};
-u8* buf_cpy(const u8 *from, u8 *to, int size)
+uint8_t* buf_cpy(const uint8_t *from, uint8_t *to, int size)
{
unsigned int num_bytes = CEIL(size, 8);
unsigned int i;
return to;
}
-int buf_cmp(const u8 *buf1, const u8 *buf2, int size)
+int buf_cmp(const uint8_t *buf1, const uint8_t *buf2, int size)
{
int num_bytes = CEIL(size, 8);
int i;
return 0;
}
-int buf_cmp_mask(const u8 *buf1, const u8 *buf2, const u8 *mask, int size)
+int buf_cmp_mask(const uint8_t *buf1, const uint8_t *buf2, const uint8_t *mask, int size)
{
int num_bytes = CEIL(size, 8);
int i;
return 0;
}
-u8* buf_set_ones(u8 *buf, int count)
+uint8_t* buf_set_ones(uint8_t *buf, int count)
{
int num_bytes = CEIL(count, 8);
int i;
return buf;
}
-u8* buf_set_buf(const u8 *src, int src_start, u8 *dst, int dst_start, int len)
+uint8_t* buf_set_buf(const uint8_t *src, int src_start, uint8_t *dst, int dst_start, int len)
{
int src_idx = src_start, dst_idx = dst_start;
int i;
return y;
}
-char* buf_to_str(const u8 *buf, int buf_len, int radix)
+char* buf_to_str(const uint8_t *buf, int buf_len, int radix)
{
const char *DIGITS = "0123456789ABCDEF";
float factor;
for (j = str_len; j > 0; j--)
{
tmp += (u32)str[j-1] * 256;
- str[j-1] = (u8)(tmp % radix);
+ str[j-1] = (uint8_t)(tmp % radix);
tmp /= radix;
}
}
return str;
}
-int str_to_buf(const char *str, int str_len, u8 *buf, int buf_len, int radix)
+int str_to_buf(const char *str, int str_len, uint8_t *buf, int buf_len, int radix)
{
char *charbuf;
u32 tmp;
float factor;
- u8 *b256_buf;
+ uint8_t *b256_buf;
int b256_len;
int j; /* base-256 digits */
for (j = 0; j < b256_len; j++)
{
tmp += (u32)b256_buf[j] * radix;
- b256_buf[j] = (u8)(tmp & 0xFF);
+ b256_buf[j] = (uint8_t)(tmp & 0xFF);
tmp >>= 8;
}
return i;
}
-int buf_to_u32_handler(u8 *in_buf, void *priv, struct scan_field_s *field)
+int buf_to_u32_handler(uint8_t *in_buf, void *priv, struct scan_field_s *field)
{
u32 *dest = priv;
*/
/* inlining this will help show what fn that is taking time during profiling. */
-static inline void buf_set_u32(u8* buffer, unsigned int first, unsigned int num, u32 value)
+static inline void buf_set_u32(uint8_t* buffer, unsigned int first, unsigned int num, u32 value)
{
if ((num==32)&&(first==0))
{
}
}
}
-static inline u32 buf_get_u32(const u8* buffer, unsigned int first, unsigned int num)
+static inline u32 buf_get_u32(const uint8_t* buffer, unsigned int first, unsigned int num)
{
if ((num==32)&&(first==0))
{
extern u32 flip_u32(u32 value, unsigned int num);
-extern int buf_cmp(const u8 *buf1, const u8 *buf2, int size);
-extern int buf_cmp_mask(const u8 *buf1, const u8 *buf2, const u8 *mask, int size);
-extern u8* buf_cpy(const u8 *from, u8 *to, int size);
+extern int buf_cmp(const uint8_t *buf1, const uint8_t *buf2, int size);
+extern int buf_cmp_mask(const uint8_t *buf1, const uint8_t *buf2, const uint8_t *mask, int size);
+extern uint8_t* buf_cpy(const uint8_t *from, uint8_t *to, int size);
-extern u8* buf_set_ones(u8 *buf, int count);
-extern u8* buf_set_buf(const u8 *src, int src_start, u8 *dst, int dst_start, int len);
+extern uint8_t* buf_set_ones(uint8_t *buf, int count);
+extern uint8_t* buf_set_buf(const uint8_t *src, int src_start, uint8_t *dst, int dst_start, int len);
-extern int str_to_buf(const char *str, int len, u8 *bin_buf, int buf_size, int radix);
-extern char* buf_to_str(const u8 *buf, int size, int radix);
+extern int str_to_buf(const char *str, int len, uint8_t *bin_buf, int buf_size, int radix);
+extern char* buf_to_str(const uint8_t *buf, int size, int radix);
struct scan_field_s;
-extern int buf_to_u32_handler(u8 *in_buf, void *priv, struct scan_field_s *field);
+extern int buf_to_u32_handler(uint8_t *in_buf, void *priv, struct scan_field_s *field);
#define CEIL(m, n) ((m + n - 1) / n)
/* read a u32 from a buffer in target memory endianness */
-static inline u32 fast_target_buffer_get_u32(const u8 *buffer, int little)
+static inline u32 fast_target_buffer_get_u32(const uint8_t *buffer, int little)
{
if (little)
return le_to_h_u32(buffer);
return ERROR_OK;
}
-static inline int fileio_local_read(fileio_t *fileio, u32 size, u8 *buffer, u32 *size_read)
+static inline int fileio_local_read(fileio_t *fileio, u32 size, uint8_t *buffer, u32 *size_read)
{
*size_read = fread(buffer, 1, size, fileio->file);
return ERROR_OK;
}
-int fileio_read(fileio_t *fileio, u32 size, u8 *buffer, u32 *size_read)
+int fileio_read(fileio_t *fileio, u32 size, uint8_t *buffer, u32 *size_read)
{
return fileio_local_read(fileio, size, buffer, size_read);
}
int fileio_read_u32(fileio_t *fileio, u32 *data)
{
- u8 buf[4];
+ uint8_t buf[4];
u32 size_read;
int retval;
return fileio_local_fgets(fileio, size, buffer);
}
-static inline int fileio_local_write(fileio_t *fileio, u32 size, const u8 *buffer, u32 *size_written)
+static inline int fileio_local_write(fileio_t *fileio, u32 size, const uint8_t *buffer, u32 *size_written)
{
*size_written = fwrite(buffer, 1, size, fileio->file);
return ERROR_OK;
}
-int fileio_write(fileio_t *fileio, u32 size, const u8 *buffer, u32 *size_written)
+int fileio_write(fileio_t *fileio, u32 size, const uint8_t *buffer, u32 *size_written)
{
int retval;
int fileio_write_u32(fileio_t *fileio, u32 data)
{
- u8 buf[4];
+ uint8_t buf[4];
u32 size_written;
int retval;
FILE *file;
} fileio_t;
-extern int fileio_write(fileio_t *fileio, u32 size, const u8 *buffer, u32 *size_written);
-extern int fileio_read(fileio_t *fileio, u32 size, u8 *buffer, u32 *size_read);
+extern int fileio_write(fileio_t *fileio, u32 size, const uint8_t *buffer, u32 *size_written);
+extern int fileio_read(fileio_t *fileio, u32 size, uint8_t *buffer, u32 *size_read);
extern int fileio_fgets(fileio_t *fileio, u32 size, char *buffer);
extern int fileio_seek(fileio_t *fileio, u32 position);
extern int fileio_close(fileio_t *fileio);
#include <stdint.h>
#endif
-#ifndef u8
-typedef unsigned char u8;
+#ifndef uint8_t
+typedef unsigned char uint8_t;
#endif
#ifndef u16
*/
-static inline u32 le_to_h_u32(const u8* buf)
+static inline u32 le_to_h_u32(const uint8_t* buf)
{
return (u32)(buf[0] | buf[1] << 8 | buf[2] << 16 | buf[3] << 24);
}
-static inline u16 le_to_h_u16(const u8* buf)
+static inline u16 le_to_h_u16(const uint8_t* buf)
{
return (u16)(buf[0] | buf[1] << 8);
}
-static inline u32 be_to_h_u32(const u8* buf)
+static inline u32 be_to_h_u32(const uint8_t* buf)
{
return (u32)(buf[3] | buf[2] << 8 | buf[1] << 16 | buf[0] << 24);
}
-static inline u16 be_to_h_u16(const u8* buf)
+static inline u16 be_to_h_u16(const uint8_t* buf)
{
return (u16)(buf[1] | buf[0] << 8);
}
-static inline void h_u32_to_le(u8* buf, int val)
