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Diffstat (limited to 'firmware/usrp3/lib/ethernet.c')
-rw-r--r--firmware/usrp3/lib/ethernet.c403
1 files changed, 200 insertions, 203 deletions
diff --git a/firmware/usrp3/lib/ethernet.c b/firmware/usrp3/lib/ethernet.c
index 7a86980c7..91efbfe1d 100644
--- a/firmware/usrp3/lib/ethernet.c
+++ b/firmware/usrp3/lib/ethernet.c
@@ -22,7 +22,7 @@
#include "../x300/x300_defs.h"
#include "ethernet.h"
#include "mdelay.h"
-#include "printf.h"
+#include <trace.h>
#include "wb_i2c.h"
#include "wb_utils.h"
//#include "memory_map.h"
@@ -225,7 +225,7 @@ xge_read_sfpp_type(const uint32_t base, const uint32_t delay_ms)
x = xge_i2c_rd(base, MODULE_DEV_ADDR, 3);
// I2C Error?
if (x < 0) {
- printf("DEBUG: I2C error in SFPP_TYPE.\n");
+ UHD_FW_TRACE(ERROR, "I2C error in SFPP_TYPE.");
return x;
}
// Decode module type. These registers and values are defined in SFF-8472
@@ -235,55 +235,55 @@ xge_read_sfpp_type(const uint32_t base, const uint32_t delay_ms)
}
if (x & 0x10)
{
- printf("DEBUG: SFFP_TYPE_SR.\n");
+ UHD_FW_TRACE(DEBUG, "SFFP_TYPE_SR.");
return SFFP_TYPE_SR;
}
if (x & 0x20)
{
- printf("DEBUG: SFFP_TYPE_LR.\n");
+ UHD_FW_TRACE(DEBUG, "SFFP_TYPE_LR.");
return SFFP_TYPE_LR;
}
if (x & 0x40)
{
- printf("DEBUG: SFFP_TYPE_LRM.\n");
+ UHD_FW_TRACE(DEBUG, "SFFP_TYPE_LRM.");
return SFFP_TYPE_LRM;
}
// Search for legacy 1000-Base SFP types
x = xge_i2c_rd(base, MODULE_DEV_ADDR, 0x6);
if (x < 0) {
- printf("DEBUG: I2C error in SFPP_TYPE.\n");
+ UHD_FW_TRACE(ERROR, "I2C error in SFPP_TYPE.");
return x;
}
if (x & 0x01) {
- printf("DEBUG: SFFP_TYPE_1000BASE_SX.\n");
+ UHD_FW_TRACE(DEBUG, "SFFP_TYPE_1000BASE_SX.");
return SFFP_TYPE_1000BASE_SX;
}
if (x & 0x02) {
- printf("DEBUG: SFFP_TYPE_1000BASE_LX.\n");
+ UHD_FW_TRACE(DEBUG, "SFFP_TYPE_1000BASE_LX.");
return SFFP_TYPE_1000BASE_LX;
}
if (x & 0x08) {
- printf("DEBUG: SFFP_TYPE_1000BASE_T.\n");
+ UHD_FW_TRACE(DEBUG, "SFFP_TYPE_1000BASE_T.");
return SFFP_TYPE_1000BASE_T;
}
// Not one of the standard optical types..now try to deduce if it's twinax aka 10GSFP+CU
// which is not covered explicitly in SFF-8472
x = xge_i2c_rd(base, MODULE_DEV_ADDR, 8);
if (x < 0) {
- printf("DEBUG: I2C error in SFPP_TYPE.\n");
+ UHD_FW_TRACE(ERROR, "I2C error in SFPP_TYPE.");
return x;
}
if ((x & 4) == 0) // Passive SFP+ cable type
goto unknown;
// x = xge_i2c_rd(MODULE_DEV_ADDR, 6);
-// printf("SFP+ reg6 read as %x\n",x);
+// UHD_FW_TRACE(DEBUG, "SFP+ reg6 read as %x",x);
// if (x < 0)
// return x;
// if (x != 0x04) // Returns 1000Base-CX as Compliance code
// goto unknown;
x = xge_i2c_rd(base, MODULE_DEV_ADDR, 0xA);
if (x < 0) {
- printf("DEBUG: I2C error in SFPP_TYPE.\n");
+ UHD_FW_TRACE(ERROR, "I2C error in SFPP_TYPE.");
return x;
}
if (x & 0x80) {
@@ -292,117 +292,124 @@ xge_read_sfpp_type(const uint32_t base, const uint32_t delay_ms)
x = xge_i2c_rd(base, MODULE_DEV_ADDR, 0x12);
if (x < 0) {
- printf("DEBUG: I2C error in SFPP_TYPE.\n");
+ UHD_FW_TRACE(ERROR, "I2C error in SFPP_TYPE.");
return x;
}
- printf("DEBUG: TwinAx.\n");
+ UHD_FW_TRACE(DEBUG, "TwinAx.");
// If cable length support is greater than 10M then pick correct type
