From: Thomas Langer Date: Fri, 21 Nov 2008 18:47:33 +0000 (+0000) Subject: uboot: support boards with tantos switch and small code and format cleanups X-Git-Tag: v19.07.0-rc1~35858 X-Git-Url: http://git.lede-project.org./?a=commitdiff_plain;h=e59c8dd86640ca77b59c017a3b8370de4551fa46;p=openwrt%2Fstaging%2Fhauke.git uboot: support boards with tantos switch and small code and format cleanups SVN-Revision: 13308 --- diff --git a/package/uboot-ifxmips/files/drivers/ifx_sw.c b/package/uboot-ifxmips/files/drivers/ifx_sw.c index ac8f1c866f..ac0415a502 100644 --- a/package/uboot-ifxmips/files/drivers/ifx_sw.c +++ b/package/uboot-ifxmips/files/drivers/ifx_sw.c @@ -27,7 +27,7 @@ #include #if (CONFIG_COMMANDS & CFG_CMD_NET) && defined(CONFIG_NET_MULTI) \ - && defined(CONFIG_DANUBE_SWITCH) + && defined(CONFIG_DANUBE_SWITCH) #include #include @@ -41,37 +41,39 @@ #define TX_CHAN_NO 7 #define RX_CHAN_NO 6 -#define NUM_RX_DESC PKTBUFSRX +#define NUM_RX_DESC PKTBUFSRX #define NUM_TX_DESC 8 #define MAX_PACKET_SIZE 1536 #define TOUT_LOOP 100 -#define PHY0_ADDR 1 /*fixme: set the correct value here*/ +#define PHY0_ADDR 1 /*fixme: set the correct value here*/ #define DMA_WRITE_REG(reg, value) *((volatile u32 *)reg) = (u32)value #define DMA_READ_REG(reg, value) value = (u32)*((volatile u32*)reg) -#define SW_WRITE_REG(reg, value) *((volatile u32*)reg) = (u32)value +#define SW_WRITE_REG(reg, value) *((volatile u32*)reg) = (u32)value #define SW_READ_REG(reg, value) value = (u32)*((volatile u32*)reg) +#define TANTOS_CHIP_ID 0x2599 + typedef struct { union { struct { - volatile u32 OWN :1; - volatile u32 C :1; - volatile u32 Sop :1; - volatile u32 Eop :1; - volatile u32 reserved :3; - volatile u32 Byteoffset :2; - volatile u32 reserve :7; - volatile u32 DataLen :16; + volatile u32 OWN :1; + volatile u32 C :1; + volatile u32 Sop :1; + volatile u32 Eop :1; + volatile u32 reserved :3; + volatile u32 Byteoffset :2; + volatile u32 reserve :7; + volatile u32 DataLen :16; }field; volatile u32 word; }status; - + volatile u32 DataPtr; } danube_rx_descriptor_t; @@ -81,18 +83,18 @@ typedef struct { struct { - volatile u32 OWN :1; - volatile u32 C :1; - volatile u32 Sop :1; - volatile u32 Eop :1; - volatile u32 Byteoffset :5; - volatile u32 reserved :7; - volatile u32 DataLen :16; + volatile u32 OWN :1; + volatile u32 C :1; + volatile u32 Sop :1; + volatile u32 Eop :1; + volatile u32 Byteoffset :5; + volatile u32 reserved :7; + volatile u32 DataLen :16; }field; volatile u32 word; }status; - + volatile u32 DataPtr; } danube_tx_descriptor_t; @@ -115,7 +117,8 @@ static void danube_dma_init(void); int danube_switch_initialize(bd_t * bis) { struct eth_device *dev; - + unsigned short chipid; + #if 0 printf("Entered danube_switch_initialize()\n"); #endif @@ -129,21 +132,21 @@ int danube_switch_initialize(bd_t * bis) danube_dma_init(); danube_init_switch_chip(REV_MII_MODE); - + #ifdef CLK_OUT2_25MHZ - *DANUBE_GPIO_P0_DIR=0x0000ae78; - *DANUBE_GPIO_P0_ALTSEL0=0x00008078; - //joelin for Mii-1 *DANUBE_GPIO_P0_ALTSEL1=0x80000080; - *DANUBE_GPIO_P0_ALTSEL1=0x80000000; //joelin for Mii-1 - *DANUBE_CGU_IFCCR=0x00400010; - *DANUBE_GPIO_P0_OD=0x0000ae78; -#endif - - /*patch for 6996*/ - + *DANUBE_GPIO_P0_DIR=0x0000ae78; + *DANUBE_GPIO_P0_ALTSEL0=0x00008078; + //joelin for Mii-1 *DANUBE_GPIO_P0_ALTSEL1=0x80000080; + *DANUBE_GPIO_P0_ALTSEL1=0x80000000; //joelin for Mii-1 + *DANUBE_CGU_IFCCR=0x00400010; + *DANUBE_GPIO_P0_OD=0x0000ae78; +#endif + + /*patch for 6996*/ + *DANUBE_RCU_RST_REQ |=1; - mdelay(200); - *DANUBE_RCU_RST_REQ &=(unsigned long)~1; + mdelay(200); + *DANUBE_RCU_RST_REQ &=(unsigned long)~1; mdelay(1); /*while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); *DANUBE_PPE_ETOP_MDIO_ACC =0x80123602; @@ -160,29 +163,76 @@ int danube_switch_initialize(bd_t * bis) eth_register(dev); -#if 0 - printf("Leaving danube_switch_initialize()\n"); -#endif - while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); - *DANUBE_PPE_ETOP_MDIO_ACC =0x8001840F; - while((*DANUBE_PPE_ETOP_MDIO_ACC)&0x80000000); - *DANUBE_PPE_ETOP_MDIO_ACC =0x8003840F; - while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); - *DANUBE_PPE_ETOP_MDIO_ACC =0x8005840F; - //while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); - //*DANUBE_PPE_ETOP_MDIO_ACC =0x8006840F; while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); - *DANUBE_PPE_ETOP_MDIO_ACC =0x8007840F; + *DANUBE_PPE_ETOP_MDIO_ACC =0xc1010000; while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); - *DANUBE_PPE_ETOP_MDIO_ACC =0x8008840F; - while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); - *DANUBE_PPE_ETOP_MDIO_ACC =0x8001840F; - while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); - *DANUBE_PPE_ETOP_MDIO_ACC =0x80123602; -#ifdef CLK_OUT2_25MHZ - while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); - *DANUBE_PPE_ETOP_MDIO_ACC =0x80334000; + chipid = (unsigned short)(*DANUBE_PPE_ETOP_MDIO_ACC & 0xffff); + + if (chipid != TANTOS_CHIP_ID) // not tantos switch. + { + while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); + *DANUBE_PPE_ETOP_MDIO_ACC =0x8001840F; + while((*DANUBE_PPE_ETOP_MDIO_ACC)&0x80000000); + *DANUBE_PPE_ETOP_MDIO_ACC =0x8003840F; + while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); + *DANUBE_PPE_ETOP_MDIO_ACC =0x8005840F; + //while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); + //*DANUBE_PPE_ETOP_MDIO_ACC =0x8006840F; + while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); + *DANUBE_PPE_ETOP_MDIO_ACC =0x8007840F; + while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); + *DANUBE_PPE_ETOP_MDIO_ACC =0x8008840F; + while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); + *DANUBE_PPE_ETOP_MDIO_ACC =0x8001840F; + while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); + *DANUBE_PPE_ETOP_MDIO_ACC =0x80123602; +#ifdef CLK_OUT2_25MHZ + while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); + *DANUBE_PPE_ETOP_MDIO_ACC =0x80334000; #endif + } + else // Tantos switch chip + { + //printf("Tantos Switch detected!!