
V8 byte[16];
V32 word[4];
} rx_size;
/* 41/42 (0x148/0x150) */
V32 reserved_41;
V32 pad_41;
V32 reserved_42;
V32 pad_42;
/* 43/44 (0x158/0x160) */
DMA_RX_LEVEL_STATUS rx_level_status;
V32 pad_43;
DMA_RX_LEVEL_INT_MASK rx_level_int_mask;
V32 pad_44;
/* 45 (0x168) */
DMA_RX_TIMER rx_timer;
V32 pad_45;
/* 46 (0x170) */
V32 reserved_46;
V32 pad_46;
/* 47 (0x178) */
V32 mbox_status;
V32 pad_47;
/* 48/49 (0x180/0x188) */
V32 mbox_out;
V32 pad_48;
V32 mbox_in;
V32 pad_49;
/* 50 (0x190) */
V32 config;
V32 pad_50;
/* 51/52 (0x198/0x1a0) */
V32 c2a_ctr;
V32 pad_51;
V32 a2c_ctr;
V32 pad_52;
/* 53 (0x1a8) */
union {
struct {
V32 rev_major:8; /* bits 31-24 */
V32 rev_minor:8; /* bits 23-16 */
V32 reserved:16; /* bits 15-0 */
} _be_s_bits;
struct {
V32 s_reserved:16; /* bits 7-0, 15-8 */
V32 rev_minor:8; /* bits 23-16 */
V32 rev_major:8; /* bits 31-24 */
} _be_bits;
struct {
V32 reserved:16; /* bits 0-15 */
V32 rev_minor:8; /* bits 16-23 */
V32 rev_major:8; /* bits 24-31 */
} _le_bits;
V8 byte[4];
V32 word;
} version;
V32 pad_53;
/* 54-59 (0x1b0-0x1d8) */
V32 debug_54;
V32 pad_54;
V32 debug_55;
V32 pad_55;
V32 debug_56;
V32 pad_56;
V32 debug_57;
V32 pad_57;
V32 debug_58;
V32 pad_58;
V32 debug_59;
V32 pad_59;
/* 60 (0x1e0) */
V32 timestamp;
V32 pad_60;
/* 61-63 (0x1e8-0x1f8) */
V32 debug_61;
V32 pad_61;
V32 debug_62;
V32 pad_62;
V32 debug_63;
V32 pad_63;
/* 64-71 (0x200 - 0x238) */
DMA_DESC_LEVEL rx_desc_level[8]; /* 2 dwords each, 32 bytes tot. */
/* 72-98 (0x240 - 0x2f8) */
/* reserved */
/* 96-127 (0x300 - 0x3f8) */
/* mirrors (0x100 - 0x1f8) */
} PBB_DMA_REG_MAP;
#endif /* ZUMA_PBB_H */