/*************************************************************************** * Copyright (C) 2009-2010 by Simon Qian * * * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * * (at your option) any later version. * * * * This program is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU General Public License for more details. * * * * You should have received a copy of the GNU General Public License * * along with this program; if not, write to the * * Free Software Foundation, Inc., * * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * ***************************************************************************/ /* Versaloon is a programming tool for multiple MCUs. * It's distributed under GPLv3. * You can find it at http://www.SimonQian.com/en/Versaloon. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include "usb_common.h" //#define _VSLLINK_IN_DEBUG_MODE_ static uint16_t vsllink_usb_vid; static uint16_t vsllink_usb_pid; static uint8_t vsllink_usb_bulkout; static uint8_t vsllink_usb_bulkin; static uint8_t vsllink_usb_interface; static int VSLLINK_USB_TIMEOUT = 1000; static int vsllink_tms_offset = 0; /* Global USB buffers */ static uint8_t* vsllink_usb_in_buffer = NULL; static uint8_t* vsllink_usb_out_buffer = NULL; static int vsllink_buffer_size = 128; /* Constants for Versaloon command */ #define VERSALOON_GET_INFO 0x00 #define VERSALOON_GET_TVCC 0x01 /* Constants for VSLLink command */ #define VSLLINK_CMD_CONN 0x80 #define VSLLINK_CMD_DISCONN 0x81 #define VSLLINK_CMD_SET_SPEED 0x82 #define VSLLINK_CMD_SET_PORT 0x90 #define VSLLINK_CMD_GET_PORT 0x91 #define VSLLINK_CMD_SET_PORTDIR 0x92 #define VSLLINK_CMD_HW_JTAGSEQCMD 0xA0 #define VSLLINK_CMD_HW_JTAGHLCMD 0xA1 #define VSLLINK_CMD_HW_SWDCMD 0xA2 #define VSLLINK_CMD_HW_JTAGRAWCMD 0xA3 #define VSLLINK_CMDJTAGSEQ_TMSBYTE 0x00 #define VSLLINK_CMDJTAGSEQ_TMSCLOCK 0x40 #define VSLLINK_CMDJTAGSEQ_SCAN 0x80 #define VSLLINK_CMDJTAGSEQ_CMDMSK 0xC0 #define VSLLINK_CMDJTAGSEQ_LENMSK 0x3F #define JTAG_PINMSK_SRST (1 << 0) #define JTAG_PINMSK_TRST (1 << 1) #define JTAG_PINMSK_USR1 (1 << 2) #define JTAG_PINMSK_USR2 (1 << 3) #define JTAG_PINMSK_TCK (1 << 4) #define JTAG_PINMSK_TMS (1 << 5) #define JTAG_PINMSK_TDI (1 << 6) #define JTAG_PINMSK_TDO (1 << 7) struct pending_scan_result { int src_offset; int dest_offset; int length; /* Number of bits to read */ struct scan_command *command; /* Corresponding scan command */ uint8_t *buffer; bool last; /* indicate the last scan pending */ }; #define MAX_PENDING_SCAN_RESULTS 256 static int pending_scan_results_length; static struct pending_scan_result \ pending_scan_results_buffer[MAX_PENDING_SCAN_RESULTS]; /* Queue command functions */ static void vsllink_end_state(tap_state_t state); static void vsllink_state_move(void); static void vsllink_path_move(int num_states, tap_state_t *path); static void vsllink_runtest(int num_cycles); static void vsllink_stableclocks(int num_cycles, int tms); static void vsllink_scan(bool ir_scan, enum scan_type type, uint8_t *buffer, \ int scan_size, struct scan_command *command); static void vsllink_reset(int trst, int srst); static void vsllink_simple_command(uint8_t command); /* VSLLink tap buffer functions */ static