d/freebsd-dev
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity
329327e272
freebsd-dev/sys/contrib/octeon-sdk/cvmx-qlm-tables.c
Juli Mallett dc4ee6ca91 Merge the Cavium Octeon SDK 2.3.0 Simple Executive code and update FreeBSD to 
make use of it where possible.

This primarily brings in support for newer hardware, and FreeBSD is not yet
able to support the abundance of IRQs on new hardware and many features in the
Ethernet driver.

Because of the changes to IRQs in the Simple Executive, we have to maintain our
own list of Octeon IRQs now, which probably can be pared-down and be specific
to the CIU interrupt unit soon, and when other interrupt mechanisms are added
they can maintain their own definitions.

Remove unmasking of interrupts from within the UART device now that the
function used is no longer present in the Simple Executive.  The unmasking
seems to have been gratuitous as this is more properly handled by the buses
above the UART device, and seems to work on that basis.
2012-03-11 06:17:49 +00:00

446 lines
35 KiB
C
Raw Blame History

#ifdef CVMX_BUILD_FOR_LINUX_KERNEL
#include <asm/octeon/cvmx.h>
#include <asm/octeon/cvmx-qlm.h>
#else
#if !defined(__FreeBSD__) || !defined(_KERNEL)
#include <cvmx.h>
#include <cvmx-qlm.h>
#else
#include "cvmx.h"
#include "cvmx-qlm.h"
#endif
#endif
const __cvmx_qlm_jtag_field_t __cvmx_qlm_jtag_field_cn56xx[] =
{
{"prbs_error_count", 267, 220}, // BIST/PRBS error count (only valid if pbrs_lock asserted)
{"prbs_unlock_count", 219, 212}, // BIST/PRBS unlock count (only valid if pbrs_lock asserted)
{"prbs_locked", 211, 211}, // BIST/PRBS lock (asserted after QLM achieves lock)
{"reset_prbs", 210, 210}, // BIST/PRBS reset (write 0 to reset)
{"run_prbs", 209, 209}, // run PRBS test pattern
{"run_bist", 208, 208}, // run bist (May only work for PCIe ?)
{"unknown", 207, 202}, //
{"biasdrvsel", 201, 199}, // assign biasdrvsel = fus_cfg_reg[201:199] ^ jtg_cfg_reg[201:199] ^ ((pi_qlm_cfg == 2'h0) ? 3'h4 : (pi_qlm_cfg == 2'h2) ? 3'h7 : 3'h2);
{"biasbuffsel", 198, 196}, // assign biasbuffsel = fus_cfg_reg[198:196] ^ jtg_cfg_reg[198:196] ^ 3'h4;
{"tcoeff", 195, 192}, // assign tcoeff = fus_cfg_reg[195:192] ^ jtg_cfg_reg[195:192] ^ (pi_qlm_cfg[1] ? 4'h0 : 4'hc);
{"mb5000", 181, 181}, // assign mb5000 = fus_cfg_reg[181] ^ jtg_cfg_reg[181] ^ 1'h0;
{"interpbw", 180, 176}, // assign interpbw = fus_cfg_reg[180:176] ^ jtg_cfg_reg[180:176] ^ ((qlm_spd == 2'h0) ? 5'h1f : (qlm_spd == 2'h1) ? 5'h10 : 5'h0);
{"mb", 175, 172}, // assign mb = fus_cfg_reg[175:172] ^ jtg_cfg_reg[175:172] ^ 4'h0;
{"bwoff", 171, 160}, // assign bwoff = fus_cfg_reg[171:160] ^ jtg_cfg_reg[171:160] ^ 12'h0;
{"bg_ref_sel", 153, 153}, // assign bg_ref_sel = fus_cfg_reg[153] ^ jtg_cfg_reg[153] ^ 1'h0;
{"div2en", 152, 152}, // assign div2en = fus_cfg_reg[152] ^ jtg_cfg_reg[152] ^ 1'h0;
{"trimen", 151, 150}, // assign trimen = fus_cfg_reg[151:150] ^ jtg_cfg_reg[151:150] ^ 2'h0;
{"clkr", 149, 144}, // assign clkr = fus_cfg_reg[149:144] ^ jtg_cfg_reg[149:144] ^ 6'h0;
{"clkf", 143, 132}, // assign clkf = fus_cfg_reg[143:132] ^ jtg_cfg_reg[143:132] ^ 12'h18;
{"bwadj", 131, 120}, // assign bwadj = fus_cfg_reg[131:120] ^ jtg_cfg_reg[131:120] ^ 12'h30;
{"shlpbck", 119, 118}, // assign shlpbck = fus_cfg_reg[119:118] ^ jtg_cfg_reg[119:118] ^ 2'h0;
{"serdes_pll_byp", 117, 117}, // assign serdes_pll_byp = fus_cfg_reg[117] ^ jtg_cfg_reg[117] ^ 1'h0;