\n\r"); + + while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); + *DANUBE_PPE_ETOP_MDIO_ACC =0x80a10004; + + while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); + *DANUBE_PPE_ETOP_MDIO_ACC =0x80c10004; + + while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); + *DANUBE_PPE_ETOP_MDIO_ACC =0x80f50773; + + /* Software workaround. */ + /* PHY reset from P0 to P4. */ + while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); + + mdelay(1); + *DANUBE_PPE_ETOP_MDIO_ACC =0x81218000; + while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); + mdelay(1); + /* P0 */ + *DANUBE_PPE_ETOP_MDIO_ACC =0x81200400; + while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); + mdelay(1); + /* P1 */ + *DANUBE_PPE_ETOP_MDIO_ACC =0x81200420; + while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); + mdelay(1); + /* P2 */ + *DANUBE_PPE_ETOP_MDIO_ACC =0x81200440; + while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); + mdelay(1); + /* P3 */ + *DANUBE_PPE_ETOP_MDIO_ACC =0x81200460; + while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); + mdelay(1); + /* p4 */ + *DANUBE_PPE_ETOP_MDIO_ACC =0x81200480; + while(*DANUBE_PPE_ETOP_MDIO_ACC&0x80000000); + mdelay(1); + } return 1; } @@ -193,34 +243,33 @@ int danube_switch_init(struct eth_device *dev, bd_t * bis) tx_num=0; rx_num=0; - - /* Reset DMA - */ + + /* Reset DMA */ // serial_puts("i \n\0"); - *DANUBE_DMA_CS=RX_CHAN_NO; - *DANUBE_DMA_CCTRL=0x2;/*fix me, need to reset this channel first?*/ - *DANUBE_DMA_CPOLL= 0x80000040; - /*set descriptor base*/ - *DANUBE_DMA_CDBA=(u32)rx_des_ring; - *DANUBE_DMA_CDLEN=NUM_RX_DESC; - *DANUBE_DMA_CIE = 0; - *DANUBE_DMA_CCTRL=0x30000; - - *DANUBE_DMA_CS=TX_CHAN_NO; - *DANUBE_DMA_CCTRL=0x2;/*fix me, need to reset this channel first?*/ - *DANUBE_DMA_CPOLL= 0x80000040; - *DANUBE_DMA_CDBA=(u32)tx_des_ring; - *DANUBE_DMA_CDLEN=NUM_TX_DESC; - *DANUBE_DMA_CIE = 0; - *DANUBE_DMA_CCTRL=0x30100; - + *DANUBE_DMA_CS=RX_CHAN_NO; + *DANUBE_DMA_CCTRL=0x2;/*fix me, need to reset this channel first?*/ + *DANUBE_DMA_CPOLL= 0x80000040; + /*set descriptor base*/ + *DANUBE_DMA_CDBA=(u32)rx_des_ring; + *DANUBE_DMA_CDLEN=NUM_RX_DESC; + *DANUBE_DMA_CIE = 0; + *DANUBE_DMA_CCTRL=0x30000; + + *DANUBE_DMA_CS=TX_CHAN_NO; + *DANUBE_DMA_CCTRL=0x2;/*fix me, need to reset this channel first?*/ + *DANUBE_DMA_CPOLL= 0x80000040; + *DANUBE_DMA_CDBA=(u32)tx_des_ring; + *DANUBE_DMA_CDLEN=NUM_TX_DESC; + *DANUBE_DMA_CIE = 0; + *DANUBE_DMA_CCTRL=0x30100; + for(i=0;i < NUM_RX_DESC; i++) { danube_rx_descriptor_t * rx_desc = KSEG1ADDR(&rx_des_ring[i]); - rx_desc->status.word=0; + rx_desc->status.word=0; rx_desc->status.field.OWN=1; - rx_desc->status.field.DataLen=PKTSIZE_ALIGN; /* 1536 */ + rx_desc->status.field.DataLen=PKTSIZE_ALIGN; /* 1536 */ rx_desc->DataPtr=(u32)KSEG1ADDR(NetRxPackets[i]); } @@ -230,20 +279,20 @@ int danube_switch_init(struct eth_device *dev, bd_t * bis) memset(tx_desc, 0, sizeof(tx_des_ring[0])); } /* turn on DMA rx & tx channel - */ - *DANUBE_DMA_CS=RX_CHAN_NO; - *DANUBE_DMA_CCTRL|=1;/*reset and turn on the channel*/ - + */ + *DANUBE_DMA_CS=RX_CHAN_NO; + *DANUBE_DMA_CCTRL|=1;/*reset and turn on the channel*/ + return 0; } void danube_switch_halt(struct eth_device *dev) { - int i; - for(i=0;i<8;i++) + int i; + for(i=0;i<8;i++) { - *DANUBE_DMA_CS=i; - *DANUBE_DMA_CCTRL&=~1;/*stop