return x > 10 ? SFFP_TYPE_TWINAX_LONG : SFFP_TYPE_TWINAX;
}
unknown:
- printf("DEBUG: Unknown SFP+ type.\n");
+ UHD_FW_TRACE(WARN, "Unknown SFP+ type.");
// Not a supported Module type
return SFFP_TYPE_UNKNOWN;
}
-
-// Pull reset line low for 100ms then release and wait 100ms
-static void
-xge_hard_phy_reset(const uint32_t base)
+static void xge_mac_init(const uint32_t base)
{
- wb_poke32(base, 1);
- mdelay(100);
- wb_poke32(base, 0);
- mdelay(100);
-
+ UHD_FW_TRACE(DEBUG, "Begining XGE MAC init sequence.");
+ xge_regs->config = XGE_TX_ENABLE;
}
-static void
-xge_mac_init(const uint32_t base)
+// base is pointer to XGE MAC on Wishbone.
+static void xge_phy_init(const uint8_t eth, const uint32_t mdio_port_arg)
{
- printf("INFO: Begining XGE MAC init sequence.\n");
- xge_regs->config = XGE_TX_ENABLE;
+ int x;
+ uint32_t mdio_port = eth==0 ? 1 : mdio_port_arg;
+ // Read LASI Ctrl register to capture state.
+ //y = xge_read_mdio(0x9002,XGE_MDIO_DEVICE_PMA,XGE_MDIO_ADDR_PHY_A);
+ UHD_FW_TRACE(DEBUG, "Begining XGE PHY init sequence.");
+ // Software reset
+ x = read_mdio(eth, 0x0, XGE_MDIO_DEVICE_PMA,mdio_port);
+ x = x | (1 << 15);
+ write_mdio(eth, 0x0,XGE_MDIO_DEVICE_PMA,mdio_port,x);
+ while(x&(1<<15)) {
+ x = read_mdio(eth, 0x0,XGE_MDIO_DEVICE_PMA,mdio_port);
+ }
}
-// base is pointer to XGE MAC on Wishbone.
-static void
-xge_phy_init(const uint8_t eth, const uint32_t mdio_port)
+void update_eth_state(const uint32_t eth)
{
- int x;
- // Read LASI Ctrl register to capture state.
- //y = xge_read_mdio(0x9002,XGE_MDIO_DEVICE_PMA,XGE_MDIO_ADDR_PHY_A);
- printf("INFO: Begining XGE PHY init sequence.\n");
- // Software reset
- x = read_mdio(eth, 0x0, XGE_MDIO_DEVICE_PMA,mdio_port);
- x = x | (1 << 15);
- write_mdio(eth, 0x0,XGE_MDIO_DEVICE_PMA,mdio_port,x);
- while(x&(1<<15))
- x = read_mdio(eth, 0x0,XGE_MDIO_DEVICE_PMA,mdio_port);
+ const bool old_link_up = links_up[eth];
+ const uint32_t status_reg_addr = (eth==0) ? RB_SFPP_STATUS0 : RB_SFPP_STATUS1;
+ const bool is_10g = (wb_peek32(SR_ADDR(RB0_BASE, eth == 0 ? RB_ETH_TYPE0 : RB_ETH_TYPE1)) == 1);
+
+ uint32_t sfpp_status = wb_peek32(SR_ADDR(RB0_BASE, status_reg_addr)) & 0xFFFF;
+ if ((sfpp_status & (SFPP_STATUS_RXLOS|SFPP_STATUS_TXFAULT|SFPP_STATUS_MODABS)) == 0) {
+ //SFP+ pin state changed. Reinitialize PHY and MAC
+ if (is_10g) {
+ xge_mac_init((eth==0) ? XGE0_BASE : XGE1_BASE);
+ xge_phy_init(eth ,MDIO_PORT);
+ } else {
+ //No-op for 1G
+ }
+
+ int8_t timeout = 100;
+ bool link_up = false;
+ do {
+ if (is_10g) {
+ link_up = ((read_mdio(eth, XGE_MDIO_STATUS1,XGE_MDIO_DEVICE_PMA,MDIO_PORT)) & (1 << 2)) != 0;
+ } else {
+ link_up = ((wb_peek32(SR_ADDR(RB0_BASE, status_reg_addr)) >> 16) & 0x1) != 0;
+ }
+ } while (!link_up && timeout-- > 0);
+
+ links_up[eth] = link_up;
+ }
+ else
+ {
+ links_up[eth] = false;
+ }
+
+ if (!old_link_up && links_up[eth]) u3_net_stack_send_arp_request(eth, u3_net_stack_get_ip_addr(eth));
+ UHD_FW_TRACE_FSTR(INFO, "The link on eth port %u is %s", eth, links_up[eth]?"up":"down");
}
-void
-xge_poll_sfpp_status(const uint32_t eth)
+void poll_sfpp_status(const uint32_t eth)
{
- uint32_t x;
- // Has MODDET/MODAbS changed since we last looked?