{"ic50dac", 116, 112}, // assign ic50dac = fus_cfg_reg[116:112] ^ jtg_cfg_reg[116:112] ^ 5'h11;
{"sl_posedge_sample", 111, 111}, // assign sl_posedge_sample = fus_cfg_reg[111] ^ jtg_cfg_reg[111] ^ 1'h0;
{"sl_enable", 110, 110}, // assign sl_enable = fus_cfg_reg[110] ^ jtg_cfg_reg[110] ^ 1'h0;
{"rx_rout_comp_bypass", 109, 109}, // assign rx_rout_comp_bypass = fus_cfg_reg[109] ^ jtg_cfg_reg[109] ^ 1'h0;
{"ir50dac", 108, 104}, // assign ir50dac = fus_cfg_reg[108:104] ^ jtg_cfg_reg[108:104] ^ 5'h11;
{"rx_res_offset", 103, 100}, // assign rx_res_offset = fus_cfg_reg[103:100] ^ jtg_cfg_reg[103:100] ^ 4'h2;
{"rx_rout_comp_value", 99, 96}, // assign rx_rout_comp_value = fus_cfg_reg[99:96] ^ jtg_cfg_reg[99:96] ^ 4'h7;
{"tx_rout_comp_value", 95, 92}, // assign tx_rout_comp_value = fus_cfg_reg[95:92] ^ jtg_cfg_reg[95:92] ^ 4'h7;
{"tx_res_offset", 91, 88}, // assign tx_res_offset = fus_cfg_reg[91:88] ^ jtg_cfg_reg[91:88] ^ 4'h1;
{"tx_rout_comp_bypass", 87, 87}, // assign tx_rout_comp_bypass = fus_cfg_reg[87] ^ jtg_cfg_reg[87] ^ 1'h0;
{"idle_dac", 86, 84}, // assign idle_dac = fus_cfg_reg[86:84] ^ jtg_cfg_reg[86:84] ^ 3'h4;
{"hyst_en", 83, 83}, // assign hyst_en = fus_cfg_reg[83] ^ jtg_cfg_reg[83] ^ 1'h1;
{"rndt", 82, 82}, // assign rndt = fus_cfg_reg[82] ^ jtg_cfg_reg[82] ^ 1'h0;
{"cfg_tx_com", 79, 79}, // CN52XX cfg_tx_com = fus_cfg_reg[79] ^ jtg_cfg_reg[79] ^ 1'h0;
{"cfg_cdr_errcor", 78, 78}, // CN52XX cfg_cdr_errcor = fus_cfg_reg[78] ^ jtg_cfg_reg[78] ^ 1'h0;
{"cfg_cdr_secord", 77, 77}, // CN52XX cfg_cdr_secord = fus_cfg_reg[77] ^ jtg_cfg_reg[77] ^ 1'h1;
{"cfg_cdr_rotate", 76, 76}, // assign cfg_cdr_rotate = fus_cfg_reg[76] ^ jtg_cfg_reg[76] ^ 1'h0;
{"cfg_cdr_rqoffs", 75, 68}, // assign cfg_cdr_rqoffs = fus_cfg_reg[75:68] ^ jtg_cfg_reg[75:68] ^ 8'h40;
{"cfg_cdr_incx", 67, 64}, // assign cfg_cdr_incx = fus_cfg_reg[67:64] ^ jtg_cfg_reg[67:64] ^ 4'h2;
{"cfg_cdr_state", 63, 56}, // assign cfg_cdr_state = fus_cfg_reg[63:56] ^ jtg_cfg_reg[63:56] ^ 8'h0;
{"cfg_cdr_bypass", 55, 55}, // assign cfg_cdr_bypass = fus_cfg_reg[55] ^ jtg_cfg_reg[55] ^ 1'h0;
{"cfg_tx_byp", 54, 54}, // assign cfg_tx_byp = fus_cfg_reg[54] ^ jtg_cfg_reg[54] ^ 1'h0;
{"cfg_tx_val", 53, 44}, // assign cfg_tx_val = fus_cfg_reg[53:44] ^ jtg_cfg_reg[53:44] ^ 10'h0;
{"cfg_rx_pol_set", 43, 43}, // assign cfg_rx_pol_set = fus_cfg_reg[43] ^ jtg_cfg_reg[43] ^ 1'h0;
{"cfg_rx_pol_clr", 42, 42}, // assign cfg_rx_pol_clr = fus_cfg_reg[42] ^ jtg_cfg_reg[42] ^ 1'h0;
{"cfg_cdr_bw_ctl", 41, 40}, // assign cfg_cdr_bw_ctl = fus_cfg_reg[41:40] ^ jtg_cfg_reg[41:40] ^ 2'h0;
{"cfg_rst_n_set", 39, 39}, // assign cfg_rst_n_set = fus_cfg_reg[39] ^ jtg_cfg_reg[39] ^ 1'h0;
{"cfg_rst_n_clr", 38, 38}, // assign cfg_rst_n_clr = fus_cfg_reg[38] ^ jtg_cfg_reg[38] ^ 1'h0;
{"cfg_tx_clk2", 37, 37}, // assign cfg_tx_clk2 = fus_cfg_reg[37] ^ jtg_cfg_reg[37] ^ 1'h0;
{"cfg_tx_clk1", 36, 36}, // assign cfg_tx_clk1 = fus_cfg_reg[36] ^ jtg_cfg_reg[36] ^ 1'h0;
{"cfg_tx_pol_set", 35, 35}, // assign cfg_tx_pol_set = fus_cfg_reg[35] ^ jtg_cfg_reg[35] ^ 1'h0;
{"cfg_tx_pol_clr", 34, 34}, // assign cfg_tx_pol_clr = fus_cfg_reg[34] ^ jtg_cfg_reg[34] ^ 1'h0;
{"cfg_tx_one", 33, 33}, // assign cfg_tx_one = fus_cfg_reg[33] ^ jtg_cfg_reg[33] ^ 1'h0;
{"cfg_tx_zero", 32, 32}, // assign cfg_tx_zero = fus_cfg_reg[32] ^ jtg_cfg_reg[32] ^ 1'h0;
{"cfg_rxd_wait", 31, 28}, // assign cfg_rxd_wait = fus_cfg_reg[31:28] ^ jtg_cfg_reg[31:28] ^ 4'h3;