+static inline void h_u32_to_le(uint8_t* buf, int val)
{
- buf[3] = (u8) (val >> 24);
- buf[2] = (u8) (val >> 16);
- buf[1] = (u8) (val >> 8);
- buf[0] = (u8) (val >> 0);
+ buf[3] = (uint8_t) (val >> 24);
+ buf[2] = (uint8_t) (val >> 16);
+ buf[1] = (uint8_t) (val >> 8);
+ buf[0] = (uint8_t) (val >> 0);
}
-static inline void h_u32_to_be(u8* buf, int val)
+static inline void h_u32_to_be(uint8_t* buf, int val)
{
- buf[0] = (u8) (val >> 24);
- buf[1] = (u8) (val >> 16);
- buf[2] = (u8) (val >> 8);
- buf[3] = (u8) (val >> 0);
+ buf[0] = (uint8_t) (val >> 24);
+ buf[1] = (uint8_t) (val >> 16);
+ buf[2] = (uint8_t) (val >> 8);
+ buf[3] = (uint8_t) (val >> 0);
}
-static inline void h_u16_to_le(u8* buf, int val)
+static inline void h_u16_to_le(uint8_t* buf, int val)
{
- buf[1] = (u8) (val >> 8);
- buf[0] = (u8) (val >> 0);
+ buf[1] = (uint8_t) (val >> 8);
+ buf[0] = (uint8_t) (val >> 0);
}
-static inline void h_u16_to_be(u8* buf, int val)
+static inline void h_u16_to_be(uint8_t* buf, int val)
{
- buf[0] = (u8) (val >> 8);
- buf[1] = (u8) (val >> 0);
+ buf[0] = (uint8_t) (val >> 8);
+ buf[1] = (uint8_t) (val >> 0);
}
#ifdef __ECOS
/* interface variables
*/
-static u8 aw_control_rst = 0x00;
-static u8 aw_control_fsm = 0x10;
-static u8 aw_control_baudrate = 0x20;
+static uint8_t aw_control_rst = 0x00;
+static uint8_t aw_control_fsm = 0x10;
+static uint8_t aw_control_baudrate = 0x20;
static int rtck_enabled = 0;
* 4: Shift-IR
* 5: Pause-IR
*/
-static u8 amt_jtagaccel_tap_move[6][6][2] =
+static uint8_t amt_jtagaccel_tap_move[6][6][2] =
{
/* RESET IDLE DRSHIFT DRPAUSE IRSHIFT IRPAUSE */
{{0x1f, 0x00}, {0x0f, 0x00}, {0x8a, 0x04}, {0x0a, 0x00}, {0x06, 0x00}, {0x96, 0x00}}, /* RESET */
static void amt_wait_scan_busy(void)
{
int timeout = 4096;
- u8 ar_status;
+ uint8_t ar_status;
AMT_AR(ar_status);
while (((ar_status) & 0x80) && (timeout-- > 0))
static void amt_jtagaccel_state_move(void)
{
- u8 aw_scan_tms_5;
- u8 tms_scan[2];
+ uint8_t aw_scan_tms_5;
+ uint8_t tms_scan[2];
tap_state_t cur_state = tap_get_state();
tap_state_t end_state = tap_get_end_state();
static void amt_jtagaccel_runtest(int num_cycles)
{
int i = 0;
- u8 aw_scan_tms_5;
- u8 aw_scan_tms_1to4;
+ uint8_t aw_scan_tms_5;
+ uint8_t aw_scan_tms_1to4;
tap_state_t saved_end_state = tap_get_end_state();
amt_jtagaccel_state_move();
}
-static void amt_jtagaccel_scan(bool ir_scan, enum scan_type type, u8 *buffer, int scan_size)
+static void amt_jtagaccel_scan(bool ir_scan, enum scan_type type, uint8_t *buffer, int scan_size)
{
int bits_left = scan_size;
int bit_count = 0;
tap_state_t saved_end_state = tap_get_end_state();
- u8 aw_tdi_option;
- u8 dw_tdi_scan;
- u8 dr_tdo;
- u8 aw_tms_scan;
- u8 tms_scan[2];
+ uint8_t aw_tdi_option;
+ uint8_t dw_tdi_scan;
+ uint8_t dr_tdo;
+ uint8_t aw_tms_scan;
+ uint8_t tms_scan[2];
int jtag_speed = jtag_get_speed();
if (ir_scan)
jtag_command_t *cmd = jtag_command_queue; /* currently processed command */
int scan_size;
enum scan_type type;
- u8 *buffer;
+ uint8_t *buffer;
int retval;
/* return ERROR_OK, unless a jtag_read_buffer returns a failed check
#if PARPORT_USE_PPDEV == 1
char buffer[256];
int i = 0;
- u8 control_port;
+ uint8_t control_port;
#else
- u8 status_port;
+ uint8_t status_port;
#endif
- u8 ar_status;
+ uint8_t ar_status;
#if PARPORT_USE_PPDEV == 1
if (device_handle > 0)
#define CMD_TGPWR_SETUP 0x22
/* Global USB buffers */
-static u8 usb_in_buffer[ARMJTAGEW_IN_BUFFER_SIZE];
-static u8 usb_out_buffer[ARMJTAGEW_OUT_BUFFER_SIZE];
+static uint8_t usb_in_buffer[ARMJTAGEW_IN_BUFFER_SIZE];
+static uint8_t usb_out_buffer[ARMJTAGEW_OUT_BUFFER_SIZE];
/* External interface functions */
static int armjtagew_execute_queue(void);
static void armjtagew_state_move(void);
static void armjtagew_path_move(int num_states, tap_state_t *path);
static void armjtagew_runtest(int num_cycles);
-static void armjtagew_scan(bool ir_scan, enum scan_type type, u8 *buffer, int scan_size, scan_command_t *command);
+static void armjtagew_scan(bool ir_scan, enum scan_type type, uint8_t *buffer, int scan_size, scan_command_t *command);
static void armjtagew_reset(int trst, int srst);
-//static void armjtagew_simple_command(u8 command);
+//static void armjtagew_simple_command(uint8_t command);
static int armjtagew_get_status(void);
/* tap buffer functions */
static int armjtagew_tap_execute(void);
static void armjtagew_tap_ensure_space(int scans, int bits);
static void armjtagew_tap_append_step(int tms, int tdi);
-static void armjtagew_tap_append_scan(int length, u8 *buffer, scan_command_t *command);
+static void armjtagew_tap_append_scan(int length, uint8_t *buffer, scan_command_t *command);
/* ARM-JTAG-EW lowlevel functions */
typedef struct armjtagew_jtag
static int armjtagew_get_version_info(void);
#ifdef _DEBUG_USB_COMMS_
-static void armjtagew_debug_buffer(u8 *buffer, int length);
+static void armjtagew_debug_buffer(uint8_t *buffer, int length);
#endif
static armjtagew_jtag_t* armjtagew_jtag_handle;
jtag_command_t *cmd = jtag_command_queue;
int scan_size;
enum scan_type type;
- u8 *buffer;
+ uint8_t *buffer;
while (cmd != NULL)
{
{
int i;
int tms = 0;
- u8 tms_scan = tap_get_tms_path(tap_get_state(), tap_get_end_state());
+ uint8_t tms_scan = tap_get_tms_path(tap_get_state(), tap_get_end_state());
int tms_count = tap_get_tms_path_len(tap_get_state(), tap_get_end_state());
for (i = 0; i < tms_count; i++)
}
}
-static void armjtagew_scan(bool ir_scan, enum scan_type type, u8 *buffer, int scan_size, scan_command_t *command)
+static void armjtagew_scan(bool ir_scan, enum scan_type type, uint8_t *buffer, int scan_size, scan_command_t *command)
{
tap_state_t saved_end_state;
static void armjtagew_reset(int trst, int srst)
{
- const u8 trst_mask = (1u<<5);
- const u8 srst_mask = (1u<<6);
- u8 val = 0;
- u8 outp_en = 0;
- u8 change_mask = 0;
+ const uint8_t trst_mask = (1u<<5);
+ const uint8_t srst_mask = (1u<<6);
+ uint8_t val = 0;
+ uint8_t outp_en = 0;
+ uint8_t change_mask = 0;
int result;
LOG_DEBUG("trst: %i, srst: %i", trst, srst);
#define ARMJTAGEW_TAP_BUFFER_SIZE 2048
static int tap_length;
-static u8 tms_buffer[ARMJTAGEW_TAP_BUFFER_SIZE];
-static u8 tdi_buffer[ARMJTAGEW_TAP_BUFFER_SIZE];
-static u8 tdo_buffer[ARMJTAGEW_TAP_BUFFER_SIZE];
+static uint8_t tms_buffer[ARMJTAGEW_TAP_BUFFER_SIZE];
+static uint8_t tdi_buffer[ARMJTAGEW_TAP_BUFFER_SIZE];
+static uint8_t tdo_buffer[ARMJTAGEW_TAP_BUFFER_SIZE];
typedef struct
{
int first; /* First bit position in tdo_buffer to read */
int length; /* Number of bits to read */
scan_command_t *command; /* Corresponding scan command */
- u8 *buffer;
+ uint8_t *buffer;
} pending_scan_result_t;