- x = wb_peek32(SR_ADDR(RB0_BASE, (eth==0) ? RB_SFPP_STATUS0 : RB_SFPP_STATUS1 ));
-
- if (x & SFPP_STATUS_RXLOS_CHG)
- printf("DEBUG: eth%1d RXLOS changed state: %d\n", eth, x & SFPP_STATUS_RXLOS);
- if (x & SFPP_STATUS_TXFAULT_CHG)
- printf("DEBUG: eth%1d TXFAULT changed state: %d\n", eth,(x & SFPP_STATUS_TXFAULT) >> 1 );
- if (x & SFPP_STATUS_MODABS_CHG)
- printf("DEBUG: eth%1d MODABS changed state: %d\n", eth, (x & SFPP_STATUS_MODABS) >> 2);
-
- if (x & (SFPP_STATUS_RXLOS_CHG|SFPP_STATUS_TXFAULT_CHG|SFPP_STATUS_MODABS_CHG))
- {
- if (( x & (SFPP_STATUS_RXLOS|SFPP_STATUS_TXFAULT|SFPP_STATUS_MODABS)) == 0)
+ uint32_t x;
+ // Has MODDET/MODAbS changed since we last looked?
+ x = wb_peek32(SR_ADDR(RB0_BASE, (eth==0) ? RB_SFPP_STATUS0 : RB_SFPP_STATUS1 ));
+
+ if (x & SFPP_STATUS_RXLOS_CHG)
+ UHD_FW_TRACE_FSTR(DEBUG, "eth%1d RXLOS changed state: %d", eth, (x & SFPP_STATUS_RXLOS));
+ if (x & SFPP_STATUS_TXFAULT_CHG)
+ UHD_FW_TRACE_FSTR(DEBUG, "eth%1d TXFAULT changed state: %d", eth, ((x & SFPP_STATUS_TXFAULT) >> 1));
+ if (x & SFPP_STATUS_MODABS_CHG)
+ UHD_FW_TRACE_FSTR(DEBUG, "eth%1d MODABS changed state: %d", eth, ((x & SFPP_STATUS_MODABS) >> 2));
+
+ //update the link up status
+ if ((x & SFPP_STATUS_RXLOS_CHG) || (x & SFPP_STATUS_TXFAULT_CHG) || (x & SFPP_STATUS_MODABS_CHG))
{
- if (wb_peek32(SR_ADDR(RB0_BASE, eth == 0 ? RB_ETH_TYPE0 : RB_ETH_TYPE1)) == 1)
- {
- xge_ethernet_init(eth);
- dump_mdio_regs((eth==0) ? XGE0_BASE : XGE1_BASE,MDIO_PORT);
- mdelay(100);
- dump_mdio_regs((eth==0) ? XGE0_BASE : XGE1_BASE,MDIO_PORT);
- mdelay(100);
- dump_mdio_regs((eth==0) ? XGE0_BASE : XGE1_BASE,MDIO_PORT);
- }
+ update_eth_state(eth);
}
- }
- if (x & SFPP_STATUS_MODABS_CHG) {
- // MODDET has changed state since last checked
- if (x & SFPP_STATUS_MODABS) {
- // MODDET is high, module currently removed.
- printf("INFO: An SFP+ module has been removed from eth port %d.\n", eth);
- } else {
- // MODDET is low, module currently inserted.
- // Return status.
- printf("INFO: A new SFP+ module has been inserted into eth port %d.\n", eth);
- xge_read_sfpp_type((eth==0) ? I2C0_BASE : I2C2_BASE,1);
+ if (x & SFPP_STATUS_MODABS_CHG) {
+ // MODDET has changed state since last checked
+ if (x & SFPP_STATUS_MODABS) {
+ // MODDET is high, module currently removed.