{"cfg_rxd_short", 27, 27}, // assign cfg_rxd_short = fus_cfg_reg[27] ^ jtg_cfg_reg[27] ^ 1'h0;
{"cfg_rxd_set", 26, 26}, // assign cfg_rxd_set = fus_cfg_reg[26] ^ jtg_cfg_reg[26] ^ 1'h0;
{"cfg_rxd_clr", 25, 25}, // assign cfg_rxd_clr = fus_cfg_reg[25] ^ jtg_cfg_reg[25] ^ 1'h0;
{"cfg_loopback", 24, 24}, // assign cfg_loopback = fus_cfg_reg[24] ^ jtg_cfg_reg[24] ^ 1'h0;
{"cfg_tx_idle_set", 23, 23}, // assign cfg_tx_idle_set = fus_cfg_reg[23] ^ jtg_cfg_reg[23] ^ 1'h0;
{"cfg_tx_idle_clr", 22, 22}, // assign cfg_tx_idle_clr = fus_cfg_reg[22] ^ jtg_cfg_reg[22] ^ 1'h0;
{"cfg_rx_idle_set", 21, 21}, // assign cfg_rx_idle_set = fus_cfg_reg[21] ^ jtg_cfg_reg[21] ^ 1'h0;
{"cfg_rx_idle_clr", 20, 20}, // assign cfg_rx_idle_clr = fus_cfg_reg[20] ^ jtg_cfg_reg[20] ^ 1'h0;
{"cfg_rx_idle_thr", 19, 16}, // assign cfg_rx_idle_thr = fus_cfg_reg[19:16] ^ jtg_cfg_reg[19:16] ^ 4'h0;
{"cfg_com_thr", 15, 12}, // assign cfg_com_thr = fus_cfg_reg[15:12] ^ jtg_cfg_reg[15:12] ^ 4'h3;
{"cfg_rx_offset", 11, 8}, // assign cfg_rx_offset = fus_cfg_reg[11:8] ^ jtg_cfg_reg[11:8] ^ 4'h4;
{"cfg_skp_max", 7, 4}, // assign cfg_skp_max = fus_cfg_reg[7:4] ^ jtg_cfg_reg[7:4] ^ 4'hc;
{"cfg_skp_min", 3, 0}, // assign cfg_skp_min = fus_cfg_reg[3:0] ^ jtg_cfg_reg[3:0] ^ 4'h4;
{NULL, -1, -1}
};
const __cvmx_qlm_jtag_field_t __cvmx_qlm_jtag_field_cn52xx[] =
{
{"prbs_error_count", 267, 220}, // BIST/PRBS error count (only valid if pbrs_lock asserted)
{"prbs_unlock_count", 219, 212}, // BIST/PRBS unlock count (only valid if pbrs_lock asserted)
{"prbs_locked", 211, 211}, // BIST/PRBS lock (asserted after QLM achieves lock)
{"reset_prbs", 210, 210}, // BIST/PRBS reset (write 0 to reset)
{"run_prbs", 209, 209}, // run PRBS test pattern
{"run_bist", 208, 208}, // run bist (May only work for PCIe ?)
{"unknown", 207, 202}, //
{"biasdrvsel", 201, 199}, // assign biasdrvsel = fus_cfg_reg[201:199] ^ jtg_cfg_reg[201:199] ^ ((pi_qlm_cfg == 2'h0) ? 3'h4 : (pi_qlm_cfg == 2'h2) ? 3'h7 : 3'h2);
{"biasbuffsel", 198, 196}, // assign biasbuffsel = fus_cfg_reg[198:196] ^ jtg_cfg_reg[198:196] ^ 3'h4;
{"tcoeff", 195, 192}, // assign tcoeff = fus_cfg_reg[195:192] ^ jtg_cfg_reg[195:192] ^ (pi_qlm_cfg[1] ? 4'h0 : 4'hc);
{"mb5000", 181, 181}, // assign mb5000 = fus_cfg_reg[181] ^ jtg_cfg_reg[181] ^ 1'h0;
{"interpbw", 180, 176}, // assign interpbw = fus_cfg_reg[180:176] ^ jtg_cfg_reg[180:176] ^ ((qlm_spd == 2'h0) ? 5'h1f : (qlm_spd == 2'h1) ? 5'h10 : 5'h0);
{"mb", 175, 172}, // assign mb = fus_cfg_reg[175:172] ^ jtg_cfg_reg[175:172] ^ 4'h0;
{"bwoff", 171, 160}, // assign bwoff = fus_cfg_reg[171:160] ^ jtg_cfg_reg[171:160] ^ 12'h0;
{"bg_ref_sel", 153, 153}, // assign bg_ref_sel = fus_cfg_reg[153] ^ jtg_cfg_reg[153] ^ 1'h0;
{"div2en", 152, 152}, // assign div2en = fus_cfg_reg[152] ^ jtg_cfg_reg[152] ^ 1'h0;
{"trimen", 151, 150}, // assign trimen = fus_cfg_reg[151:150] ^ jtg_cfg_reg[151:150] ^ 2'h0;
{"clkr", 149, 144}, // assign clkr = fus_cfg_reg[149:144] ^ jtg_cfg_reg[149:144] ^ 6'h0;
{"clkf", 143, 132}, // assign clkf = fus_cfg_reg[143:132] ^ jtg_cfg_reg[143:132] ^ 12'h18;
{"bwadj", 131, 120}, // assign bwadj = fus_cfg_reg[131:120] ^ jtg_cfg_reg[131:120] ^ 12'h30;
{"shlpbck", 119, 118}, // assign shlpbck = fus_cfg_reg[119:118] ^ jtg_cfg_reg[119:118] ^ 2'h0;
{"serdes_pll_byp", 117, 117}, // assign serdes_pll_byp = fus_cfg_reg[117] ^ jtg_cfg_reg[117] ^ 1'h0;
{"ic50dac", 116, 112}, // assign ic50dac = fus_cfg_reg[116:112] ^ jtg_cfg_reg[116:112] ^ 5'h11;