void vsllink_tap_append_step(int tms, int tdi); static void vsllink_tap_init(void); static int vsllink_tap_execute(void); static void vsllink_tap_ensure_pending(int scans); static void vsllink_tap_append_scan(int length, uint8_t *buffer, \ struct scan_command *command); /* VSLLink lowlevel functions */ struct vsllink { struct usb_dev_handle* usb_handle; }; static struct vsllink *vsllink_usb_open(void); static void vsllink_usb_close(struct vsllink *vsllink); static int vsllink_usb_message(struct vsllink *vsllink, int out_length, \ int in_length); static int vsllink_usb_write(struct vsllink *vsllink, int out_length); static int vsllink_usb_read(struct vsllink *vsllink); #if defined _DEBUG_USB_COMMS_ || defined _DEBUG_JTAG_IO_ static void vsllink_debug_buffer(uint8_t *buffer, int length); #endif static int tap_length = 0; static int tap_buffer_size = 0; static uint8_t *tms_buffer = NULL; static uint8_t *tdi_buffer = NULL; static uint8_t *tdo_buffer = NULL; static struct vsllink* vsllink_handle = NULL; static void reset_command_pointer(void) { tap_length = 0; } static int vsllink_execute_queue(void) { struct jtag_command *cmd = jtag_command_queue; int scan_size; enum scan_type type; uint8_t *buffer; DEBUG_JTAG_IO( "-------------------------------------" " vsllink " "-------------------------------------"); reset_command_pointer(); while (cmd != NULL) { switch (cmd->type) { case JTAG_RUNTEST: DEBUG_JTAG_IO("runtest %i cycles, end in %s", \ cmd->cmd.runtest->num_cycles, \ tap_state_name(cmd->cmd.runtest->end_state)); vsllink_end_state(cmd->cmd.runtest->end_state); vsllink_runtest(cmd->cmd.runtest->num_cycles); break; case JTAG_STATEMOVE: DEBUG_JTAG_IO("statemove end in %s", \ tap_state_name(cmd->cmd.statemove->end_state)); vsllink_end_state(cmd->cmd.statemove->end_state); vsllink_state_move(); break; case JTAG_PATHMOVE: DEBUG_JTAG_IO("pathmove: %i states, end in %s", \ cmd->cmd.pathmove->num_states, \ tap_state_name(cmd->cmd.pathmove->path[cmd->cmd.pathmove->num_states - 1])); vsllink_path_move(cmd->cmd.pathmove->num_states, \ cmd->cmd.pathmove->path); break; case JTAG_SCAN: vsllink_end_state(cmd->cmd.scan->end_state); scan_size = jtag_build_buffer(cmd->cmd.scan, &buffer); if (cmd->cmd.scan->ir_scan) { DEBUG_JTAG_IO("JTAG Scan write IR(%d bits), end in %s:", \ scan_size, \ tap_state_name(cmd->cmd.scan->end_state)); } else { DEBUG_JTAG_IO("JTAG Scan write DR(%d bits), end in %s:", \ scan_size, \ tap_state_name(cmd->cmd.scan->end_state)); } #ifdef _DEBUG_JTAG_IO_ vsllink_debug_buffer(buffer, DIV_ROUND_UP(scan_size, 8)); #endif type = jtag_scan_type(cmd->cmd.scan); vsllink_scan(cmd->cmd.scan->ir_scan, type, buffer, \ scan_size, cmd->cmd.scan); break; case JTAG_RESET: DEBUG_JTAG_IO("reset trst: %i srst %i", \ cmd->cmd.reset->trst, \ cmd->cmd.reset->srst); vsllink_tap_execute(); if (cmd->cmd.reset->trst == 1) { tap_set_state(TAP_RESET); } vsllink_reset(cmd->cmd.reset->trst, cmd->cmd.reset->srst); break; case JTAG_SLEEP: DEBUG_JTAG_IO("sleep %i", cmd->cmd.sleep->us); vsllink_tap_execute(); jtag_sleep(cmd->cmd.sleep->us); break; case JTAG_STABLECLOCKS: DEBUG_JTAG_IO("add %d clocks", \ cmd->cmd.stableclocks->num_cycles); switch (tap_get_state()) { case TAP_RESET: // tms should be '1' to stay in TAP_RESET mode scan_size = 1; break; case TAP_DRSHIFT: case TAP_IDLE: case TAP_DRPAUSE: case TAP_IRSHIFT: case TAP_IRPAUSE: // in other mode, tms should be '0' scan_size = 0; break; /* above stable states are OK */ default: LOG_ERROR("jtag_add_clocks() in non-stable state \"%s\"", tap_state_name(tap_get_state())); exit(-1); } vsllink_stableclocks(cmd->cmd.stableclocks->num_cycles, \ scan_size); break; default: LOG_ERROR("BUG: unknown JTAG command type encountered: %d", \ cmd->type); exit(-1); } cmd = cmd->next; } return vsllink_tap_execute(); } static int vsllink_speed(int speed) { int result; vsllink_usb_out_buffer[0] = VSLLINK_CMD_SET_SPEED; vsllink_usb_out_buffer[1] = (speed >> 0) & 0xff; vsllink_usb_out_buffer[2] = (speed >> 8) & 0xFF; result = vsllink_usb_write(vsllink_handle, 3); if (result == 3) { return ERROR_OK; } else { LOG_ERROR("VSLLink setting speed failed (%d)", result); return ERROR_JTAG_DEVICE_ERROR; } return ERROR_OK; } static int vsllink_khz(int khz, int *jtag_speed) { *jtag_speed = khz; return ERROR_OK; } static int vsllink_speed_div(int jtag_speed, int *khz) { *khz = jtag_speed; return ERROR_OK; } static int vsllink_init(void) { int check_cnt, to_tmp; int result; char version_str[100]; vsllink_usb_in_buffer = malloc(vsllink_buffer_size); vsllink_usb_out_buffer = malloc(vsllink_buffer_size); if ((vsllink_usb_in_buffer == NULL) || (vsllink_usb_out_buffer == NULL)) { LOG_ERROR("Not enough memory"); exit(-1); } vsllink_handle = vsllink_usb_open(); if (vsllink_handle == 0) { LOG_ERROR("Can't find USB JTAG Interface!"\ "Please check connection and permissions."); return ERROR_JTAG_INIT_FAILED; } LOG_DEBUG("vsllink found on %04X:%04X", vsllink_usb_vid, vsllink_usb_pid); to_tmp = VSLLINK_USB_TIMEOUT; VSLLINK_USB_TIMEOUT = 100; check_cnt = 0; while (check_cnt < 5) { vsllink_simple_command(VERSALOON_GET_INFO); result = vsllink_usb_read(vsllink_handle); if (result > 2) { vsllink_usb_in_buffer[result] = 0; vsllink_buffer_size = vsllink_usb_in_buffer[0] + \ (vsllink_usb_in_buffer[1] << 8); strncpy(version_str, (char *)vsllink_usb_in_buffer + 2, \ sizeof(version_str)); LOG_INFO("%s", version_str); // free the pre-alloc memroy free(vsllink_usb_in_buffer); free(vsllink_usb_out_buffer); vsllink_usb_in_buffer = NULL; vsllink_usb_out_buffer = NULL; // alloc new memory vsllink_usb_in_buffer = malloc(vsllink_buffer_size); vsllink_usb_out_buffer = malloc(vsllink_buffer_size); if ((vsllink_usb_in_buffer == NULL) || \ (vsllink_usb_out_buffer == NULL)) { LOG_ERROR("Not enough memory"); exit(-1); } else { LOG_INFO("buffer size for USB is %d bytes", \ vsllink_buffer_size); } // alloc tms/tdi/tdo buffer tap_buffer_size = (vsllink_buffer_size - 3) / 2; tms_buffer = (uint8_t*)malloc(tap_buffer_size); tdi_buffer = (uint8_t*)malloc(tap_buffer_size); tdo_buffer = (uint8_t*)malloc(tap_buffer_size); if ((tms_buffer == NULL) || (tdi_buffer == NULL) || \ (tdo_buffer == NULL)) { LOG_ERROR("Not enough memory"); exit(-1); } break; } vsllink_simple_command(VSLLINK_CMD_DISCONN); check_cnt++; } if (check_cnt == 3) { // Fail to access Versaloon LOG_ERROR("VSLLink initial failed"); exit(-1); } VSLLINK_USB_TIMEOUT = to_tmp; /* Some