+ UHD_FW_TRACE_FSTR(INFO, "An SFP+ module has been removed from eth port %d.", eth);
+ } else {
+ // MODDET is low, module currently inserted.
+ // Return status.
+ UHD_FW_TRACE_FSTR(INFO, "A new SFP+ module has been inserted into eth port %d.", eth);
+ xge_read_sfpp_type((eth==0) ? I2C0_BASE : I2C2_BASE,1);
+ }
}
- }
-
- //update the link up status
- const bool old_link_up = links_up[eth];
- links_up[eth] = ((read_mdio(eth, XGE_MDIO_STATUS1,XGE_MDIO_DEVICE_PMA,MDIO_PORT)) & (1 << 2)) != 0;
- //The link became up, send a GARP so everyone knows our mac/ip association
- if (!old_link_up && links_up[eth]) u3_net_stack_send_arp_request(eth, u3_net_stack_get_ip_addr(eth));
}
-
-void
-xge_ethernet_init(const uint32_t eth)
+void ethernet_init(const uint32_t eth)
{
- xge_mac_init((eth==0) ? XGE0_BASE : XGE1_BASE);
- //xge_hard_phy_reset();
- xge_phy_init(eth ,MDIO_PORT);
- uint32_t x = wb_peek32(SR_ADDR(RB0_BASE, (eth==0) ? RB_SFPP_STATUS0 : RB_SFPP_STATUS1 ));
- printf(" eth%1d SFP initial state: RXLOS: %d TXFAULT: %d MODABS: %d\n",
- eth,
- x & SFPP_STATUS_RXLOS,
- (x & SFPP_STATUS_TXFAULT) >> 1,
- (x & SFPP_STATUS_MODABS) >> 2);
+#ifdef UHD_FW_TRACE_LEVEL
+ uint32_t x = wb_peek32(SR_ADDR(RB0_BASE, (eth==0) ? RB_SFPP_STATUS0 : RB_SFPP_STATUS1 ));
+ UHD_FW_TRACE_FSTR(DEBUG, "eth%1d SFP initial state: RXLOS: %d TXFAULT: %d MODABS: %d",
+ eth,
+ (x & SFPP_STATUS_RXLOS),
+ ((x & SFPP_STATUS_TXFAULT) >> 1),
+ ((x & SFPP_STATUS_MODABS) >> 2));
+#endif
+ links_up[eth] = false;
+ update_eth_state(eth);
}
//
@@ -412,187 +419,179 @@ xge_ethernet_init(const uint32_t eth)
void decode_reg(uint32_t address, uint32_t device, uint32_t data)
{
+ UHD_FW_TRACE_FSTR(DEBUG,
+ "[MDIO Register Dump for Addr=%x, Device=%x]\n- Raw Value = %x",
+ address, device, data);
int x;
- printf("Device: ");
- printf("%x",device);
- printf(" ");
switch(address) {
case XGE_MDIO_CONTROL1:
- printf("CONTROL1: ");
- printf("%x",data); printf(" ");
+ UHD_FW_TRACE_FSTR_SHORT(DEBUG, "CONTROL1: %x = ", data);
for (x=15; x >= 0 ; x--)
if ((data & (1 << x)) != 0)
// Bits set.
switch(x) {
- case 15: printf("Reset,"); break;
- case 14: printf("Loopback,"); break;
- case 11: printf("Low Power Mode,"); break;
- case 5:case 4:case 3:case 2: printf("RESERVED speed value,"); break;
- case 0: printf("PMA loopback,"); break;
+ case 15: UHD_FW_TRACE_SHORT(DEBUG, "Reset,"); break;
+ case 14: UHD_FW_TRACE_SHORT(DEBUG, "Loopback,"); break;
+ case 11: UHD_FW_TRACE_SHORT(DEBUG, "Low Power Mode,"); break;
+ case 5:case 4:case 3:case 2: UHD_FW_TRACE_SHORT(DEBUG, "RESERVED speed value,"); break;
+ case 0: UHD_FW_TRACE_SHORT(DEBUG, "PMA loopback,"); break;
} //else
// Bits clear.