{"sl_posedge_sample", 111, 111}, // assign sl_posedge_sample = fus_cfg_reg[111] ^ jtg_cfg_reg[111] ^ 1'h0;
{"sl_enable", 110, 110}, // assign sl_enable = fus_cfg_reg[110] ^ jtg_cfg_reg[110] ^ 1'h0;
{"rx_rout_comp_bypass", 109, 109}, // assign rx_rout_comp_bypass = fus_cfg_reg[109] ^ jtg_cfg_reg[109] ^ 1'h0;
{"ir50dac", 108, 104}, // assign ir50dac = fus_cfg_reg[108:104] ^ jtg_cfg_reg[108:104] ^ 5'h11;
{"rx_res_offset", 103, 100}, // assign rx_res_offset = fus_cfg_reg[103:100] ^ jtg_cfg_reg[103:100] ^ 4'h2;
{"rx_rout_comp_value", 99, 96}, // assign rx_rout_comp_value = fus_cfg_reg[99:96] ^ jtg_cfg_reg[99:96] ^ 4'h7;
{"tx_rout_comp_value", 95, 92}, // assign tx_rout_comp_value = fus_cfg_reg[95:92] ^ jtg_cfg_reg[95:92] ^ 4'h7;
{"tx_res_offset", 91, 88}, // assign tx_res_offset = fus_cfg_reg[91:88] ^ jtg_cfg_reg[91:88] ^ 4'h1;
{"tx_rout_comp_bypass", 87, 87}, // assign tx_rout_comp_bypass = fus_cfg_reg[87] ^ jtg_cfg_reg[87] ^ 1'h0;
{"idle_dac", 86, 84}, // assign idle_dac = fus_cfg_reg[86:84] ^ jtg_cfg_reg[86:84] ^ 3'h4;
{"hyst_en", 83, 83}, // assign hyst_en = fus_cfg_reg[83] ^ jtg_cfg_reg[83] ^ 1'h1;
{"rndt", 82, 82}, // assign rndt = fus_cfg_reg[82] ^ jtg_cfg_reg[82] ^ 1'h0;
{"cfg_tx_com", 79, 79}, // CN52XX cfg_tx_com = fus_cfg_reg[79] ^ jtg_cfg_reg[79] ^ 1'h0;
{"cfg_cdr_errcor", 78, 78}, // CN52XX cfg_cdr_errcor = fus_cfg_reg[78] ^ jtg_cfg_reg[78] ^ 1'h0;
{"cfg_cdr_secord", 77, 77}, // CN52XX cfg_cdr_secord = fus_cfg_reg[77] ^ jtg_cfg_reg[77] ^ 1'h1;
{"cfg_cdr_rotate", 76, 76}, // assign cfg_cdr_rotate = fus_cfg_reg[76] ^ jtg_cfg_reg[76] ^ 1'h0;
{"cfg_cdr_rqoffs", 75, 68}, // assign cfg_cdr_rqoffs = fus_cfg_reg[75:68] ^ jtg_cfg_reg[75:68] ^ 8'h40;
{"cfg_cdr_incx", 67, 64}, // assign cfg_cdr_incx = fus_cfg_reg[67:64] ^ jtg_cfg_reg[67:64] ^ 4'h2;
{"cfg_cdr_state", 63, 56}, // assign cfg_cdr_state = fus_cfg_reg[63:56] ^ jtg_cfg_reg[63:56] ^ 8'h0;
{"cfg_cdr_bypass", 55, 55}, // assign cfg_cdr_bypass = fus_cfg_reg[55] ^ jtg_cfg_reg[55] ^ 1'h0;
{"cfg_tx_byp", 54, 54}, // assign cfg_tx_byp = fus_cfg_reg[54] ^ jtg_cfg_reg[54] ^ 1'h0;
{"cfg_tx_val", 53, 44}, // assign cfg_tx_val = fus_cfg_reg[53:44] ^ jtg_cfg_reg[53:44] ^ 10'h0;
{"cfg_rx_pol_set", 43, 43}, // assign cfg_rx_pol_set = fus_cfg_reg[43] ^ jtg_cfg_reg[43] ^ 1'h0;
{"cfg_rx_pol_clr", 42, 42}, // assign cfg_rx_pol_clr = fus_cfg_reg[42] ^ jtg_cfg_reg[42] ^ 1'h0;
{"cfg_cdr_bw_ctl", 41, 40}, // assign cfg_cdr_bw_ctl = fus_cfg_reg[41:40] ^ jtg_cfg_reg[41:40] ^ 2'h0;
{"cfg_rst_n_set", 39, 39}, // assign cfg_rst_n_set = fus_cfg_reg[39] ^ jtg_cfg_reg[39] ^ 1'h0;
{"cfg_rst_n_clr", 38, 38}, // assign cfg_rst_n_clr = fus_cfg_reg[38] ^ jtg_cfg_reg[38] ^ 1'h0;
{"cfg_tx_clk2", 37, 37}, // assign cfg_tx_clk2 = fus_cfg_reg[37] ^ jtg_cfg_reg[37] ^ 1'h0;
{"cfg_tx_clk1", 36, 36}, // assign cfg_tx_clk1 = fus_cfg_reg[36] ^ jtg_cfg_reg[36] ^ 1'h0;
{"cfg_tx_pol_set", 35, 35}, // assign cfg_tx_pol_set = fus_cfg_reg[35] ^ jtg_cfg_reg[35] ^ 1'h0;
{"cfg_tx_pol_clr", 34, 34}, // assign cfg_tx_pol_clr = fus_cfg_reg[34] ^ jtg_cfg_reg[34] ^ 1'h0;
{"cfg_tx_one", 33, 33}, // assign cfg_tx_one = fus_cfg_reg[33] ^ jtg_cfg_reg[33] ^ 1'h0;
{"cfg_tx_zero", 32, 32}, // assign cfg_tx_zero = fus_cfg_reg[32] ^ jtg_cfg_reg[32] ^ 1'h0;
{"cfg_rxd_wait", 31, 28}, // assign cfg_rxd_wait = fus_cfg_reg[31:28] ^ jtg_cfg_reg[31:28] ^ 4'h3;
{"cfg_rxd_short", 27, 27}, // assign cfg_rxd_short = fus_cfg_reg[27] ^ jtg_cfg_reg[27] ^ 1'h0;