older firmware versions sometimes fail if the * voltage isn't read first. */ vsllink_simple_command(VERSALOON_GET_TVCC); result = vsllink_usb_read(vsllink_handle); if (result != 2) { LOG_WARNING("Fail to get target voltage"); } else { LOG_INFO("Target runs at %d mV", vsllink_usb_in_buffer[0] + \ (vsllink_usb_in_buffer[1] << 8)); } // connect to vsllink vsllink_usb_out_buffer[0] = VSLLINK_CMD_CONN; vsllink_usb_out_buffer[1] = 1; vsllink_usb_message(vsllink_handle, 2, 0); if (vsllink_usb_read(vsllink_handle) > 2) { strncpy(version_str, (char *)vsllink_usb_in_buffer + 2, \ sizeof(version_str)); LOG_INFO("%s", version_str); } // Set SRST and TRST to output, Set USR1 and USR2 to input vsllink_usb_out_buffer[0] = VSLLINK_CMD_SET_PORTDIR; vsllink_usb_out_buffer[1] = JTAG_PINMSK_SRST | JTAG_PINMSK_TRST | \ JTAG_PINMSK_USR1 | JTAG_PINMSK_USR2; vsllink_usb_out_buffer[2] = JTAG_PINMSK_SRST | JTAG_PINMSK_TRST; if (vsllink_usb_write(vsllink_handle, 3) != 3) { LOG_ERROR("VSLLink USB send data error"); exit(-1); } vsllink_reset(0, 0); LOG_INFO("VSLLink Interface ready"); vsllink_tap_init(); return ERROR_OK; } static int vsllink_quit(void) { if ((vsllink_usb_in_buffer != NULL) && (vsllink_usb_out_buffer != NULL)) { // Set all pins to input vsllink_usb_out_buffer[0] = VSLLINK_CMD_SET_PORTDIR; vsllink_usb_out_buffer[1] = JTAG_PINMSK_SRST | JTAG_PINMSK_TRST | \ JTAG_PINMSK_USR1 | JTAG_PINMSK_USR2; vsllink_usb_out_buffer[2] = 0; if (vsllink_usb_write(vsllink_handle, 3) != 3) { LOG_ERROR("VSLLink USB send data error"); exit(-1); } // disconnect vsllink_simple_command(VSLLINK_CMD_DISCONN); vsllink_usb_close(vsllink_handle); vsllink_handle = NULL; } if (vsllink_usb_in_buffer != NULL) { free(vsllink_usb_in_buffer); vsllink_usb_in_buffer = NULL; } if (vsllink_usb_out_buffer != NULL) { free(vsllink_usb_out_buffer); vsllink_usb_out_buffer = NULL; } return ERROR_OK; } /***************************************************************************/ /* Queue command implementations */ static void vsllink_end_state(tap_state_t state) { if (tap_is_state_stable(state)) { tap_set_end_state(state); } else { LOG_ERROR("BUG: %i is not a valid end state", state); exit(-1); } } /* Goes to the end state. */ static void vsllink_state_move(void) { int i; uint8_t tms_scan = tap_get_tms_path(tap_get_state(), tap_get_end_state()); uint8_t tms_scan_bits = \ tap_get_tms_path_len(tap_get_state(), tap_get_end_state()); for (i = 0; i < tms_scan_bits; i++) { vsllink_tap_append_step((tms_scan >> i) & 1, 0); } tap_set_state(tap_get_end_state()); } static void vsllink_path_move(int num_states, tap_state_t *path) { for (int i = 0; i < num_states; i++) { if (path[i] == tap_state_transition(tap_get_state(), false)) { vsllink_tap_append_step(0, 0); } else if (path[i] == tap_state_transition(tap_get_state(), true)) { vsllink_tap_append_step(1, 0); } else { LOG_ERROR("BUG: %s -> %s isn't a valid TAP transition", \ tap_state_name(tap_get_state()), \ tap_state_name(path[i])); exit(-1); } tap_set_state(path[i]); } tap_set_end_state(tap_get_state()); } static void vsllink_stableclocks(int num_cycles, int tms) { while (num_cycles > 0) { vsllink_tap_append_step(tms, 0); num_cycles--; } } static void vsllink_runtest(int