//switch (x) {
- //case 13: case 6: printf(" None 10Gb/s speed set!"); break;
+ //case 13: case 6: UHD_FW_TRACE_SHORT(DEBUG, " None 10Gb/s speed set!"); break;
//}
- printf(" \n");
+ UHD_FW_TRACE_SHORT(DEBUG, " \n");
break;
case XGE_MDIO_STATUS1:
- printf("STATUS1: ");
- printf("%x",data); printf(" ");
+ UHD_FW_TRACE_FSTR_SHORT(DEBUG, "STATUS1: %x = ", data);
for (x=15; x >= 0 ; x--)
if ((data & (1 << x)) != 0)
// Bits set.
switch(x) {
- case 7: printf("Fault Detected,"); break;
- case 2: printf("Link is Up,"); break;
- case 1: printf("Supports Low Power,"); break;
+ case 7: UHD_FW_TRACE_SHORT(DEBUG, "Fault Detected,"); break;
+ case 2: UHD_FW_TRACE_SHORT(DEBUG, "Link is Up,"); break;
+ case 1: UHD_FW_TRACE_SHORT(DEBUG, "Supports Low Power,"); break;
} else
// Bits Clear
switch(x) {
- case 2: printf("Link is Down,"); break;
+ case 2: UHD_FW_TRACE_SHORT(DEBUG, "Link is Down,"); break;
}
- printf(" \n");
+ UHD_FW_TRACE_SHORT(DEBUG, " \n");
break;
case XGE_MDIO_SPEED:
- printf("SPEED ABILITY: ");
- printf("%x",data); printf(" ");
+ UHD_FW_TRACE_FSTR_SHORT(DEBUG, "SPEED ABILITY: %x = ", data);
for (x=15; x >= 0 ; x--)
if ((data & (1 << x)) != 0)
// Bits set.
switch(x) {
case 15:case 14:case 13:case 12:case 11:case 10:case 9:
- case 8:case 7:case 6:case 5:case 4:case 3:case 2:case 1: printf("RESERVED bits set!,"); break;
- case 0: printf("Capable of 10Gb/s,");
+ case 8:case 7:case 6:case 5:case 4:case 3:case 2:case 1: UHD_FW_TRACE_SHORT(DEBUG, "RESERVED bits set!,"); break;
+ case 0: UHD_FW_TRACE_SHORT(DEBUG, "Capable of 10Gb/s,");
} else
// Bits clear.
switch(x) {
- case 0: printf("Incapable of 10Gb/s,"); break;
+ case 0: UHD_FW_TRACE_SHORT(DEBUG, "Incapable of 10Gb/s,"); break;
}
- printf(" \n");
+ UHD_FW_TRACE_SHORT(DEBUG, " \n");
break;
case XGE_MDIO_DEVICES1:
- printf("DEVICES IN PACKAGE: ");
- printf("%x",data); printf(" ");
+ UHD_FW_TRACE_FSTR_SHORT(DEBUG, "DEVICES IN PACKAGE: %x = ", data);
for (x=15; x >= 0 ; x--)
if ((data & (1 << x)) != 0)
// Bits set.
switch(x) {
- case 7: printf("Auto-Negotiation,"); break;
- case 6: printf("TC,"); break;
- case 5: printf("DTE XS,"); break;
- case 4: printf("PHY XS,"); break;
- case 3: printf("PCS,"); break;
- case 2: printf("WIS,"); break;
- case 1: printf("PMD/PMA,"); break;
- case 0: printf("Clause 22 registers,"); break;
+ case 7: UHD_FW_TRACE_SHORT(DEBUG, "Auto-Negotiation,"); break;
+ case 6: UHD_FW_TRACE_SHORT(DEBUG, "TC,"); break;
+ case 5: UHD_FW_TRACE_SHORT(DEBUG, "DTE XS,"); break;
+ case 4: UHD_FW_TRACE_SHORT(DEBUG, "PHY XS,"); break;
+ case 3: UHD_FW_TRACE_SHORT(DEBUG, "PCS,"); break;
+ case 2: UHD_FW_TRACE_SHORT(DEBUG, "WIS,"); break;
+ case 1: UHD_FW_TRACE_SHORT(DEBUG, "PMD/PMA,"); break;
+ case 0: UHD_FW_TRACE_SHORT(DEBUG, "Clause 22 registers,"); break;
}
- printf(" \n");
+ UHD_FW_TRACE_SHORT(DEBUG, " \n");
break;
case XGE_MDIO_DEVICES2:
- printf("DEVICES IN PACKAGE (cont): ");
- printf("%x",data); printf(" ");
+ UHD_FW_TRACE_FSTR_SHORT(DEBUG, "DEVICES IN PACKAGE (cont): %x = ", data);
for (x=15; x >= 0 ; x--)
if ((data & (1 << x)) != 0)
// Bits set.