#define MAX_PENDING_SCAN_RESULTS 256
if (index < ARMJTAGEW_TAP_BUFFER_SIZE)
{
int bit_index = tap_length % 8;
- u8 bit = 1 << bit_index;
+ uint8_t bit = 1 << bit_index;
if (tms)
{
}
}
-void armjtagew_tap_append_scan(int length, u8 *buffer, scan_command_t *command)
+void armjtagew_tap_append_scan(int length, uint8_t *buffer, scan_command_t *command)
{
pending_scan_result_t *pending_scan_result = &pending_scan_results_buffer[pending_scan_results_length];
int i;
for (i = 0; i < pending_scan_results_length; i++)
{
pending_scan_result_t *pending_scan_result = &pending_scan_results_buffer[i];
- u8 *buffer = pending_scan_result->buffer;
+ uint8_t *buffer = pending_scan_result->buffer;
int length = pending_scan_result->length;
int first = pending_scan_result->first;
scan_command_t *command = pending_scan_result->command;
#ifdef _DEBUG_USB_COMMS_
#define BYTES_PER_LINE 16
-static void armjtagew_debug_buffer(u8 *buffer, int length)
+static void armjtagew_debug_buffer(uint8_t *buffer, int length)
{
char line[81];
char s[4];
static void bitbang_state_move(int skip)
{
int i=0, tms=0;
- u8 tms_scan = tap_get_tms_path(tap_get_state(), tap_get_end_state());
+ uint8_t tms_scan = tap_get_tms_path(tap_get_state(), tap_get_end_state());
int tms_count = tap_get_tms_path_len(tap_get_state(), tap_get_end_state());
for (i = skip; i < tms_count; i++)
-static void bitbang_scan(bool ir_scan, enum scan_type type, u8 *buffer, int scan_size)
+static void bitbang_scan(bool ir_scan, enum scan_type type, uint8_t *buffer, int scan_size)
{
tap_state_t saved_end_state = tap_get_end_state();
int bit_cnt;
jtag_command_t *cmd = jtag_command_queue; /* currently processed command */
int scan_size;
enum scan_type type;
- u8 *buffer;
+ uint8_t *buffer;
int retval;
if (!bitbang_interface)
static bitq_state_t bitq_in_state; /* state of input queue */
-static u8* bitq_in_buffer; /* buffer dynamically reallocated as needed */
+static uint8_t* bitq_in_buffer; /* buffer dynamically reallocated as needed */
static int bitq_in_bufsize = 32; /* min. buffer size */
/*
void bitq_in_proc(void)
{
/* static information preserved between calls to increase performance */
- static u8* in_buff; /* pointer to buffer for scanned data */
+ static uint8_t* in_buff; /* pointer to buffer for scanned data */
static int in_idx; /* index of byte being scanned */
- static u8 in_mask; /* mask of next bit to be scanned */
+ static uint8_t in_mask; /* mask of next bit to be scanned */
scan_field_t* field;
int tdo;
void bitq_state_move(tap_state_t new_state)
{
int i = 0;
- u8 tms_scan;
+ uint8_t tms_scan;
if (!tap_is_state_stable(tap_get_state()) || !tap_is_state_stable(new_state))
{
int bit_cnt;
int tdo_req;
- u8* out_ptr;
- u8 out_mask;
+ uint8_t* out_ptr;
+ uint8_t out_mask;
if (field->in_value)
tdo_req = 1;
{
cmd_queue_page_t **p_page = &cmd_queue_pages;
int offset;
- u8 *t;
+ uint8_t *t;
/*
* WARNING:
offset = (*p_page)->used;
(*p_page)->used += size;
- t=(u8 *)((*p_page)->address);
+ t=(uint8_t *)((*p_page)->address);
return t + offset;
}
return bit_count;
}
-int jtag_build_buffer(const scan_command_t *cmd, u8 **buffer)
+int jtag_build_buffer(const scan_command_t *cmd, uint8_t **buffer)
{
int bit_count = 0;
int i;
return bit_count;
}
-int jtag_read_buffer(u8 *buffer, const scan_command_t *cmd)
+int jtag_read_buffer(uint8_t *buffer, const scan_command_t *cmd)
{
int i;
int bit_count = 0;
if (cmd->fields[i].in_value)
{
int num_bits = cmd->fields[i].num_bits;
- u8 *captured = buf_set_buf(buffer, bit_count, malloc(CEIL(num_bits, 8)), 0, num_bits);
+ uint8_t *captured = buf_set_buf(buffer, bit_count, malloc(CEIL(num_bits, 8)), 0, num_bits);
#ifdef _DEBUG_JTAG_IO_
char *char_buf = buf_to_str(captured, (num_bits > DEBUG_JTAG_IOZ) ? DEBUG_JTAG_IOZ : num_bits, 16);
enum scan_type jtag_scan_type(const scan_command_t* cmd);
int jtag_scan_size(const scan_command_t* cmd);
-int jtag_read_buffer(u8* buffer, const scan_command_t* cmd);
-int jtag_build_buffer(const scan_command_t* cmd, u8** buffer);
+int jtag_read_buffer(uint8_t* buffer, const scan_command_t* cmd);
+int jtag_build_buffer(const scan_command_t* cmd, uint8_t** buffer);
#endif // JTAG_COMMANDS_H
jtag_set_error(retval);
}
-void jtag_add_callback(jtag_callback1_t f, u8 *in)
+void jtag_add_callback(jtag_callback1_t f, uint8_t *in)
{
interface_jtag_add_callback(f, in);
}
-void jtag_add_callback4(jtag_callback_t f, u8 *in,
+void jtag_add_callback4(jtag_callback_t f, uint8_t *in,
jtag_callback_data_t data1, jtag_callback_data_t data2,
jtag_callback_data_t data3)
{
interface_jtag_add_callback4(f, in, data1, data2, data3);
}
-int jtag_check_value_inner(u8 *captured, u8 *in_check_value, u8 *in_check_mask, int num_bits);
+int jtag_check_value_inner(uint8_t *captured, uint8_t *in_check_value, uint8_t *in_check_mask, int num_bits);
-static int jtag_check_value_mask_callback(u8 *in, jtag_callback_data_t data1, jtag_callback_data_t data2, jtag_callback_data_t data3)
+static int jtag_check_value_mask_callback(uint8_t *in, jtag_callback_data_t data1, jtag_callback_data_t data2, jtag_callback_data_t data3)
{
- return jtag_check_value_inner(in, (u8 *)data1, (u8 *)data2, (int)data3);
+ return jtag_check_value_inner(in, (uint8_t *)data1, (uint8_t *)data2, (int)data3);
}
static void jtag_add_scan_check(void (*jtag_add_scan)(int in_num_fields, const scan_field_t *in_fields, tap_state_t state),
jtag_set_error(interface_jtag_add_sleep(us));
}
-int jtag_check_value_inner(u8 *captured, u8 *in_check_value, u8 *in_check_mask, int num_bits)
+int jtag_check_value_inner(uint8_t *captured, uint8_t *in_check_value, uint8_t *in_check_mask, int num_bits)
{
int retval = ERROR_OK;
return retval;
}
-void jtag_check_value_mask(scan_field_t *field, u8 *value, u8 *mask)
+void jtag_check_value_mask(scan_field_t *field, uint8_t *value, uint8_t *mask)
{
assert(field->in_value != NULL);
#define EXTRACT_PART(X) (((X) & 0xffff000) >> 12)
#define EXTRACT_VER(X) (((X) & 0xf0000000) >> 28)
-static int jtag_examine_chain_execute(u8 *idcode_buffer, unsigned num_idcode)
+static int jtag_examine_chain_execute(uint8_t *idcode_buffer, unsigned num_idcode)
{
scan_field_t field = {
.tap = NULL,
return jtag_execute_queue();
}
-static bool jtag_examine_chain_check(u8 *idcodes, unsigned count)
+static bool jtag_examine_chain_check(uint8_t *idcodes, unsigned count)
{
- u8 zero_check = 0x0;
- u8 one_check = 0xff;
+ uint8_t zero_check = 0x0;
+ uint8_t one_check = 0xff;
for (unsigned i = 0; i < count * 4; i++)
{
* read back correctly. This can help identify and diagnose problems
* with the JTAG chain earlier, gives more helpful/explicit error messages.