num_cycles) { tap_state_t saved_end_state = tap_get_end_state(); if (tap_get_state() != TAP_IDLE) { // enter into IDLE state vsllink_end_state(TAP_IDLE); vsllink_state_move(); } vsllink_stableclocks(num_cycles, 0); // post-process // set end_state vsllink_end_state(saved_end_state); if (tap_get_end_state() != tap_get_end_state()) { vsllink_state_move(); } } static void vsllink_scan(bool ir_scan, enum scan_type type, uint8_t *buffer, \ int scan_size, struct scan_command *command) { tap_state_t saved_end_state; saved_end_state = tap_get_end_state(); /* Move to appropriate scan state */ vsllink_end_state(ir_scan ? TAP_IRSHIFT : TAP_DRSHIFT); if (tap_get_state() != tap_get_end_state()) { vsllink_state_move(); } vsllink_end_state(saved_end_state); /* Scan */ vsllink_tap_append_scan(scan_size, buffer, command); /* Goto Pause and record position to insert tms:0 */ vsllink_tap_append_step(0, 0); vsllink_tms_offset = tap_length; tap_set_state(ir_scan ? TAP_IRPAUSE : TAP_DRPAUSE); if (tap_get_state() != tap_get_end_state()) { vsllink_state_move(); } } static void vsllink_reset(int trst, int srst) { int result; LOG_DEBUG("trst: %i, srst: %i", trst, srst); /* Signals are active low */ vsllink_usb_out_buffer[0] = VSLLINK_CMD_SET_PORT; vsllink_usb_out_buffer[1] = JTAG_PINMSK_SRST | JTAG_PINMSK_TRST; vsllink_usb_out_buffer[2] = 0; if (srst == 0) { vsllink_usb_out_buffer[2] |= JTAG_PINMSK_SRST; } if (trst == 0) { vsllink_usb_out_buffer[2] |= JTAG_PINMSK_TRST; } result = vsllink_usb_write(vsllink_handle, 3); if (result != 3) { LOG_ERROR("VSLLink command VSLLINK_CMD_SET_PORT failed (%d)", result); } } static void vsllink_simple_command(uint8_t command) { int result; DEBUG_JTAG_IO("0x%02x", command); vsllink_usb_out_buffer[0] = command; result = vsllink_usb_write(vsllink_handle, 1); if (result != 1) { LOG_ERROR("VSLLink command 0x%02x failed (%d)", command, result); } } COMMAND_HANDLER(vsllink_handle_mode_command) { if (CMD_ARGC != 1) { LOG_ERROR("parameter error, " "should be one parameter for mode"); return ERROR_FAIL; } return ERROR_OK; } COMMAND_HANDLER(vsllink_handle_usb_vid_command) { if (CMD_ARGC != 1) { LOG_ERROR("parameter error, " "should be one parameter for VID"); return ERROR_OK; } COMMAND_PARSE_NUMBER(u16, CMD_ARGV[0], vsllink_usb_vid); return ERROR_OK; } COMMAND_HANDLER(vsllink_handle_usb_pid_command) { if (CMD_ARGC != 1) { LOG_ERROR("parameter error, " "should be one parameter for PID"); return ERROR_OK; } COMMAND_PARSE_NUMBER(u16, CMD_ARGV[0], vsllink_usb_pid); return ERROR_OK; } COMMAND_HANDLER(vsllink_handle_usb_bulkin_command) { if (CMD_ARGC != 1) { LOG_ERROR("parameter error, " "should be one parameter for BULKIN endpoint"); return ERROR_OK; } COMMAND_PARSE_NUMBER(u8, CMD_ARGV[0], vsllink_usb_bulkin); vsllink_usb_bulkin |= 0x80; return ERROR_OK; } COMMAND_HANDLER(vsllink_handle_usb_bulkout_command) { if (CMD_ARGC != 1) { LOG_ERROR("parameter error, " "should be one parameter for BULKOUT endpoint"); return ERROR_OK; } COMMAND_PARSE_NUMBER(u8, CMD_ARGV[0], vsllink_usb_bulkout); vsllink_usb_bulkout &= ~0x80; return ERROR_OK; } COMMAND_HANDLER(vsllink_handle_usb_interface_command) { if (CMD_ARGC != 1) { LOG_ERROR("parameter error, " "should