switch(x) {
- case 15: printf("Vendor device 2,"); break;
- case 14: printf("Vendor device 1,"); break;
- case 13: printf("Clause 22 extension,"); break;
+ case 15: UHD_FW_TRACE_SHORT(DEBUG, "Vendor device 2,"); break;
+ case 14: UHD_FW_TRACE_SHORT(DEBUG, "Vendor device 1,"); break;
+ case 13: UHD_FW_TRACE_SHORT(DEBUG, "Clause 22 extension,"); break;
}
- printf(" \n");
+ UHD_FW_TRACE_SHORT(DEBUG, " \n");
break;
case XGE_MDIO_CONTROL2:
- printf("CONTROL2: ");
- printf("%x",data); printf(" ");
+ UHD_FW_TRACE_FSTR_SHORT(DEBUG, "CONTROL2: %x = ", data);
// PMA/PMD
if (device == XGE_MDIO_DEVICE_PMA)
switch((data & 0xf)) {
- case 0xF: printf("10BASE-T,"); break;
- case 0xE: printf("100BASE-TX,"); break;
- case 0xD: printf("1000BASE-KX,"); break;
- case 0xC: printf("1000BASE-T,"); break;
- case 0xB: printf("10GBASE-KR,"); break;
- case 0xA: printf("10GBASE-KX4,"); break;
- case 0x9: printf("10GBASE-T,"); break;
- case 0x8: printf("10GBASE-LRM,"); break;
- case 0x7: printf("10GBASE-SR,"); break;
- case 0x6: printf("10GBASE-LR,"); break;
- case 0x5: printf("10GBASE-ER,"); break;
- case 0x4: printf("10GBASE-LX4,"); break;
- // case 0x3: printf("10GBASE-SW,"); break;
- // case 0x2: printf("10GBASE-LW,"); break;
- // case 0x1: printf("10GBASE-EW,"); break;
- case 0x0: printf("10GBASE-CX4,"); break;
+ case 0xF: UHD_FW_TRACE_SHORT(DEBUG, "10BASE-T,"); break;
+ case 0xE: UHD_FW_TRACE_SHORT(DEBUG, "100BASE-TX,"); break;
+ case 0xD: UHD_FW_TRACE_SHORT(DEBUG, "1000BASE-KX,"); break;
+ case 0xC: UHD_FW_TRACE_SHORT(DEBUG, "1000BASE-T,"); break;
+ case 0xB: UHD_FW_TRACE_SHORT(DEBUG, "10GBASE-KR,"); break;
+ case 0xA: UHD_FW_TRACE_SHORT(DEBUG, "10GBASE-KX4,"); break;
+ case 0x9: UHD_FW_TRACE_SHORT(DEBUG, "10GBASE-T,"); break;
+ case 0x8: UHD_FW_TRACE_SHORT(DEBUG, "10GBASE-LRM,"); break;
+ case 0x7: UHD_FW_TRACE_SHORT(DEBUG, "10GBASE-SR,"); break;
+ case 0x6: UHD_FW_TRACE_SHORT(DEBUG, "10GBASE-LR,"); break;
+ case 0x5: UHD_FW_TRACE_SHORT(DEBUG, "10GBASE-ER,"); break;
+ case 0x4: UHD_FW_TRACE_SHORT(DEBUG, "10GBASE-LX4,"); break;
+ // case 0x3: UHD_FW_TRACE_SHORT(DEBUG, "10GBASE-SW,"); break;
+ // case 0x2: UHD_FW_TRACE_SHORT(DEBUG, "10GBASE-LW,"); break;
+ // case 0x1: UHD_FW_TRACE_SHORT(DEBUG, "10GBASE-EW,"); break;
+ case 0x0: UHD_FW_TRACE_SHORT(DEBUG, "10GBASE-CX4,"); break;
} else if (device == XGE_MDIO_DEVICE_PCS)
// PCS
switch((data & 0x3)) {
- case 0x3: printf("10GBASE-T PCS,"); break;
- case 0x2: printf("10GBASE-W PCS,"); break;
- case 0x1: printf("10GBASE-X PCS,"); break;
- case 0x0: printf("10GBASE-R PCS,"); break;
+ case 0x3: UHD_FW_TRACE_SHORT(DEBUG, "10GBASE-T PCS,"); break;
+ case 0x2: UHD_FW_TRACE_SHORT(DEBUG, "10GBASE-W PCS,"); break;
+ case 0x1: UHD_FW_TRACE_SHORT(DEBUG, "10GBASE-X PCS,"); break;
+ case 0x0: UHD_FW_TRACE_SHORT(DEBUG, "10GBASE-R PCS,"); break;
}
- printf(" \n");
+ UHD_FW_TRACE_SHORT(DEBUG, " \n");
break;
case XGE_MDIO_STATUS2:
- printf("STATUS2: ");
- printf("%x",data); printf(" ");
+ UHD_FW_TRACE_FSTR_SHORT(DEBUG, "STATUS2: %x = ", data);
for (x=15; x >= 0 ; x--)
if ((data & (1 << x)) != 0)
// Bits set.