{"cfg_rxd_set", 26, 26}, // assign cfg_rxd_set = fus_cfg_reg[26] ^ jtg_cfg_reg[26] ^ 1'h0;
{"cfg_rxd_clr", 25, 25}, // assign cfg_rxd_clr = fus_cfg_reg[25] ^ jtg_cfg_reg[25] ^ 1'h0;
{"cfg_loopback", 24, 24}, // assign cfg_loopback = fus_cfg_reg[24] ^ jtg_cfg_reg[24] ^ 1'h0;
{"cfg_tx_idle_set", 23, 23}, // assign cfg_tx_idle_set = fus_cfg_reg[23] ^ jtg_cfg_reg[23] ^ 1'h0;
{"cfg_tx_idle_clr", 22, 22}, // assign cfg_tx_idle_clr = fus_cfg_reg[22] ^ jtg_cfg_reg[22] ^ 1'h0;
{"cfg_rx_idle_set", 21, 21}, // assign cfg_rx_idle_set = fus_cfg_reg[21] ^ jtg_cfg_reg[21] ^ 1'h0;
{"cfg_rx_idle_clr", 20, 20}, // assign cfg_rx_idle_clr = fus_cfg_reg[20] ^ jtg_cfg_reg[20] ^ 1'h0;
{"cfg_rx_idle_thr", 19, 16}, // assign cfg_rx_idle_thr = fus_cfg_reg[19:16] ^ jtg_cfg_reg[19:16] ^ 4'h0;
{"cfg_com_thr", 15, 12}, // assign cfg_com_thr = fus_cfg_reg[15:12] ^ jtg_cfg_reg[15:12] ^ 4'h3;
{"cfg_rx_offset", 11, 8}, // assign cfg_rx_offset = fus_cfg_reg[11:8] ^ jtg_cfg_reg[11:8] ^ 4'h4;
{"cfg_skp_max", 7, 4}, // assign cfg_skp_max = fus_cfg_reg[7:4] ^ jtg_cfg_reg[7:4] ^ 4'hc;
{"cfg_skp_min", 3, 0}, // assign cfg_skp_min = fus_cfg_reg[3:0] ^ jtg_cfg_reg[3:0] ^ 4'h4;
{NULL, -1, -1}
};
const __cvmx_qlm_jtag_field_t __cvmx_qlm_jtag_field_cn63xx[] =
{
{"prbs_err_cnt", 299, 252}, // prbs_err_cnt[47..0]
{"prbs_lock", 251, 251}, // prbs_lock
{"jtg_prbs_rst_n", 250, 250}, // jtg_prbs_rst_n
{"jtg_run_prbs31", 249, 249}, // jtg_run_prbs31
{"jtg_run_prbs7", 248, 248}, // jtg_run_prbs7
{"Unused1", 247, 245}, // 0
{"cfg_pwrup_set", 244, 244}, // cfg_pwrup_set
{"cfg_pwrup_clr", 243, 243}, // cfg_pwrup_clr
{"cfg_rst_n_set", 242, 242}, // cfg_rst_n_set
{"cfg_rst_n_clr", 241, 241}, // cfg_rst_n_clr
{"cfg_tx_idle_set", 240, 240}, // cfg_tx_idle_set
{"cfg_tx_idle_clr", 239, 239}, // cfg_tx_idle_clr
{"cfg_tx_byp", 238, 238}, // cfg_tx_byp
{"cfg_tx_byp_inv", 237, 237}, // cfg_tx_byp_inv
{"cfg_tx_byp_val", 236, 227}, // cfg_tx_byp_val[9..0]
{"cfg_loopback", 226, 226}, // cfg_loopback
{"shlpbck", 225, 224}, // shlpbck[1..0]
{"sl_enable", 223, 223}, // sl_enable
{"sl_posedge_sample", 222, 222}, // sl_posedge_sample
{"trimen", 221, 220}, // trimen[1..0]
{"serdes_tx_byp", 219, 219}, // serdes_tx_byp
{"serdes_pll_byp", 218, 218}, // serdes_pll_byp
{"lowf_byp", 217, 217}, // lowf_byp
{"spdsel_byp", 216, 216}, // spdsel_byp
{"div4_byp", 215, 215}, // div4_byp
{"clkf_byp", 214, 208}, // clkf_byp[6..0]
{"Unused2", 207, 206}, // 0
{"biasdrv_hs_ls_byp", 205, 201}, // biasdrv_hs_ls_byp[4..0]
{"tcoeff_hf_ls_byp", 200, 197}, // tcoeff_hf_ls_byp[3..0]
{"biasdrv_hf_byp", 196, 192}, // biasdrv_hf_byp[4..0]
{"tcoeff_hf_byp", 191, 188}, // tcoeff_hf_byp[3..0]
{"Unused3", 187, 186}, // 0
{"biasdrv_lf_ls_byp", 185, 181}, // biasdrv_lf_ls_byp[4..0]
{"tcoeff_lf_ls_byp", 180, 177}, // tcoeff_lf_ls_byp[3..0]
{"biasdrv_lf_byp", 176, 172}, // biasdrv_lf_byp[4..0]
{"tcoeff_lf_byp", 171, 168}, // tcoeff_lf_byp[3..0]
{"Unused4", 167, 167}, // 0
{"interpbw", 166, 162}, // interpbw[4..0]
{"pll_cpb", 161, 159}, // pll_cpb[2..0]
{"pll_cps", 158, 156}, // pll_cps[2..0]
{"pll_diffamp", 155, 152}, // pll_diffamp[3..0]
{"Unused5", 151, 150}, // 0
{"cfg_rx_idle_set", 149, 149}, // cfg_rx_idle_set
{"cfg_rx_idle_clr", 148, 148}, // cfg_rx_idle_clr
{"cfg_rx_idle_thr", 147, 144}, // cfg_rx_idle_thr[3..0]
{"cfg_com_thr", 143, 140}, // cfg_com_thr[3..0]
{"cfg_rx_offset", 139, 136}, // cfg_rx_offset[3..0]
{"cfg_skp_max", 135, 132}, // cfg_skp_max[3..0]