*/
-static void jtag_examine_chain_end(u8 *idcodes, unsigned count, unsigned max)
+static void jtag_examine_chain_end(uint8_t *idcodes, unsigned count, unsigned max)
{
bool triggered = false;
for ( ; count < max - 31; count += 32)
}
/* Loop over the expected identification codes and test for a match */
- u8 ii;
+ uint8_t ii;
for (ii = 0; ii < tap->expected_ids_cnt; ii++)
{
if (tap->idcode == tap->expected_ids[ii])
*/
int jtag_examine_chain(void)
{
- u8 idcode_buffer[JTAG_MAX_CHAIN_SIZE * 4];
+ uint8_t idcode_buffer[JTAG_MAX_CHAIN_SIZE * 4];
unsigned device_count = 0;
jtag_examine_chain_execute(idcode_buffer, JTAG_MAX_CHAIN_SIZE);
{
jtag_tap_t *tap;
int total_ir_length = 0;
- u8 *ir_test = NULL;
+ uint8_t *ir_test = NULL;
scan_field_t field;
int chain_pos = 0;
struct jtag_callback_entry *next;
jtag_callback_t callback;
- u8 *in;
+ uint8_t *in;
jtag_callback_data_t data1;
jtag_callback_data_t data2;
jtag_callback_data_t data3;
for (int j = 0; j < in_num_fields; j++)
{
- u8 out_value[4];
+ uint8_t out_value[4];
size_t scan_size = num_bits[j];
buf_set_u32(out_value, 0, scan_size, value[j]);
}
/* add callback to end of queue */
-void interface_jtag_add_callback4(jtag_callback_t callback, u8 *in, jtag_callback_data_t data1, jtag_callback_data_t data2, jtag_callback_data_t data3)
+void interface_jtag_add_callback4(jtag_callback_t callback, uint8_t *in, jtag_callback_data_t data1, jtag_callback_data_t data2, jtag_callback_data_t data3)
{
struct jtag_callback_entry *entry=cmd_queue_alloc(sizeof(struct jtag_callback_entry));
return retval;
}
-static int jtag_convert_to_callback4(u8 *in, jtag_callback_data_t data1, jtag_callback_data_t data2, jtag_callback_data_t data3)
+static int jtag_convert_to_callback4(uint8_t *in, jtag_callback_data_t data1, jtag_callback_data_t data2, jtag_callback_data_t data3)
{
((jtag_callback1_t)data1)(in);
return ERROR_OK;
}
-void interface_jtag_add_callback(jtag_callback1_t callback, u8 *in)
+void interface_jtag_add_callback(jtag_callback1_t callback, uint8_t *in)
{
jtag_add_callback4(jtag_convert_to_callback4, in, (jtag_callback_data_t)callback, 0, 0);
}
#include <sys/mman.h>
-static u8 output_value = 0x0;
+static uint8_t output_value = 0x0;
static int dev_mem_fd;
static void *gpio_controller;
-static volatile u8 *gpio_data_register;
-static volatile u8 *gpio_data_direction_register;
+static volatile uint8_t *gpio_data_register;
+static volatile uint8_t *gpio_data_direction_register;
/* low level command set
*/
static char* ft2232_device_desc = NULL;
static char* ft2232_serial = NULL;
static char* ft2232_layout = NULL;
-static u8 ft2232_latency = 2;
+static uint8_t ft2232_latency = 2;
static unsigned ft2232_max_tck = 6000;
{ NULL, NULL, NULL, NULL },
};
-static u8 nTRST, nTRSTnOE, nSRST, nSRSTnOE;
+static uint8_t nTRST, nTRSTnOE, nSRST, nSRSTnOE;
static const ft2232_layout_t *layout;
-static u8 low_output = 0x0;
-static u8 low_direction = 0x0;
-static u8 high_output = 0x0;
-static u8 high_direction = 0x0;
+static uint8_t low_output = 0x0;
+static uint8_t low_direction = 0x0;
+static uint8_t high_output = 0x0;
+static uint8_t high_direction = 0x0;
#if BUILD_FT2232_FTD2XX == 1
static FT_HANDLE ftdih = NULL;
#define FT2232_BUFFER_SIZE 131072
-static u8* ft2232_buffer = NULL;
+static uint8_t* ft2232_buffer = NULL;
static int ft2232_buffer_size = 0;
static int ft2232_read_pointer = 0;
static int ft2232_expect_read = 0;
* writes a byte into the byte buffer, "ft2232_buffer", which must be sent later.
* @param val is the byte to send.
*/
-static inline void buffer_write(u8 val)
+static inline void buffer_write(uint8_t val)
{
assert(ft2232_buffer);
assert((unsigned) ft2232_buffer_size < (unsigned) FT2232_BUFFER_SIZE);
* Function buffer_read
* returns a byte from the byte buffer.
*/
-static inline u8 buffer_read(void)
+static inline uint8_t buffer_read(void)
{
assert(ft2232_buffer);
assert(ft2232_read_pointer < ft2232_buffer_size);
*
* See the MPSSE spec referenced above.