switch(x) {
- case 15: if ((data & (1 << 14)) == 0) printf("Device responding,"); break;
- case 13: if (device == XGE_MDIO_DEVICE_PMA) printf("Able detect a Tx fault,"); break;
- case 12: if (device == XGE_MDIO_DEVICE_PMA) printf("Able detect an Rx fault,"); break;
- case 11: printf("Fault on Tx path,"); break;
- case 10: printf("Fault on Rx path,"); break;
- case 9: if (device == XGE_MDIO_DEVICE_PMA) printf("Extended abilities in Reg1.11,"); break;
- case 8: if (device == XGE_MDIO_DEVICE_PMA) printf("Able to disable TX,"); break;
- case 7: if (device == XGE_MDIO_DEVICE_PMA) printf("10GBASE-SR,"); break;
- case 6: if (device == XGE_MDIO_DEVICE_PMA) printf("10GBASE-LR,"); break;
- case 5: if (device == XGE_MDIO_DEVICE_PMA) printf("10GBASE-ER,"); break;
- case 4: if (device == XGE_MDIO_DEVICE_PMA) printf("10GBASE-LX4,"); break;
- case 3: if (device == XGE_MDIO_DEVICE_PMA) printf("10GBASE-SW,"); break;
- case 2: if (device == XGE_MDIO_DEVICE_PMA) printf("10GBASE-LW,"); break;
- case 1: if (device == XGE_MDIO_DEVICE_PMA) printf("10GBASE-EW,"); break;
- case 0: if (device == XGE_MDIO_DEVICE_PMA) printf("loopback,"); break;
+ case 15: if ((data & (1 << 14)) == 0) UHD_FW_TRACE_SHORT(DEBUG, "Device responding,"); break;
+ case 13: if (device == XGE_MDIO_DEVICE_PMA) UHD_FW_TRACE_SHORT(DEBUG, "Able detect a Tx fault,"); break;
+ case 12: if (device == XGE_MDIO_DEVICE_PMA) UHD_FW_TRACE_SHORT(DEBUG, "Able detect an Rx fault,"); break;
+ case 11: UHD_FW_TRACE_SHORT(DEBUG, "Fault on Tx path,"); break;
+ case 10: UHD_FW_TRACE_SHORT(DEBUG, "Fault on Rx path,"); break;
+ case 9: if (device == XGE_MDIO_DEVICE_PMA) UHD_FW_TRACE_SHORT(DEBUG, "Extended abilities in Reg1.11,"); break;
+ case 8: if (device == XGE_MDIO_DEVICE_PMA) UHD_FW_TRACE_SHORT(DEBUG, "Able to disable TX,"); break;
+ case 7: if (device == XGE_MDIO_DEVICE_PMA) UHD_FW_TRACE_SHORT(DEBUG, "10GBASE-SR,"); break;
+ case 6: if (device == XGE_MDIO_DEVICE_PMA) UHD_FW_TRACE_SHORT(DEBUG, "10GBASE-LR,"); break;
+ case 5: if (device == XGE_MDIO_DEVICE_PMA) UHD_FW_TRACE_SHORT(DEBUG, "10GBASE-ER,"); break;
+ case 4: if (device == XGE_MDIO_DEVICE_PMA) UHD_FW_TRACE_SHORT(DEBUG, "10GBASE-LX4,"); break;
+ case 3: if (device == XGE_MDIO_DEVICE_PMA) UHD_FW_TRACE_SHORT(DEBUG, "10GBASE-SW,"); break;
+ case 2: if (device == XGE_MDIO_DEVICE_PMA) UHD_FW_TRACE_SHORT(DEBUG, "10GBASE-LW,"); break;
+ case 1: if (device == XGE_MDIO_DEVICE_PMA) UHD_FW_TRACE_SHORT(DEBUG, "10GBASE-EW,"); break;
+ case 0: if (device == XGE_MDIO_DEVICE_PMA) UHD_FW_TRACE_SHORT(DEBUG, "loopback,"); break;
}
- printf(" \n");
+ UHD_FW_TRACE_SHORT(DEBUG, " \n");
break;
case XGE_MDIO_LANESTATUS:
- printf("LANE STATUS: ");
- printf("%x",data); printf(" ");
+ UHD_FW_TRACE_FSTR_SHORT(DEBUG, "LANE STATUS: %x = ", data);
for (x=15; x >= 0 ; x--)
if ((data & (1 << x)) != 0)
// Bits set.
