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Outline
#include "config.h"
#include "ecp5.h"
#include "lattice.h"
#include "lattice_cmd.h"
#define ISC_PROGRAM_USERCODE
#define STATUS_DONE_BIT
#define STATUS_ERROR_BITS
#define STATUS_FEA_OTP
#define STATUS_FAIL_FLAG
#define STATUS_BUSY_FLAG
#define REGISTER_ALL_BITS_1
lattice_ecp5_read_status(struct jtag_tap *, uint32_t *, uint32_t, bool)
lattice_ecp5_read_usercode(struct jtag_tap *, uint32_t *, uint32_t)
lattice_ecp5_write_usercode(struct lattice_pld_device *, uint32_t)
lattice_ecp5_enable_sram_programming(struct jtag_tap *)
lattice_ecp5_erase_sram(struct jtag_tap *)
lattice_ecp5_init_address(struct jtag_tap *)
lattice_ecp5_program_config_map(struct jtag_tap *, struct lattice_bit_file *)
lattice_ecp5_exit_programming_mode(struct jtag_tap *)
lattice_ecp5_load(struct lattice_pld_device *, struct lattice_bit_file *)
lattice_ecp5_connect_spi_to_jtag(struct lattice_pld_device *)
lattice_ecp5_disconnect_spi_from_jtag(struct lattice_pld_device *)
lattice_ecp5_get_facing_read_bits(struct lattice_pld_device *, unsigned int *)
lattice_ecp5_refresh(struct lattice_pld_device *)
Files
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SourceVuDevelopment ToolsOpenOCDsrc/pld/ecp5.c
 
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// SPDX-License-Identifier: GPL-2.0-or-later /*************************************************************************** * Copyright (C) 2022 by Daniel Anselmi * * danselmi@gmx.ch * ***************************************************************************//* ... */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "ecp5.h" #include "lattice.h" #include "lattice_cmd.h" #define ISC_PROGRAM_USERCODE 0xC2 #define STATUS_DONE_BIT 0x00000100 #define STATUS_ERROR_BITS 0x00020040 #define STATUS_FEA_OTP 0x00004000 #define STATUS_FAIL_FLAG 0x00002000 #define STATUS_BUSY_FLAG 0x00001000 #define REGISTER_ALL_BITS_1 0xffffffff 7 defines int lattice_ecp5_read_status(struct jtag_tap *tap, uint32_t *status, uint32_t out, bool do_idle) { return lattice_read_u32_register(tap, LSC_READ_STATUS, status, out, do_idle); }{ ... } int lattice_ecp5_read_usercode(struct jtag_tap *tap, uint32_t *usercode, uint32_t out) { return lattice_read_u32_register(tap, READ_USERCODE, usercode, out, true); }{ ... } int lattice_ecp5_write_usercode(struct lattice_pld_device *lattice_device, uint32_t usercode) { struct jtag_tap *tap = lattice_device->tap; if (!tap) return ERROR_FAIL; int retval = lattice_set_instr(tap, ISC_ENABLE, TAP_IDLE); if (retval != ERROR_OK) return retval; jtag_add_runtest(5, TAP_IDLE); jtag_add_sleep(20000); retval = lattice_set_instr(tap, ISC_PROGRAM_USERCODE, TAP_IDLE); if (retval != ERROR_OK) return retval; uint8_t buffer[4]; struct scan_field field; h_u32_to_le(buffer, usercode); field.num_bits = 32; field.out_value = buffer; field.in_value = NULL; jtag_add_dr_scan(tap, 1, &field, TAP_IDLE); jtag_add_runtest(5, TAP_IDLE); jtag_add_sleep(2000); retval = lattice_set_instr(tap, ISC_DISABLE, TAP_IDLE); if (retval != ERROR_OK) return retval; jtag_add_runtest(5, TAP_IDLE); jtag_add_sleep(200000); retval = jtag_execute_queue(); if (retval != ERROR_OK) return retval; return lattice_verify_usercode(lattice_device, 0x0, usercode, REGISTER_ALL_BITS_1); }{ ... } static int lattice_ecp5_enable_sram_programming(struct jtag_tap *tap) { int retval = lattice_set_instr(tap, ISC_ENABLE, TAP_IDLE); if (retval != ERROR_OK) return retval; struct scan_field field; uint8_t buffer = 0x0; field.num_bits = 8; field.out_value = &buffer; field.in_value = NULL; jtag_add_dr_scan(tap, 1, &field, TAP_IDLE); jtag_add_runtest(2, TAP_IDLE); jtag_add_sleep(10000); return jtag_execute_queue(); }{ ... } static int lattice_ecp5_erase_sram(struct jtag_tap *tap) { int retval = lattice_set_instr(tap, ISC_ERASE, TAP_IRPAUSE); if (retval != ERROR_OK) return retval; struct scan_field field; uint8_t buffer = 1; field.num_bits = 8; field.out_value = &buffer; field.in_value = NULL; jtag_add_dr_scan(tap, 1, &field, TAP_IDLE); jtag_add_runtest(2, TAP_IDLE); jtag_add_sleep(200000); return jtag_execute_queue(); }{ ... } static int lattice_ecp5_init_address(struct jtag_tap *tap) { int retval = lattice_set_instr(tap, LSC_INIT_ADDRESS, TAP_IDLE); if (retval != ERROR_OK) return retval; struct scan_field field; uint8_t buffer = 1; field.num_bits = 8; field.out_value = &buffer; field.in_value = NULL; jtag_add_dr_scan(tap, 1, &field, TAP_IDLE); jtag_add_runtest(2, TAP_IDLE); jtag_add_sleep(10000); return jtag_execute_queue(); }{ ... } static int lattice_ecp5_program_config_map(struct jtag_tap *tap, struct lattice_bit_file *bit_file) { int retval = lattice_set_instr(tap, LSC_BITSTREAM_BURST, TAP_IDLE); if (retval != ERROR_OK) return retval; jtag_add_runtest(2, TAP_IDLE); jtag_add_sleep(10000); struct scan_field field; field.num_bits = (bit_file->raw_bit.length - bit_file->offset) * 8; field.out_value = bit_file->raw_bit.data + bit_file->offset; field.in_value = NULL; jtag_add_dr_scan(tap, 1, &field, TAP_IDLE); retval = lattice_set_instr(tap, BYPASS, TAP_IDLE); if (retval != ERROR_OK) return retval; jtag_add_runtest(100, TAP_IDLE); jtag_add_sleep(10000); return jtag_execute_queue(); }{ ... } static int lattice_ecp5_exit_programming_mode(struct jtag_tap *tap) { int retval = lattice_set_instr(tap, ISC_DISABLE, TAP_IDLE); if (retval != ERROR_OK) return retval; jtag_add_runtest(2, TAP_IDLE); jtag_add_sleep(200000); retval = lattice_set_instr(tap, BYPASS, TAP_IDLE); if (retval != ERROR_OK) return retval; jtag_add_runtest(2, TAP_IDLE); jtag_add_sleep(1000); return jtag_execute_queue(); }{ ... } int lattice_ecp5_load(struct lattice_pld_device *lattice_device, struct lattice_bit_file *bit_file) { struct jtag_tap *tap = lattice_device->tap; if (!tap) return ERROR_FAIL; int retval = lattice_preload(lattice_device); if (retval != ERROR_OK) return retval; retval = lattice_ecp5_enable_sram_programming(tap); if (retval != ERROR_OK) return retval; const uint32_t out = 0x0; const uint32_t expected1 = 0x0; const uint32_t mask1 = STATUS_ERROR_BITS | STATUS_FEA_OTP; retval = lattice_verify_status_register_u32(lattice_device, out, expected1, mask1, true); if (retval != ERROR_OK) return retval; retval = lattice_ecp5_erase_sram(tap); if (retval != ERROR_OK) return retval; const uint32_t mask2 = STATUS_FAIL_FLAG | STATUS_BUSY_FLAG; retval = lattice_verify_status_register_u32(lattice_device, out, expected1, mask2, false); if (retval != ERROR_OK) return retval; retval = lattice_ecp5_init_address(tap); if (retval != ERROR_OK) return retval; retval = lattice_ecp5_program_config_map(tap, bit_file); if (retval != ERROR_OK) return retval; retval = lattice_ecp5_exit_programming_mode(tap); if (retval != ERROR_OK) return retval; const uint32_t expected2 = STATUS_DONE_BIT; const uint32_t mask3 = STATUS_DONE_BIT | STATUS_FAIL_FLAG; return lattice_verify_status_register_u32(lattice_device, out, expected2, mask3, false); }{ ... } int lattice_ecp5_connect_spi_to_jtag(struct lattice_pld_device *pld_device_info) { if (!pld_device_info) return ERROR_FAIL; struct jtag_tap *tap = pld_device_info->tap; if (!tap) return ERROR_FAIL; if (buf_get_u32(tap->cur_instr, 0, tap->ir_length) == PROGRAM_SPI) return ERROR_OK; // erase configuration int retval = lattice_preload(pld_device_info); if (retval != ERROR_OK) return retval; retval = lattice_ecp5_enable_sram_programming(tap); if (retval != ERROR_OK) return retval; retval = lattice_ecp5_erase_sram(tap); if (retval != ERROR_OK) return retval; retval = lattice_ecp5_exit_programming_mode(tap); if (retval != ERROR_OK) return retval; // connect jtag to spi pins retval = lattice_set_instr(tap, PROGRAM_SPI, TAP_IDLE); if (retval != ERROR_OK) return retval; struct scan_field field; uint8_t buffer[2] = {0xfe, 0x68}; field.num_bits = 16; field.out_value = buffer; field.in_value = NULL; jtag_add_dr_scan(tap, 1, &field, TAP_IDLE); return jtag_execute_queue(); }{ ... } int lattice_ecp5_disconnect_spi_from_jtag(struct lattice_pld_device *pld_device_info) { if (!pld_device_info) return ERROR_FAIL; struct jtag_tap *tap = pld_device_info->tap; if (!tap) return ERROR_FAIL; /* Connecting it again takes way too long to do it multiple times for writing a bitstream (ca. 0.4s each access). We just leave it connected since SCS will not be active when not in shift_dr state. So there is no need to change instruction, just make sure we are not in shift dr state. *//* ... */ jtag_add_runtest(2, TAP_IDLE); return jtag_execute_queue(); }{ ... } int lattice_ecp5_get_facing_read_bits(struct lattice_pld_device *pld_device_info, unsigned int *facing_read_bits) { if (!pld_device_info) return ERROR_FAIL; *facing_read_bits = 0; return ERROR_OK; }{ ... } int lattice_ecp5_refresh(struct lattice_pld_device *lattice_device) { struct jtag_tap *tap = lattice_device->tap; if (!tap) return ERROR_FAIL; int retval = lattice_preload(lattice_device); if (retval != ERROR_OK) return retval; retval = lattice_set_instr(tap, LSC_REFRESH, TAP_IDLE); if (retval != ERROR_OK) return retval; jtag_add_runtest(2, TAP_IDLE); jtag_add_sleep(200000); retval = lattice_set_instr(tap, BYPASS, TAP_IDLE); if (retval != ERROR_OK) return retval; jtag_add_runtest(100, TAP_IDLE); jtag_add_sleep(1000); return jtag_execute_queue(); }{ ... }
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