*/
-static void clock_tms(u8 mpsse_cmd, int tms_bits, int tms_count, bool tdi_bit)
+static void clock_tms(uint8_t mpsse_cmd, int tms_bits, int tms_count, bool tdi_bit)
{
- u8 tms_byte;
+ uint8_t tms_byte;
int i;
int tms_ndx; /* bit index into tms_byte */
.quit = ft2232_quit,
};
-static int ft2232_write(u8* buf, int size, u32* bytes_written)
+static int ft2232_write(uint8_t* buf, int size, u32* bytes_written)
{
#if BUILD_FT2232_FTD2XX == 1
FT_STATUS status;
}
-static int ft2232_read(u8* buf, u32 size, u32* bytes_read)
+static int ft2232_read(uint8_t* buf, u32 size, u32* bytes_read)
{
#if BUILD_FT2232_FTD2XX == 1
DWORD dw_bytes_read;
}
}
- u8 buf = use_adaptive_clocking ? 0x96 : 0x97;
+ uint8_t buf = use_adaptive_clocking ? 0x96 : 0x97;
LOG_DEBUG("%2.2x", buf);
u32 bytes_written;
static int ft2232_speed(int speed)
{
- u8 buf[3];
+ uint8_t buf[3];
int retval;
u32 bytes_written;
}
}
-static void ft2232_read_scan(enum scan_type type, u8* buffer, int scan_size)
+static void ft2232_read_scan(enum scan_type type, uint8_t* buffer, int scan_size)
{
int num_bytes = (scan_size + 7) / 8;
int bits_left = scan_size;
static int ft2232_send_and_recv(jtag_command_t* first, jtag_command_t* last)
{
jtag_command_t* cmd;
- u8* buffer;
+ uint8_t* buffer;
int scan_size;
enum scan_type type;
int retval;
}
-static void ft2232_add_scan(bool ir_scan, enum scan_type type, u8* buffer, int scan_size)
+static void ft2232_add_scan(bool ir_scan, enum scan_type type, uint8_t* buffer, int scan_size)
{
int num_bytes = (scan_size + 7) / 8;
int bits_left = scan_size;
thisrun_bytes = (num_bytes > 65537) ? 65536 : (num_bytes - 1);
num_bytes -= thisrun_bytes;
- buffer_write((u8) (thisrun_bytes - 1));
- buffer_write((u8) ((thisrun_bytes - 1) >> 8));
+ buffer_write((uint8_t) (thisrun_bytes - 1));
+ buffer_write((uint8_t) ((thisrun_bytes - 1) >> 8));
if (type != SCAN_IN)
{
{
int tms_bits;
int tms_count;
- u8 mpsse_cmd;
+ uint8_t mpsse_cmd;
/* move from Shift-IR/DR to end state */
if (type != SCAN_OUT)
}
-static int ft2232_large_scan(scan_command_t* cmd, enum scan_type type, u8* buffer, int scan_size)
+static int ft2232_large_scan(scan_command_t* cmd, enum scan_type type, uint8_t* buffer, int scan_size)
{
int num_bytes = (scan_size + 7) / 8;
int bits_left = scan_size;
int cur_byte = 0;
int last_bit;
- u8* receive_buffer = malloc(CEIL(scan_size, 8));
- u8* receive_pointer = receive_buffer;
+ uint8_t* receive_buffer = malloc(CEIL(scan_size, 8));
+ uint8_t* receive_pointer = receive_buffer;
u32 bytes_written;
u32 bytes_read;
int retval;
thisrun_bytes = (num_bytes > 65537) ? 65536 : (num_bytes - 1);
thisrun_read = thisrun_bytes;
num_bytes -= thisrun_bytes;
- buffer_write((u8) (thisrun_bytes - 1));
- buffer_write((u8) ((thisrun_bytes - 1) >> 8));
+ buffer_write((uint8_t) (thisrun_bytes - 1));
+ buffer_write((uint8_t) ((thisrun_bytes - 1) >> 8));
if (type != SCAN_IN)
{
{
int tms_bits = tap_get_tms_path(tap_get_state(), tap_get_end_state());
int tms_count = tap_get_tms_path_len(tap_get_state(), tap_get_end_state());
- u8 mpsse_cmd;
+ uint8_t mpsse_cmd;
/* move from Shift-IR/DR to end state */
if (type != SCAN_OUT)
static int ft2232_execute_scan(jtag_command_t *cmd)
{
- u8* buffer;
+ uint8_t* buffer;
int scan_size; /* size of IR or DR scan */
int predicted_size = 0;
int retval = ERROR_OK;
char Description[64];
DWORD openex_flags = 0;
char* openex_string = NULL;
- u8 latency_timer;
+ uint8_t latency_timer;
LOG_DEBUG("'ft2232' interface using FTD2XX with '%s' layout (%4.4x:%4.4x)", ft2232_layout, vid, pid);
#if BUILD_FT2232_LIBFTDI == 1
static int ft2232_init_libftdi(u16 vid, u16 pid, int more, int* try_more)
{
- u8 latency_timer;
+ uint8_t latency_timer;
LOG_DEBUG("'ft2232' interface using libftdi with '%s' layout (%4.4x:%4.4x)",
ft2232_layout, vid, pid);
static int ft2232_init(void)
{
- u8 buf[1];
+ uint8_t buf[1];
int retval;
u32 bytes_written;
const ft2232_layout_t* cur_layout = ft2232_layouts;
static int usbjtag_init(void)
{
- u8 buf[3];
+ uint8_t buf[3];
u32 bytes_written;
low_output = 0x08;
static int axm0432_jtag_init(void)
{
- u8 buf[3];
+ uint8_t buf[3];
u32 bytes_written;
low_output = 0x08;
static int jtagkey_init(void)
{
- u8 buf[3];
+ uint8_t buf[3];
u32 bytes_written;
low_output = 0x08;
static int olimex_jtag_init(void)
{
- u8 buf[3];
+ uint8_t buf[3];
u32 bytes_written;
low_output = 0x08;
static int flyswatter_init(void)
{
- u8 buf[3];
+ uint8_t buf[3];
u32 bytes_written;
low_output = 0x18;
static int turtle_init(void)
{
- u8 buf[3];
+ uint8_t buf[3];
u32 bytes_written;
low_output = 0x08;
static int comstick_init(void)
{
- u8 buf[3];
+ uint8_t buf[3];
u32 bytes_written;
low_output = 0x08;
static int stm32stick_init(void)
{
- u8 buf[3];
+ uint8_t buf[3];
u32 bytes_written;
low_output = 0x88;
static int sheevaplug_init(void)
{
- u8 buf[3];
+ uint8_t buf[3];
u32 bytes_written;
low_output = 0x08;
static int cortino_jtag_init(void)
{
- u8 buf[3];
+ uint8_t buf[3];
u32 bytes_written;
low_output = 0x08;
int retval = 0;
/* 7 bits of either ones or zeros. */
- u8 tms = (tap_get_state() == TAP_RESET ? 0x7F : 0x00);
+ uint8_t tms = (tap_get_state() == TAP_RESET ? 0x7F : 0x00);
while (num_cycles > 0)
{
* ADBUS7 - GND
*/
static int icebear_jtag_init(void) {
- u8 buf[3];
+ uint8_t buf[3];
u32 bytes_written;
low_direction = 0x0b; /* output: TCK TDI TMS; input: TDO */
/* interface variables
*/
-static u8 gw16012_msb = 0x0;
-static u8 gw16012_control_value = 0x0;
+static uint8_t gw16012_msb = 0x0;
+static uint8_t gw16012_control_value = 0x0;
#if PARPORT_USE_PPDEV == 1
static int device_handle;
return ERROR_OK;
}
-static void gw16012_data(u8 value)
+static void gw16012_data(uint8_t value)
{
value = (value & 0x7f) | gw16012_msb;
gw16012_msb ^= 0x80; /* toggle MSB */
#endif
}
-static void gw16012_control(u8 value)
+static void gw16012_control(uint8_t value)
{
if (value != gw16012_control_value)
{
}
}
-static void gw16012_input(u8 *value)
+static void gw16012_input(uint8_t *value)
{
#if PARPORT_USE_PPDEV == 1
ioctl(device_handle, PPRSTATUS, value);
static void gw16012_state_move(void)
{
int i=0, tms=0;
- u8 tms_scan = tap_get_tms_path(tap_get_state(), tap_get_end_state());
+ uint8_t tms_scan = tap_get_tms_path(tap_get_state(), tap_get_end_state());
int tms_count = tap_get_tms_path_len(tap_get_state(), tap_get_end_state());
gw16012_control(0x0); /* single-bit mode */
gw16012_state_move();
}
-static void gw16012_scan(bool ir_scan, enum scan_type type, u8 *buffer, int scan_size)
+static void gw16012_scan(bool ir_scan, enum scan_type type, uint8_t *buffer, int scan_size)
{
int bits_left = scan_size;
int bit_count = 0;
tap_state_t saved_end_state = tap_get_end_state();
- u8 scan_out, scan_in;
+ uint8_t scan_out, scan_in;
/* only if we're not already in the correct Shift state */
if (!((!ir_scan && (tap_get_state() == TAP_DRSHIFT)) || (ir_scan && (tap_get_state() == TAP_IRSHIFT))))
gw16012_control(0x0); /* single-bit mode */
while (bits_left-- > 0)
{
- u8 tms = 0;
+ uint8_t tms = 0;
scan_out = buf_get_u32(buffer, bit_count, 1);
jtag_command_t *cmd = jtag_command_queue; /* currently processed command */
int scan_size;
enum scan_type type;
- u8 *buffer;
+ uint8_t *buffer;
int retval;