switch(x) {
- case 12: printf("Lanes aligned,"); break;
- case 11: printf("Able to generate test patterns,"); break;
- case 3: printf("Lane 3 synced,"); break;
- case 2: printf("Lane 2 synced,"); break;
- case 1: printf("Lane 1 synced,"); break;
- case 0: printf("Lane 0 synced,"); break;
+ case 12: UHD_FW_TRACE_SHORT(DEBUG, "Lanes aligned,"); break;
+ case 11: UHD_FW_TRACE_SHORT(DEBUG, "Able to generate test patterns,"); break;
+ case 3: UHD_FW_TRACE_SHORT(DEBUG, "Lane 3 synced,"); break;
+ case 2: UHD_FW_TRACE_SHORT(DEBUG, "Lane 2 synced,"); break;
+ case 1: UHD_FW_TRACE_SHORT(DEBUG, "Lane 1 synced,"); break;
+ case 0: UHD_FW_TRACE_SHORT(DEBUG, "Lane 0 synced,"); break;
} else
// Bits clear
switch(x) {
- case 3: printf("Lane 3 not synced,"); break;
- case 2: printf("Lane 2 not synced,"); break;
- case 1: printf("Lane 1 not synced,"); break;
- case 0: printf("Lane 0 not synced,"); break;
+ case 3: UHD_FW_TRACE_SHORT(DEBUG, "Lane 3 not synced,"); break;
+ case 2: UHD_FW_TRACE_SHORT(DEBUG, "Lane 2 not synced,"); break;
+ case 1: UHD_FW_TRACE_SHORT(DEBUG, "Lane 1 not synced,"); break;
+ case 0: UHD_FW_TRACE_SHORT(DEBUG, "Lane 0 not synced,"); break;
}
- printf(" \n");
+ UHD_FW_TRACE_SHORT(DEBUG, " \n");
break;
case XILINX_CORE_VERSION:
- printf("XILINX CORE VERSION: %x ",data);
- printf("Version: %d.%d ",(data&0xf000)>>12,(data&0xf00)>>8);
- printf("Patch: %d ",(data&0xE)>>1);
- if (data&0x1) printf("Evaluation Version of core");
- printf("\n");
+ UHD_FW_TRACE_FSTR_SHORT(DEBUG, "XILINX CORE VERSION: %x ",data);
+ UHD_FW_TRACE_FSTR_SHORT(DEBUG, "Version: %d.%d ",((data&0xf000)>>12),((data&0xf00)>>8));
+ UHD_FW_TRACE_FSTR_SHORT(DEBUG, "Patch: %d ",((data&0xE)>>1));
+ UHD_FW_TRACE_SHORT(DEBUG, " \n");
+ if (data&0x1) UHD_FW_TRACE(WARN, "Evaluation Version of core");
break;
default:
- printf("Register @ address: ");
- printf("%x",address);
- printf(" has value: ");
- printf("%x\n",data);
+ UHD_FW_TRACE_SHORT(DEBUG, "Register @ address: ");
+ UHD_FW_TRACE_FSTR_SHORT(DEBUG, "%x",address);
+ UHD_FW_TRACE_SHORT(DEBUG, " has value: ");
+ UHD_FW_TRACE_FSTR_SHORT(DEBUG, "%x\n",data);
break;
}
}
@@ -605,7 +604,6 @@ dump_mdio_regs(const uint8_t eth, uint32_t mdio_port)
unsigned int regs_a[9] = {0,1,4,5,6,7,8,32,33};
unsigned int regs_b[10] = {0,1,4,5,6,7,8,10,11,65535};
- printf("\n");
for (y = 0; y < 10; y++)
{
@@ -621,7 +619,6 @@ dump_mdio_regs(const uint8_t eth, uint32_t mdio_port)
decode_reg(regs_a[y],XGE_MDIO_DEVICE_PCS,x);
}
- printf("\n");
/* for (y = 0; y < 8; y++) */
/* { */