{"cfg_skp_min", 131, 128}, // cfg_skp_min[3..0]
{"cfg_fast_pwrup", 127, 127}, // cfg_fast_pwrup
{"Unused6", 126, 100}, // 0
{"detected_n", 99, 99}, // detected_n
{"detected_p", 98, 98}, // detected_p
{"dbg_res_rx", 97, 94}, // dbg_res_rx[3..0]
{"dbg_res_tx", 93, 90}, // dbg_res_tx[3..0]
{"cfg_tx_pol_set", 89, 89}, // cfg_tx_pol_set
{"cfg_tx_pol_clr", 88, 88}, // cfg_tx_pol_clr
{"cfg_rx_pol_set", 87, 87}, // cfg_rx_pol_set
{"cfg_rx_pol_clr", 86, 86}, // cfg_rx_pol_clr
{"cfg_rxd_set", 85, 85}, // cfg_rxd_set
{"cfg_rxd_clr", 84, 84}, // cfg_rxd_clr
{"cfg_rxd_wait", 83, 80}, // cfg_rxd_wait[3..0]
{"cfg_cdr_limit", 79, 79}, // cfg_cdr_limit
{"cfg_cdr_rotate", 78, 78}, // cfg_cdr_rotate
{"cfg_cdr_bw_ctl", 77, 76}, // cfg_cdr_bw_ctl[1..0]
{"cfg_cdr_trunc", 75, 74}, // cfg_cdr_trunc[1..0]
{"cfg_cdr_rqoffs", 73, 64}, // cfg_cdr_rqoffs[9..0]
{"cfg_cdr_inc2", 63, 58}, // cfg_cdr_inc2[5..0]
{"cfg_cdr_inc1", 57, 52}, // cfg_cdr_inc1[5..0]
{"fusopt_voter_sync", 51, 51}, // fusopt_voter_sync
{"rndt", 50, 50}, // rndt
{"hcya", 49, 49}, // hcya
{"hyst", 48, 48}, // hyst
{"idle_dac", 47, 45}, // idle_dac[2..0]
{"bg_ref_sel", 44, 44}, // bg_ref_sel
{"ic50dac", 43, 39}, // ic50dac[4..0]
{"ir50dac", 38, 34}, // ir50dac[4..0]
{"tx_rout_comp_bypass", 33, 33}, // tx_rout_comp_bypass
{"tx_rout_comp_value", 32, 29}, // tx_rout_comp_value[3..0]
{"tx_res_offset", 28, 25}, // tx_res_offset[3..0]
{"rx_rout_comp_bypass", 24, 24}, // rx_rout_comp_bypass
{"rx_rout_comp_value", 23, 20}, // rx_rout_comp_value[3..0]
{"rx_res_offset", 19, 16}, // rx_res_offset[3..0]
{"rx_cap_gen2", 15, 12}, // rx_cap_gen2[3..0]
{"rx_eq_gen2", 11, 8}, // rx_eq_gen2[3..0]
{"rx_cap_gen1", 7, 4}, // rx_cap_gen1[3..0]
{"rx_eq_gen1", 3, 0}, // rx_eq_gen1[3..0]
{NULL, -1, -1}
};
const __cvmx_qlm_jtag_field_t __cvmx_qlm_jtag_field_cn66xx[] =
{
{"prbs_err_cnt", 303, 256}, // prbs_err_cnt[47..0]
{"prbs_lock", 255, 255}, // prbs_lock
{"jtg_prbs_rx_rst_n", 254, 254}, // jtg_prbs_rx_rst_n
{"jtg_prbs_tx_rst_n", 253, 253}, // jtg_prbs_tx_rst_n
{"jtg_prbs_mode", 252, 251}, // jtg_prbs_mode[252:251]
{"jtg_prbs_rst_n", 250, 250}, // jtg_prbs_rst_n
{"jtg_run_prbs31", 249, 249}, // jtg_run_prbs31 - Use jtg_prbs_mode instead
{"jtg_run_prbs7", 248, 248}, // jtg_run_prbs7 - Use jtg_prbs_mode instead
{"Unused1", 247, 246}, // 0
{"div5_byp", 245, 245}, // div5_byp
{"cfg_pwrup_set", 244, 244}, // cfg_pwrup_set
{"cfg_pwrup_clr", 243, 243}, // cfg_pwrup_clr
{"cfg_rst_n_set", 242, 242}, // cfg_rst_n_set
{"cfg_rst_n_clr", 241, 241}, // cfg_rst_n_clr
{"cfg_tx_idle_set", 240, 240}, // cfg_tx_idle_set
{"cfg_tx_idle_clr", 239, 239}, // cfg_tx_idle_clr
{"cfg_tx_byp", 238, 238}, // cfg_tx_byp
{"cfg_tx_byp_inv", 237, 237}, // cfg_tx_byp_inv
{"cfg_tx_byp_val", 236, 227}, // cfg_tx_byp_val[9..0]
{"cfg_loopback", 226, 226}, // cfg_loopback
{"shlpbck", 225, 224}, // shlpbck[1..0]
{"sl_enable", 223, 223}, // sl_enable
{"sl_posedge_sample", 222, 222}, // sl_posedge_sample
{"trimen", 221, 220}, // trimen[1..0]
{"serdes_tx_byp", 219, 219}, // serdes_tx_byp
{"serdes_pll_byp", 218, 218}, // serdes_pll_byp
{"lowf_byp", 217, 217}, // lowf_byp
{"spdsel_byp", 216, 216}, // spdsel_byp
{"div4_byp", 215, 215}, // div4_byp
{"clkf_byp", 214, 208}, // clkf_byp[6..0]
{"biasdrv_hs_ls_byp", 207, 203}, // biasdrv_hs_ls_byp[4..0]
{"tcoeff_hf_ls_byp", 202, 198}, // tcoeff_hf_ls_byp[4..0]
{"biasdrv_hf_byp", 197, 193}, // biasdrv_hf_byp[4..0]