be one parameter for interface number"); return ERROR_OK; } COMMAND_PARSE_NUMBER(u8, CMD_ARGV[0], vsllink_usb_interface); return ERROR_OK; } /***************************************************************************/ /* VSLLink tap functions */ static void vsllink_tap_init(void) { tap_length = 0; pending_scan_results_length = 0; vsllink_tms_offset = 0; } static void vsllink_tap_ensure_pending(int scans) { int available_scans = \ MAX_PENDING_SCAN_RESULTS - pending_scan_results_length; if (scans > available_scans) { vsllink_tap_execute(); } } static void vsllink_tap_append_step(int tms, int tdi) { int index = tap_length / 8; int bit_index = tap_length % 8; uint8_t bit = 1 << bit_index; if (tms) { tms_buffer[index] |= bit; } else { tms_buffer[index] &= ~bit; } if (tdi) { tdi_buffer[index] |= bit; } else { tdi_buffer[index] &= ~bit; } tap_length++; if (tap_buffer_size * 8 <= tap_length) { vsllink_tap_execute(); } } static void vsllink_tap_append_scan(int length, uint8_t *buffer, \ struct scan_command *command) { struct pending_scan_result *pending_scan_result; int len_tmp, len_all, i; len_all = 0; while (len_all < length) { vsllink_tap_ensure_pending(1); pending_scan_result = \ &pending_scan_results_buffer[pending_scan_results_length]; if ((length - len_all) > (tap_buffer_size * 8 - tap_length)) { /* Use all memory available vsllink_tap_append_step will commit automatically */ len_tmp = tap_buffer_size * 8 - tap_length; pending_scan_result->last = false; } else { len_tmp = length - len_all; pending_scan_result->last = true; } pending_scan_result->src_offset = tap_length; pending_scan_result->dest_offset = len_all; pending_scan_result->length = len_tmp; pending_scan_result->command = command; pending_scan_result->buffer = buffer; pending_scan_results_length++; for (i = 0; i < len_tmp; i++) { vsllink_tap_append_step(((len_all + i) < length-1 ? 0 : 1), \ (buffer[(len_all + i)/8] >> ((len_all + i)%8)) & 1); } len_all += len_tmp; } } static int vsllink_tap_execute(void) { int byte_length; int i; int result; if (tap_length <= 0) { return ERROR_OK; } /* Pad data so that tap_length is divisible by 8 */ if ((tap_length % 8) != 0) { if (vsllink_tms_offset > 0) { /* append tms:0 at vsllink_tms_offset, which is in Pause */ int start_pos = DIV_ROUND_UP(tap_length, 8) - 1; int end_pos = DIV_ROUND_UP(vsllink_tms_offset, 8) - 1; int shift_cnt = (start_pos + 1) * 8 - tap_length; uint8_t last_mask = ~((1 << (vsllink_tms_offset % 8)) - 1); while (1) { if (start_pos == end_pos) { tms_buffer[start_pos] = \ (tms_buffer[start_pos] & ~last_mask) | \ ((tms_buffer[start_pos] & last_mask) << shift_cnt); tdi_buffer[start_pos] = \ (tdi_buffer[start_pos] & ~last_mask) | \ ((tdi_buffer[start_pos] & last_mask) << shift_cnt); break; } else if (start_pos == (end_pos + 1)) { tms_buffer[start_pos] = \ (tms_buffer[start_pos] << shift_cnt) | \ ((tms_buffer[start_pos - 1] & last_mask) >> (8 - shift_cnt)); tdi_buffer[start_pos] = \ (tdi_buffer[start_pos] << shift_cnt) | \ ((tdi_buffer[start_pos - 1] & last_mask) >> (8 - shift_cnt)); } else { tms_buffer[start_pos] = \ (tms_buffer[start_pos] << shift_cnt) | \ (tms_buffer[start_pos - 1] >> (8 - shift_cnt)); tdi_buffer[start_pos] = \ (tdi_buffer[start_pos] << shift_cnt) | \ (tdi_buffer[start_pos - 1] >> (8 - shift_cnt)); } start_pos--; } tap_length = DIV_ROUND_UP(tap_length, 8) * 8; } else { /* append data at last */ while ((tap_length % 8) != 0) { vsllink_tap_append_step((tap_get_state() == TAP_RESET)?1:0, 0); } } } byte_length = tap_length / 8; vsllink_usb_out_buffer[0] = VSLLINK_CMD_HW_JTAGRAWCMD; vsllink_usb_out_buffer[1] = ((byte_length * 2 + 3) >> 0) & 0xff; vsllink_usb_out_buffer[2] = ((byte_length * 2 + 3) >> 8) & 0xff; memcpy(&vsllink_usb_out_buffer[3], tdi_buffer, byte_length); memcpy(&vsllink_usb_out_buffer[3 + byte_length], tms_buffer, byte_length); result = vsllink_usb_message(vsllink_handle, 3 + 2 * byte_length, \ byte_length); if (result == byte_length) { for (i = 0; i < pending_scan_results_length; i++) { struct pending_scan_result *pending_scan_result = \ &pending_scan_results_buffer[i]; uint8_t *buffer = pending_scan_result->buffer; int length = pending_scan_result->length; int src_first = pending_scan_result->src_offset; int dest_first = pending_scan_result->dest_offset; bool last = pending_scan_result->last; struct scan_command *command = pending_scan_result->command; buf_set_buf(vsllink_usb_in_buffer, src_first, buffer, \ dest_first, length); DEBUG_JTAG_IO("JTAG scan read(%d bits, from %d bits):", \ length, dest_first); #ifdef _DEBUG_JTAG_IO_ vsllink_debug_buffer(buffer + dest_first / 8, DIV_ROUND_UP(length, 7)); #endif if (last) { if (jtag_read_buffer(buffer, command) != ERROR_OK) { vsllink_tap_init(); return ERROR_JTAG_QUEUE_FAILED; } if (pending_scan_result->buffer != NULL) { free(pending_scan_result->buffer); } } } } else { LOG_ERROR("vsllink_tap_execute, wrong result %d, expected %d", \ result, byte_length); return ERROR_JTAG_QUEUE_FAILED; } vsllink_tap_init(); return ERROR_OK; } /*****************************************************************************/ /* VSLLink USB low-level functions */ static struct vsllink* vsllink_usb_open(void) { usb_init(); const uint16_t vids[] = { vsllink_usb_vid, 0 }; const uint16_t pids[] = { vsllink_usb_pid, 0 }; struct usb_dev_handle *dev; if (jtag_usb_open(vids, pids, &dev) != ERROR_OK) return NULL; /* usb_set_configuration required under win32 */ struct usb_device *udev = usb_device(dev); int ret = usb_set_configuration(dev, udev->config[0].bConfigurationValue); if (ret != 0) { LOG_ERROR("fail to set configuration to %d (error %d)." "Not enough permissions for the device?", udev->config[0].bConfigurationValue, ret); return NULL; } ret = usb_claim_interface(dev, vsllink_usb_interface); if (ret != 0) { LOG_ERROR("fail to claim interface %d, %d returned", vsllink_usb_interface, ret); return NULL; } #if 0 /* * This makes problems under Mac OS X. And is not needed * under Windows. Hopefully this will not break a linux build */ usb_set_altinterface(dev, 0); #endif struct vsllink *result = malloc(sizeof(struct vsllink)); result->usb_handle = dev; return result; } static void vsllink_usb_close(struct vsllink *vsllink) { int ret; ret = usb_release_interface(vsllink->usb_handle, vsllink_usb_interface); if (ret != 0) { LOG_ERROR("fail to release interface %d, %d returned", \ vsllink_usb_interface, ret); exit(-1); } ret = usb_close(vsllink->usb_handle); if (ret != 0) { LOG_ERROR("fail to close usb, %d returned", ret); exit(-1); } free(vsllink); } /* Send a message and receive the reply. */ static int vsllink_usb_message(struct vsllink *vsllink, int out_length, \ int in_length) { int result; result = vsllink_usb_write(vsllink, out_length); if (result == out_length) { if (in_length > 0) { result = vsllink_usb_read(vsllink); if (result == in_length) { return result; } else { LOG_ERROR("usb_bulk_read failed (requested=%d, result=%d)", \ in_length, result); return -1; } } return 0; } else { LOG_ERROR("usb_bulk_write failed (requested=%d, result=%d)", \ out_length, result); return -1; } } /* Write data from out_buffer to USB. */ static int vsllink_usb_write(struct vsllink *vsllink, int out_length) { int result; if (out_length > vsllink_buffer_size) { LOG_ERROR("vsllink_write illegal out_length=%d (max=%d)", \ out_length, vsllink_buffer_size); return -1; } result = usb_bulk_write(vsllink->usb_handle, vsllink_usb_bulkout, \ (char *)vsllink_usb_out_buffer, out_length, VSLLINK_USB_TIMEOUT); DEBUG_JTAG_IO("vsllink_usb_write, out_length = %d, result = %d", \ out_length, result); #ifdef _DEBUG_USB_COMMS_ LOG_DEBUG("USB out:"); vsllink_debug_buffer(vsllink_usb_out_buffer, out_length); #endif #ifdef _VSLLINK_IN_DEBUG_MODE_ usleep(100000); #endif return result; } /* Read data from USB into in_buffer. */ static int vsllink_usb_read(struct vsllink *vsllink) { int result = usb_bulk_read(vsllink->usb_handle, vsllink_usb_bulkin, \ (char *)vsllink_usb_in_buffer, vsllink_buffer_size, \ VSLLINK_USB_TIMEOUT); DEBUG_JTAG_IO("vsllink_usb_read, result = %d", result); #ifdef _DEBUG_USB_COMMS_ LOG_DEBUG("USB in:"); vsllink_debug_buffer(vsllink_usb_in_buffer, result); #endif return result; } #define BYTES_PER_LINE 16 #if defined _DEBUG_USB_COMMS_ || defined _DEBUG_JTAG_IO_ static void vsllink_debug_buffer(uint8_t *buffer, int length) { char line[81]; char s[4]; int i; int j; for (i = 0; i < length; i += BYTES_PER_LINE) { snprintf(line, 5, "%04x", i); for (j = i; j < i + BYTES_PER_LINE && j < length; j++) { snprintf(s, 4, " %02x", buffer[j]); strcat(line, s); } LOG_DEBUG("%s", line); } } #endif // _DEBUG_USB_COMMS_ || _DEBUG_JTAG_IO_ static const struct command_registration vsllink_command_handlers[] = { { .name = "vsllink_usb_vid", .handler = &vsllink_handle_usb_vid_command, .mode = COMMAND_CONFIG, }, { .name = "vsllink_usb_pid", .handler = &vsllink_handle_usb_pid_command, .mode = COMMAND_CONFIG, }, { .name = "vsllink_usb_bulkin", .handler = &vsllink_handle_usb_bulkin_command, .mode = COMMAND_CONFIG, }, { .name = "vsllink_usb_bulkout", .handler = &vsllink_handle_usb_bulkout_command, .mode = COMMAND_CONFIG, }, { .name = "vsllink_usb_interface", .handler = &vsllink_handle_usb_interface_command, .mode = COMMAND_CONFIG, }, { .name = "vsllink_mode", .handler = &vsllink_handle_mode_command, .mode = COMMAND_CONFIG, }, COMMAND_REGISTRATION_DONE }; struct jtag_interface vsllink_interface = { .name = "vsllink", .commands = vsllink_command_handlers, .init = vsllink_init, .quit = vsllink_quit, .khz = vsllink_khz, .speed = vsllink_speed, .speed_div = vsllink_speed_div, .execute_queue = vsllink_execute_queue, };