/* return ERROR_OK, unless a jtag_read_buffer returns a failed check
static int gw16012_init(void)
{
- u8 status_port;
+ uint8_t status_port;
if (gw16012_init_device() != ERROR_OK)
return ERROR_JTAG_INIT_FAILED;
*/
struct tms_sequences
{
- u8 bits;
- u8 bit_count;
+ uint8_t bits;
+ uint8_t bit_count;
};
+(((x) & 0x0F000000LU)?(1<<6):0) \
+(((x) & 0xF0000000LU)?(1<<7):0)
-#define B8(bits,count) { ((u8)B8__(HEX__(bits))), (count) }
+#define B8(bits,count) { ((uint8_t)B8__(HEX__(bits))), (count) }
static const struct tms_sequences old_tms_seqs[6][6] = /* [from_state_ndx][to_state_ndx] */
{
tap_state_t jtag_debug_state_machine(const void *tms_buf, const void *tdi_buf,
unsigned tap_bits, tap_state_t next_state)
{
- const u8 *tms_buffer;
- const u8 *tdi_buffer;
+ const uint8_t *tms_buffer;
+ const uint8_t *tdi_buffer;
unsigned tap_bytes;
unsigned cur_byte;
unsigned cur_bit;
last_state = next_state;
DEBUG_JTAG_IO("TAP/SM: START state: %s", tap_state_name(next_state));
- tms_buffer = (const u8 *)tms_buf;
- tdi_buffer = (const u8 *)tdi_buf;
+ tms_buffer = (const uint8_t *)tms_buf;
+ tdi_buffer = (const uint8_t *)tdi_buf;
tap_bytes = TAP_SCAN_BYTES(tap_bits);
DEBUG_JTAG_IO("TAP/SM: TMS bits: %u (bytes: %u)", tap_bits, tap_bytes);
#define JLINK_EMU_RESULT_BUFFER_SIZE 64
/* Global USB buffers */
-static u8 usb_in_buffer[JLINK_IN_BUFFER_SIZE];
-static u8 usb_out_buffer[JLINK_OUT_BUFFER_SIZE];
-static u8 usb_emu_result_buffer[JLINK_EMU_RESULT_BUFFER_SIZE];
+static uint8_t usb_in_buffer[JLINK_IN_BUFFER_SIZE];
+static uint8_t usb_out_buffer[JLINK_OUT_BUFFER_SIZE];
+static uint8_t usb_emu_result_buffer[JLINK_EMU_RESULT_BUFFER_SIZE];
/* Constants for JLink command */
#define EMU_CMD_VERSION 0x01
static void jlink_state_move(void);
static void jlink_path_move(int num_states, tap_state_t *path);
static void jlink_runtest(int num_cycles);
-static void jlink_scan(bool ir_scan, enum scan_type type, u8 *buffer, int scan_size, scan_command_t *command);
+static void jlink_scan(bool ir_scan, enum scan_type type, uint8_t *buffer, int scan_size, scan_command_t *command);
static void jlink_reset(int trst, int srst);
-static void jlink_simple_command(u8 command);
+static void jlink_simple_command(uint8_t command);
static int jlink_get_status(void);
/* J-Link tap buffer functions */
static int jlink_tap_execute(void);
static void jlink_tap_ensure_space(int scans, int bits);
static void jlink_tap_append_step(int tms, int tdi);
-static void jlink_tap_append_scan(int length, u8 *buffer, scan_command_t *command);
+static void jlink_tap_append_scan(int length, uint8_t *buffer, scan_command_t *command);
/* Jlink lowlevel functions */
typedef struct jlink_jtag
static int jlink_get_version_info(void);
#ifdef _DEBUG_USB_COMMS_
-static void jlink_debug_buffer(u8 *buffer, int length);
+static void jlink_debug_buffer(uint8_t *buffer, int length);
#endif
static enum tap_state jlink_last_state = TAP_RESET;
{
int scan_size;
enum scan_type type;
- u8 *buffer;
+ uint8_t *buffer;
DEBUG_JTAG_IO("scan end in %s", tap_state_name(cmd->cmd.scan->end_state));
{
int i;
int tms = 0;
- u8 tms_scan = tap_get_tms_path(tap_get_state(), tap_get_end_state());
- u8 tms_scan_bits = tap_get_tms_path_len(tap_get_state(), tap_get_end_state());
+ 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++)
{
}
}
-static void jlink_scan(bool ir_scan, enum scan_type type, u8 *buffer, int scan_size, scan_command_t *command)
+static void jlink_scan(bool ir_scan, enum scan_type type, uint8_t *buffer, int scan_size, scan_command_t *command)
{
tap_state_t saved_end_state;
}
}
-static void jlink_simple_command(u8 command)
+static void jlink_simple_command(uint8_t command)
{
int result;
static unsigned tap_length=0;
-static u8 tms_buffer[JLINK_TAP_BUFFER_SIZE];
-static u8 tdi_buffer[JLINK_TAP_BUFFER_SIZE];
-static u8 tdo_buffer[JLINK_TAP_BUFFER_SIZE];
+static uint8_t tms_buffer[JLINK_TAP_BUFFER_SIZE];
+static uint8_t tdi_buffer[JLINK_TAP_BUFFER_SIZE];
+static uint8_t tdo_buffer[JLINK_TAP_BUFFER_SIZE];
typedef struct
{
int first; /* First bit position in tdo_buffer to read */
int length; /* Number of bits to read */
scan_command_t *command; /* Corresponding scan command */
- u8 *buffer;
+ uint8_t *buffer;
} pending_scan_result_t;
#define MAX_PENDING_SCAN_RESULTS 256
}
int bit_index = tap_length % 8;
- u8 bit = 1 << bit_index;
+ uint8_t bit = 1 << bit_index;
// we do not pad TMS, so be sure to initialize all bits
if (0 == bit_index)
tap_length++;
}
-static void jlink_tap_append_scan(int length, u8 *buffer, scan_command_t *command)
+static void jlink_tap_append_scan(int length, uint8_t *buffer, scan_command_t *command)
{
pending_scan_result_t *pending_scan_result =
&pending_scan_results_buffer[pending_scan_results_length];
for (i = 0; i < pending_scan_results_length; i++)
{
pending_scan_result_t *pending_scan_result = &pending_scan_results_buffer[i];
- u8 *buffer = pending_scan_result->buffer;
+ uint8_t *buffer = pending_scan_result->buffer;
int length = pending_scan_result->length;
int first = pending_scan_result->first;
scan_command_t *command = pending_scan_result->command;
struct usb_interface_descriptor *desc = iface->altsetting;
for (int i = 0; i < desc->bNumEndpoints; i++)
{
- u8 epnum = desc->endpoint[i].bEndpointAddress;
+ uint8_t epnum = desc->endpoint[i].bEndpointAddress;
bool is_input = epnum & 0x80;
LOG_DEBUG("usb ep %s %02x", is_input ? "in" : "out", epnum);
if (is_input)
#ifdef _DEBUG_USB_COMMS_
#define BYTES_PER_LINE 16
-static void jlink_debug_buffer(u8 *buffer, int length)
+static void jlink_debug_buffer(uint8_t *buffer, int length)
{
char line[81];
char s[4];
/// The number of bits this field specifies (up to 32)
int num_bits;
/// A pointer to value to be scanned into the device
- u8* out_value;
+ uint8_t* out_value;
/// A pointer to a 32-bit memory location for data scanned out
- u8* in_value;
+ uint8_t* in_value;
/// The value used to check the data scanned out.
- u8* check_value;
+ uint8_t* check_value;
/// The mask to go with check_value
- u8* check_mask;
+ uint8_t* check_mask;
/// in_value has been allocated for the queue
int allocated;
/// Indicates we modified the in_value.
int modified;
/// temporary storage for performing value checks synchronously
- u8 intmp[4];
+ uint8_t intmp[4];
} scan_field_t;
typedef struct jtag_tap_event_action_s jtag_tap_event_action_t;
bool enabled;
int ir_length; /**< size of instruction register */
u32 ir_capture_value;
- u8* expected; /**< Capture-IR expected value */
+ uint8_t* expected; /**< Capture-IR expected value */
u32 ir_capture_mask;
- u8* expected_mask; /**< Capture-IR expected mask */
+ uint8_t* expected_mask; /**< Capture-IR expected mask */
u32 idcode;
/**< device identification code */
/// Array of expected identification codes */
u32* expected_ids;
/// Number of expected identification codes
- u8 expected_ids_cnt;
+ uint8_t expected_ids_cnt;
/// current instruction
- u8* cur_instr;
+ uint8_t* cur_instr;
/// Bypass register selected
int bypass;
* For conversion types or checks that can fail, use the more complete
* variant: jtag_callback_t.
*/
-typedef void (*jtag_callback1_t)(u8 *in);
+typedef void (*jtag_callback1_t)(uint8_t *in);
/// A simpler version of jtag_add_callback4().