{"tcoeff_hf_byp", 192, 188}, // tcoeff_hf_byp[4..0]
{"biasdrv_lf_ls_byp", 187, 183}, // biasdrv_lf_ls_byp[4..0]
{"tcoeff_lf_ls_byp", 182, 178}, // tcoeff_lf_ls_byp[4..0]
{"biasdrv_lf_byp", 177, 173}, // biasdrv_lf_byp[4..0]
{"tcoeff_lf_byp", 172, 168}, // tcoeff_lf_byp[4..0]
{"Unused4", 167, 167}, // 0
{"interpbw", 166, 162}, // interpbw[4..0]
{"pll_cpb", 161, 159}, // pll_cpb[2..0]
{"pll_cps", 158, 156}, // pll_cps[2..0]
{"pll_diffamp", 155, 152}, // pll_diffamp[3..0]
{"cfg_err_thr", 151, 150}, // cfg_err_thr
{"cfg_rx_idle_set", 149, 149}, // cfg_rx_idle_set
{"cfg_rx_idle_clr", 148, 148}, // cfg_rx_idle_clr
{"cfg_rx_idle_thr", 147, 144}, // cfg_rx_idle_thr[3..0]
{"cfg_com_thr", 143, 140}, // cfg_com_thr[3..0]
{"cfg_rx_offset", 139, 136}, // cfg_rx_offset[3..0]
{"cfg_skp_max", 135, 132}, // cfg_skp_max[3..0]
{"cfg_skp_min", 131, 128}, // cfg_skp_min[3..0]
{"cfg_fast_pwrup", 127, 127}, // cfg_fast_pwrup
{"Unused6", 126, 101}, // 0
{"cfg_indep_dis", 100, 100}, // cfg_indep_dis
{"detected_n", 99, 99}, // detected_n
{"detected_p", 98, 98}, // detected_p
{"dbg_res_rx", 97, 94}, // dbg_res_rx[3..0]
{"dbg_res_tx", 93, 90}, // dbg_res_tx[3..0]
{"cfg_tx_pol_set", 89, 89}, // cfg_tx_pol_set
{"cfg_tx_pol_clr", 88, 88}, // cfg_tx_pol_clr
{"cfg_rx_pol_set", 87, 87}, // cfg_rx_pol_set
{"cfg_rx_pol_clr", 86, 86}, // cfg_rx_pol_clr
{"cfg_rxd_set", 85, 85}, // cfg_rxd_set
{"cfg_rxd_clr", 84, 84}, // cfg_rxd_clr
{"cfg_rxd_wait", 83, 80}, // cfg_rxd_wait[3..0]
{"cfg_cdr_limit", 79, 79}, // cfg_cdr_limit
{"cfg_cdr_rotate", 78, 78}, // cfg_cdr_rotate
{"cfg_cdr_bw_ctl", 77, 76}, // cfg_cdr_bw_ctl[1..0]
{"cfg_cdr_trunc", 75, 74}, // cfg_cdr_trunc[1..0]
{"cfg_cdr_rqoffs", 73, 64}, // cfg_cdr_rqoffs[9..0]
{"cfg_cdr_inc2", 63, 58}, // cfg_cdr_inc2[5..0]
{"cfg_cdr_inc1", 57, 52}, // cfg_cdr_inc1[5..0]
{"fusopt_voter_sync", 51, 51}, // fusopt_voter_sync
{"rndt", 50, 50}, // rndt
{"hcya", 49, 49}, // hcya
{"hyst", 48, 48}, // hyst
{"idle_dac", 47, 45}, // idle_dac[2..0]
{"bg_ref_sel", 44, 44}, // bg_ref_sel
{"ic50dac", 43, 39}, // ic50dac[4..0]
{"ir50dac", 38, 34}, // ir50dac[4..0]
{"tx_rout_comp_bypass", 33, 33}, // tx_rout_comp_bypass
{"tx_rout_comp_value", 32, 29}, // tx_rout_comp_value[3..0]
{"tx_res_offset", 28, 25}, // tx_res_offset[3..0]
{"rx_rout_comp_bypass", 24, 24}, // rx_rout_comp_bypass
{"rx_rout_comp_value", 23, 20}, // rx_rout_comp_value[3..0]
{"rx_res_offset", 19, 16}, // rx_res_offset[3..0]
{"rx_cap_gen2", 15, 12}, // rx_cap_gen2[3..0]
{"rx_eq_gen2", 11, 8}, // rx_eq_gen2[3..0]
{"rx_cap_gen1", 7, 4}, // rx_cap_gen1[3..0]
{"rx_eq_gen1", 3, 0}, // rx_eq_gen1[3..0]
{NULL, -1, -1}
};
const __cvmx_qlm_jtag_field_t __cvmx_qlm_jtag_field_cn68xx[] =
{
{"prbs_err_cnt", 303, 256}, // prbs_err_cnt[47..0]
{"prbs_lock", 255, 255}, // prbs_lock
{"jtg_prbs_rx_rst_n", 254, 254}, // jtg_prbs_rx_rst_n
{"jtg_prbs_tx_rst_n", 253, 253}, // jtg_prbs_tx_rst_n
{"jtg_prbs_mode", 252, 251}, // jtg_prbs_mode[252:251]
{"jtg_prbs_rst_n", 250, 250}, // jtg_prbs_rst_n
{"jtg_run_prbs31", 249, 249}, // jtg_run_prbs31 - Use jtg_prbs_mode instead
{"jtg_run_prbs7", 248, 248}, // jtg_run_prbs7 - Use jtg_prbs_mode instead
{"Unused1", 247, 245}, // 0
{"cfg_pwrup_set", 244, 244}, // cfg_pwrup_set
{"cfg_pwrup_clr", 243, 243}, // cfg_pwrup_clr
{"cfg_rst_n_set", 242, 242}, // cfg_rst_n_set
{"cfg_rst_n_clr", 241, 241}, // cfg_rst_n_clr
{"cfg_tx_idle_set", 240, 240}, // cfg_tx_idle_set
{"cfg_tx_idle_clr", 239, 239}, // cfg_tx_idle_clr