the dma channel*/ + *DANUBE_DMA_CS=i; + *DANUBE_DMA_CCTRL&=~1;/*stop the dma channel*/ } // udelay(1000000); } @@ -251,17 +300,17 @@ void danube_switch_halt(struct eth_device *dev) int danube_switch_send(struct eth_device *dev, volatile void *packet,int length) { - int i; - int res = -1; + int i; + int res = -1; danube_tx_descriptor_t * tx_desc= KSEG1ADDR(&tx_des_ring[tx_num]); - + if (length <= 0) { printf ("%s: bad packet size: %d\n", dev->name, length); goto Done; } - + for(i=0; tx_desc->status.field.OWN==1; i++) { if(i>=TOUT_LOOP) @@ -280,44 +329,40 @@ int danube_switch_send(struct eth_device *dev, volatile void *packet,int length) if(length<60) tx_desc->status.field.DataLen = 60; else - tx_desc->status.field.DataLen = (u32)length; - + tx_desc->status.field.DataLen = (u32)length; + asm("SYNC"); tx_desc->status.field.OWN=1; - + res=length; tx_num++; - if(tx_num==NUM_TX_DESC) tx_num=0; + if(tx_num==NUM_TX_DESC) tx_num=0; *DANUBE_DMA_CS=TX_CHAN_NO; - + if(!(*DANUBE_DMA_CCTRL & 1)) - *DANUBE_DMA_CCTRL|=1; - + *DANUBE_DMA_CCTRL|=1; + Done: return res; } int danube_switch_recv(struct eth_device *dev) { - - int length = 0; - + int length = 0; danube_rx_descriptor_t * rx_desc; - int anchor_num=0; - int i; + for (;;) { - rx_desc = KSEG1ADDR(&rx_des_ring[rx_num]); + rx_desc = KSEG1ADDR(&rx_des_ring[rx_num]); - if ((rx_desc->status.field.C == 0) || (rx_desc->status.field.OWN == 1)) + if ((rx_desc->status.field.C == 0) || (rx_desc->status.field.OWN == 1)) { - break; + break; } - - + length = rx_desc->status.field.DataLen; if (length) - { + { NetReceive((void*)KSEG1ADDR(NetRxPackets[rx_num]), length - 4); // serial_putc('*'); } @@ -342,10 +387,8 @@ int danube_switch_recv(struct eth_device *dev) static void danube_init_switch_chip(int mode) { - int i; - /*get and set mac address for MAC*/ - static unsigned char addr[6]; - char *tmp,*end; + /*get and set mac address for MAC*/ + char *tmp; tmp = getenv ("ethaddr"); if (NULL == tmp) { printf("Can't get environment ethaddr!!!\n"); @@ -353,58 +396,55 @@ static void danube_init_switch_chip(int mode) } else { printf("ethaddr=%s\n", tmp); } - *DANUBE_PMU_PWDCR = *DANUBE_PMU_PWDCR & 0xFFFFEFDF; - *DANUBE_PPE32_ETOP_MDIO_CFG &= ~0x6; - *DANUBE_PPE32_ENET_MAC_CFG = 0x187; - - // turn on port0, set to rmii and turn off port1. - if(mode==REV_MII_MODE) - { - *DANUBE_PPE32_ETOP_CFG = (*DANUBE_PPE32_ETOP_CFG & 0xfffffffc) | 0x0000000a; - } + *DANUBE_PMU_PWDCR = *DANUBE_PMU_PWDCR & 0xFFFFEFDF; + *DANUBE_PPE32_ETOP_MDIO_CFG &= ~0x6; + *DANUBE_PPE32_ENET_MAC_CFG = 0x187; + + // turn on port0, set to rmii and turn off port1. + if (mode==REV_MII_MODE) + { + *DANUBE_PPE32_ETOP_CFG = (*DANUBE_PPE32_ETOP_CFG & 0xfffffffc) | 0x0000000a; + } else if (mode == MII_MODE) - { + { *DANUBE_PPE32_ETOP_CFG = (*DANUBE_PPE32_ETOP_CFG & 0xfffffffc) | 0x00000008; - } + } *DANUBE_PPE32_ETOP_IG_PLEN_CTRL = 0x4005ee; // set packetlen. - *ENET_MAC_CFG|=1<<11;/*enable the crc*/ + *ENET_MAC_CFG |= 1<<11; /*enable the crc*/ return; } static void danube_dma_init(void) { - int i; // serial_puts("d \n\0"); - *DANUBE_PMU_PWDCR &=~(1<