-extern void jtag_add_callback(jtag_callback1_t, u8 *in);
+extern void jtag_add_callback(jtag_callback1_t, uint8_t *in);
/**
* @param data3 An integer big enough to use as an @c int or a pointer.
* @returns an error code
*/
-typedef int (*jtag_callback_t)(u8 *in, jtag_callback_data_t data1, jtag_callback_data_t data2, jtag_callback_data_t data3);
+typedef int (*jtag_callback_t)(uint8_t *in, jtag_callback_data_t data1, jtag_callback_data_t data2, jtag_callback_data_t data3);
/**
* @param data3 An integer big enough to use as an @c int or a pointer.
*
*/
-extern void jtag_add_callback4(jtag_callback_t f, u8 *in,
+extern void jtag_add_callback4(jtag_callback_t f, uint8_t *in,
jtag_callback_data_t data1, jtag_callback_data_t data2,
jtag_callback_data_t data3);
* @param mask Pointer to scan mask; may be NULL.
* @returns Nothing, but calls jtag_set_error() on any error.
*/
-extern void jtag_check_value_mask(scan_field_t *field, u8 *value, u8 *mask);
+extern void jtag_check_value_mask(scan_field_t *field, uint8_t *value, uint8_t *mask);
extern void jtag_sleep(u32 us);
if (field->num_bits > 32)
{
unsigned num_bytes = TAP_SCAN_BYTES(field->num_bits);
- field->in_value = (u8 *)malloc(num_bytes);
+ field->in_value = (uint8_t *)malloc(num_bytes);
field->allocated = 1;
}
else
static inline void interface_jtag_alloc_in_value32(scan_field_t *field)
{
- field->in_value = (u8 *)cmd_queue_alloc(4);
+ field->in_value = (uint8_t *)cmd_queue_alloc(4);
}
static inline void interface_jtag_add_scan_check_alloc(scan_field_t *field)
{
unsigned num_bytes = TAP_SCAN_BYTES(field->num_bits);
- field->in_value = (u8 *)cmd_queue_alloc(num_bytes);
+ field->in_value = (uint8_t *)cmd_queue_alloc(num_bytes);
}
extern void interface_jtag_add_dr_out(jtag_tap_t* tap,
int num_fields, const int* num_bits, const u32* value,
tap_state_t end_state);
-extern void interface_jtag_add_callback(jtag_callback1_t f, u8 *in);
+extern void interface_jtag_add_callback(jtag_callback1_t f, uint8_t *in);
-extern void interface_jtag_add_callback4(jtag_callback_t f, u8 *in,
+extern void interface_jtag_add_callback4(jtag_callback_t f, uint8_t *in,
jtag_callback_data_t data1, jtag_callback_data_t data2,
jtag_callback_data_t data3);
-extern int jtag_check_value(u8 *captured, void *priv);
+extern int jtag_check_value(uint8_t *captured, void *priv);
int interface_jtag_set_end_state(tap_state_t state)
{
-void embeddedice_write_dcc(jtag_tap_t *tap, int reg_addr, u8 *buffer, int little, int count)
+void embeddedice_write_dcc(jtag_tap_t *tap, int reg_addr, uint8_t *buffer, int little, int count)
{
int i;
for (i = 0; i < count; i++)
typedef struct cable_s
{
char* name;
- u8 TDO_MASK; /* status port bit containing current TDO value */
- u8 TRST_MASK; /* data port bit for TRST */
- u8 TMS_MASK; /* data port bit for TMS */
- u8 TCK_MASK; /* data port bit for TCK */
- u8 TDI_MASK; /* data port bit for TDI */
- u8 SRST_MASK; /* data port bit for SRST */
- u8 OUTPUT_INVERT; /* data port bits that should be inverted */
- u8 INPUT_INVERT; /* status port that should be inverted */
- u8 PORT_INIT; /* initialize data port with this value */
- u8 PORT_EXIT; /* de-initialize data port with this value */
- u8 LED_MASK; /* data port bit for LED */
+ uint8_t TDO_MASK; /* status port bit containing current TDO value */
+ uint8_t TRST_MASK; /* data port bit for TRST */
+ uint8_t TMS_MASK; /* data port bit for TMS */
+ uint8_t TCK_MASK; /* data port bit for TCK */
+ uint8_t TDI_MASK; /* data port bit for TDI */
+ uint8_t SRST_MASK; /* data port bit for SRST */
+ uint8_t OUTPUT_INVERT; /* data port bits that should be inverted */
+ uint8_t INPUT_INVERT; /* status port that should be inverted */
+ uint8_t PORT_INIT; /* initialize data port with this value */
+ uint8_t PORT_EXIT; /* de-initialize data port with this value */
+ uint8_t LED_MASK; /* data port bit for LED */
} cable_t;
static cable_t cables[] =
/* interface variables
*/
static cable_t* cable;
-static u8 dataport_value = 0x0;
+static uint8_t dataport_value = 0x0;
#if PARPORT_USE_PPDEV == 1
static int device_handle;
static __inline__ void parport_write_data(void)
{
- u8 output;
+ uint8_t output;
output = dataport_value ^ cable->OUTPUT_INVERT;
#if PARPORT_USE_PPDEV == 1
char serial[FT_DEVICE_SERNUM_LEN];
- u8 buff_out[BUFFER_SIZE];
+ uint8_t buff_out[BUFFER_SIZE];
int buff_out_pos;
- u8 buff_in[BUFFER_SIZE];
+ uint8_t buff_in[BUFFER_SIZE];
int buff_in_exp; /* expected in buffer length */
int buff_in_len; /* length of data received */
int buff_in_pos;
static presto_t presto_state;
static presto_t *presto = &presto_state;
-static u8 presto_init_seq[] =
+static uint8_t presto_init_seq[] =
{
0x80, 0xA0, 0xA8, 0xB0, 0xC0, 0xE0
};
-static int presto_write(u8 *buf, u32 size)
+static int presto_write(uint8_t *buf, u32 size)
{
#if BUILD_PRESTO_FTD2XX == 1
DWORD ftbytes;
return ERROR_OK;
}
-static int presto_read(u8* buf, u32 size)
+static int presto_read(uint8_t* buf, u32 size)
{
#if BUILD_PRESTO_FTD2XX == 1
DWORD ftbytes;
#elif BUILD_PRESTO_LIBFTDI == 1
static int presto_open_libftdi(char *req_serial)
{
- u8 presto_data;
+ uint8_t presto_data;
LOG_DEBUG("searching for PRESTO using libftdi");
if (presto->buff_out_pos < BUFFER_SIZE)
{
- presto->buff_out[presto->buff_out_pos++] = (u8)data;
+ presto->buff_out[presto->buff_out_pos++] = (uint8_t)data;
if (((data & 0xC0) == 0x40) || ((data & 0xD0)== 0xD0))
presto->buff_in_exp++;
}
int
dtc_load_from_buffer(
usb_dev_handle *pHDev,
- const u8 *buffer,
+ const uint8_t *buffer,
size_t length
) {
struct header_s {
- u8 type;
- u8 length;
+ uint8_t type;
+ uint8_t length;
};
int usb_err;
struct header_s *header;
- u8 lut_start = 0xc0;
+ uint8_t lut_start = 0xc0;
dtc_entry_download = 0;
int
dtc_start_download(void) {
int usb_err;
- u8 ep2txr;
+ uint8_t ep2txr;
/* set up for download mode and make sure EP2 is set up to transmit */
usb_err = ep1_generic_commandl(
int
dtc_run_download(
usb_dev_handle *pHDev,
- u8 *command_buffer,
+ uint8_t *command_buffer,
int command_buffer_size,
- u8 *reply_buffer,
+ uint8_t *reply_buffer,