{"cfg_tx_byp", 238, 238}, // cfg_tx_byp
{"cfg_tx_byp_inv", 237, 237}, // cfg_tx_byp_inv
{"cfg_tx_byp_val", 236, 227}, // cfg_tx_byp_val[9..0]
{"cfg_loopback", 226, 226}, // cfg_loopback
{"shlpbck", 225, 224}, // shlpbck[1..0]
{"sl_enable", 223, 223}, // sl_enable
{"sl_posedge_sample", 222, 222}, // sl_posedge_sample
{"trimen", 221, 220}, // trimen[1..0]
{"serdes_tx_byp", 219, 219}, // serdes_tx_byp
{"serdes_pll_byp", 218, 218}, // serdes_pll_byp
{"lowf_byp", 217, 217}, // lowf_byp
{"spdsel_byp", 216, 216}, // spdsel_byp
{"div4_byp", 215, 215}, // div4_byp
{"clkf_byp", 214, 208}, // clkf_byp[6..0]
{"biasdrv_hs_ls_byp", 207, 203}, // biasdrv_hs_ls_byp[4..0]
{"tcoeff_hf_ls_byp", 202, 198}, // tcoeff_hf_ls_byp[4..0]
{"biasdrv_hf_byp", 197, 193}, // biasdrv_hf_byp[4..0]
{"tcoeff_hf_byp", 192, 188}, // tcoeff_hf_byp[4..0]
{"biasdrv_lf_ls_byp", 187, 183}, // biasdrv_lf_ls_byp[4..0]
{"tcoeff_lf_ls_byp", 182, 178}, // tcoeff_lf_ls_byp[4..0]
{"biasdrv_lf_byp", 177, 173}, // biasdrv_lf_byp[4..0]
{"tcoeff_lf_byp", 172, 168}, // tcoeff_lf_byp[4..0]
{"Unused4", 167, 167}, // 0
{"interpbw", 166, 162}, // interpbw[4..0]
{"pll_cpb", 161, 159}, // pll_cpb[2..0]
{"pll_cps", 158, 156}, // pll_cps[2..0]
{"pll_diffamp", 155, 152}, // pll_diffamp[3..0]
{"cfg_err_thr", 151, 150}, // cfg_err_thr
{"cfg_rx_idle_set", 149, 149}, // cfg_rx_idle_set
{"cfg_rx_idle_clr", 148, 148}, // cfg_rx_idle_clr
{"cfg_rx_idle_thr", 147, 144}, // cfg_rx_idle_thr[3..0]
{"cfg_com_thr", 143, 140}, // cfg_com_thr[3..0]
{"cfg_rx_offset", 139, 136}, // cfg_rx_offset[3..0]
{"cfg_skp_max", 135, 132}, // cfg_skp_max[3..0]
{"cfg_skp_min", 131, 128}, // cfg_skp_min[3..0]
{"cfg_fast_pwrup", 127, 127}, // cfg_fast_pwrup
{"Unused6", 126, 100}, // 0
{"detected_n", 99, 99}, // detected_n
{"detected_p", 98, 98}, // detected_p
{"dbg_res_rx", 97, 94}, // dbg_res_rx[3..0]
{"dbg_res_tx", 93, 90}, // dbg_res_tx[3..0]
{"cfg_tx_pol_set", 89, 89}, // cfg_tx_pol_set
{"cfg_tx_pol_clr", 88, 88}, // cfg_tx_pol_clr
{"cfg_rx_pol_set", 87, 87}, // cfg_rx_pol_set
{"cfg_rx_pol_clr", 86, 86}, // cfg_rx_pol_clr
{"cfg_rxd_set", 85, 85}, // cfg_rxd_set
{"cfg_rxd_clr", 84, 84}, // cfg_rxd_clr
{"cfg_rxd_wait", 83, 80}, // cfg_rxd_wait[3..0]
{"cfg_cdr_limit", 79, 79}, // cfg_cdr_limit
{"cfg_cdr_rotate", 78, 78}, // cfg_cdr_rotate
{"cfg_cdr_bw_ctl", 77, 76}, // cfg_cdr_bw_ctl[1..0]
{"cfg_cdr_trunc", 75, 74}, // cfg_cdr_trunc[1..0]
{"cfg_cdr_rqoffs", 73, 64}, // cfg_cdr_rqoffs[9..0]
{"cfg_cdr_inc2", 63, 58}, // cfg_cdr_inc2[5..0]
{"cfg_cdr_inc1", 57, 52}, // cfg_cdr_inc1[5..0]
{"fusopt_voter_sync", 51, 51}, // fusopt_voter_sync
{"rndt", 50, 50}, // rndt
{"hcya", 49, 49}, // hcya
{"hyst", 48, 48}, // hyst
{"idle_dac", 47, 45}, // idle_dac[2..0]
{"bg_ref_sel", 44, 44}, // bg_ref_sel
{"ic50dac", 43, 39}, // ic50dac[4..0]
{"ir50dac", 38, 34}, // ir50dac[4..0]
{"tx_rout_comp_bypass", 33, 33}, // tx_rout_comp_bypass
{"tx_rout_comp_value", 32, 29}, // tx_rout_comp_value[3..0]
{"tx_res_offset", 28, 25}, // tx_res_offset[3..0]
{"rx_rout_comp_bypass", 24, 24}, // rx_rout_comp_bypass
{"rx_rout_comp_value", 23, 20}, // rx_rout_comp_value[3..0]
{"rx_res_offset", 19, 16}, // rx_res_offset[3..0]
{"rx_cap_gen2", 15, 12}, // rx_cap_gen2[3..0]
{"rx_eq_gen2", 11, 8}, // rx_eq_gen2[3..0]
{"rx_cap_gen1", 7, 4}, // rx_cap_gen1[3..0]
{"rx_eq_gen1", 3, 0}, // rx_eq_gen1[3..0]
{NULL, -1, -1}
};
Reference in New Issue View Git Blame Copy Permalink