int reply_buffer_size
) {
- u8 ep2_buffer[USB_EP2IN_SIZE];
+ uint8_t ep2_buffer[USB_EP2IN_SIZE];
int usb_err;
int i;
jtag_command_t *cmd; /* the command that resulted in this entry */
struct {
- u8 *buffer; /* the scan buffer */
+ uint8_t *buffer; /* the scan buffer */
int size; /* size of the scan buffer in bits */
int offset; /* how many bits were already done before this? */
int length; /* how many bits are processed in this operation? */
dtc_reply_queue_entry_t *rq_tail;
u32 cmd_index;
u32 reply_index;
- u8 cmd_buffer[USB_EP2BANK_SIZE];
+ uint8_t cmd_buffer[USB_EP2BANK_SIZE];
} dtc_queue;
dtc_reply_queue_entry_t *
dtc_queue_enqueue_reply(
enum scan_type type,
- u8 *buffer,
+ uint8_t *buffer,
int size,
int offset,
int length,
int usb_err;
int bit_cnt;
int x;
- u8 *dtc_p, *tdo_p;
- u8 dtc_mask, tdo_mask;
- u8 reply_buffer[USB_EP2IN_SIZE];
+ uint8_t *dtc_p, *tdo_p;
+ uint8_t dtc_mask, tdo_mask;
+ uint8_t reply_buffer[USB_EP2IN_SIZE];
retval = ERROR_OK;
tap_state_queue_run(void) {
int i;
int bits;
- u8 byte;
+ uint8_t byte;
int retval;
retval = 0;
static
int
tap_state_queue_append(
- u8 tms
+ uint8_t tms
) {
int retval;
void rlink_state_move(void) {
int i=0, tms=0;
- u8 tms_scan = tap_get_tms_path(tap_get_state(), tap_get_end_state());
+ uint8_t tms_scan = tap_get_tms_path(tap_get_state(), tap_get_end_state());
int tms_count = tap_get_tms_path_len(tap_get_state(), tap_get_end_state());
for (i = 0; i < tms_count; i++)
static
void rlink_reset(int trst, int srst)
{
- u8 bitmap;
+ uint8_t bitmap;
int usb_err;
/* Read port A for bit op */
rlink_scan(
jtag_command_t *cmd,
enum scan_type type,
- u8 *buffer,
+ uint8_t *buffer,
int scan_size
) {
bool ir_scan;
int x;
int tdi_bit_offset;
- u8 tdi_mask, *tdi_p;
- u8 dtc_mask;
+ uint8_t tdi_mask, *tdi_p;
+ uint8_t dtc_mask;
if(scan_size < 1) {
LOG_ERROR("scan_size cannot be less than 1 bit\n");
jtag_command_t *cmd = jtag_command_queue; /* currently processed command */
int scan_size;
enum scan_type type;
- u8 *buffer;
+ uint8_t *buffer;
int retval, tmp_retval;
/* return ERROR_OK, unless something goes wrong */
int i, j, retries;
int found=0;
int success=0;
- u8 reply_buffer[USB_EP1IN_SIZE];
+ uint8_t reply_buffer[USB_EP1IN_SIZE];
usb_init();
usb_find_busses();
typedef
struct rlink_speed_table_s {
- u8 const *dtc;
+ uint8_t const *dtc;
u16 dtc_size;
u16 khz;
- u8 prescaler;
+ uint8_t prescaler;
} rlink_speed_table_t;
extern const rlink_speed_table_t rlink_speed_table[];
#include "rlink.h"
#include "st7.h"
-static const u8 dtc_64[] = {
+static const uint8_t dtc_64[] = {
0, 2, 68, 84, 67, 2, 13, 160, 176, 151, 147, 182, 141, 152, 177, 129, 148,
191, 143, 142, 5, 3, 0, 0, 0, 2, 68, 84, 67, 4, 0, 192, 5, 15, 0, 42, 42,
42, 73, 0, 88, 0, 160, 189, 0, 0, 0, 0, 106, 9, 1, 8, 22, 100, 111, 119,
60, 97, 203, 8, 2, 36, 139, 124, 193, 151, 96
};
-static const u8 dtc_11[] = {
+static const uint8_t dtc_11[] = {
0, 2, 68, 84, 67, 2, 13, 160, 176, 151, 147, 182, 141, 152, 177, 129, 148,
188, 143, 142, 5, 3, 0, 0, 0, 2, 68, 84, 67, 4, 0, 192, 5, 15, 0, 42, 42,
42, 73, 0, 88, 0, 154, 183, 0, 0, 0, 0, 106, 9, 1, 8, 22, 100, 111, 119,
203, 8, 2, 36, 139, 117, 193, 151, 96
};
-static const u8 dtc_8[] = {
+static const uint8_t dtc_8[] = {
0, 2, 68, 84, 67, 2, 13, 160, 176, 151, 147, 182, 141, 152, 177, 129, 148,
187, 143, 142, 5, 3, 0, 0, 0, 2, 68, 84, 67, 4, 0, 192, 5, 15, 0, 42, 42,
42, 73, 0, 88, 0, 152, 181, 0, 0, 0, 0, 106, 9, 1, 8, 22, 100, 111, 119,
8, 2, 36, 139, 115, 193, 151, 96
};
-static const u8 dtc_2[] = {
+static const uint8_t dtc_2[] = {
0, 2, 68, 84, 67, 2, 14, 160, 176, 151, 147, 182, 141, 152, 177, 129, 148,
186, 143, 185, 142, 5, 3, 0, 0, 0, 2, 68, 84, 67, 4, 0, 192, 5, 15, 0,
42, 42, 42, 73, 0, 88, 0, 149, 178, 0, 0, 0, 0, 106, 9, 1, 8, 22, 100,
static void usbprog_state_move(void);
static void usbprog_path_move(pathmove_command_t *cmd);
static void usbprog_runtest(int num_cycles);
-static void usbprog_scan(bool ir_scan, enum scan_type type, u8 *buffer, int scan_size);
+static void usbprog_scan(bool ir_scan, enum scan_type type, uint8_t *buffer, int scan_size);
jtag_interface_t usbprog_interface =
{
jtag_command_t *cmd = jtag_command_queue; /* currently processed command */
int scan_size;
enum scan_type type;
- u8 *buffer;
+ uint8_t *buffer;
while (cmd)
{
static void usbprog_state_move(void)
{
int i = 0, tms = 0;
- u8 tms_scan = tap_get_tms_path(tap_get_state(), tap_get_end_state());
+ uint8_t tms_scan = tap_get_tms_path(tap_get_state(), tap_get_end_state());
int tms_count = tap_get_tms_path_len(tap_get_state(), tap_get_end_state());
usbprog_jtag_write_tms(usbprog_jtag_handle, (char)tms_scan);
*/
}
-static void usbprog_scan(bool ir_scan, enum scan_type type, u8 *buffer, int scan_size)
+static void usbprog_scan(bool ir_scan, enum scan_type type, uint8_t *buffer, int scan_size)
{
tap_state_t saved_end_state = tap_get_end_state();
static u16 vsllink_usb_vid;
static u16 vsllink_usb_pid;
-static u8 vsllink_usb_bulkout;
-static u8 vsllink_usb_bulkin;
-static u8 vsllink_usb_interface;
-static u8 vsllink_mode = VSLLINK_MODE_NORMAL;
+static uint8_t vsllink_usb_bulkout;
+static uint8_t vsllink_usb_bulkin;
+static uint8_t vsllink_usb_interface;
+static uint8_t vsllink_mode = VSLLINK_MODE_NORMAL;
static int VSLLINK_USB_TIMEOUT = 10000;
static int VSLLINK_BufferSize = 1024;
/* Global USB buffers */
static int vsllink_usb_out_buffer_idx;
static int vsllink_usb_in_want_length;
-static u8* vsllink_usb_in_buffer = NULL;
-static u8* vsllink_usb_out_buffer = NULL;
+static uint8_t* vsllink_usb_in_buffer = NULL;
+static uint8_t* vsllink_usb_out_buffer = NULL;
/* Constants for VSLLink command */
#define VSLLINK_CMD_CONN 0x80
*
* SD->SD and SI->SI have to be caught in interface specific code
*/
-static u8 VSLLINK_tap_move[6][6] =
+static uint8_t VSLLINK_tap_move[6][6] =
{
/* TLR RTI SD PD SI PI */
{0xff, 0x7f, 0x2f, 0x0a, 0x37, 0x16}, /* TLR */
{0, 0,}}, /* PI */
};
-static u8 VSLLINK_BIT_MSK[8] =
+static uint8_t VSLLINK_BIT_MSK[8] =
{
0x00, 0x01, 0x03, 0x07, 0x0f, 0x1f, 0x3f, 0x7f
};
int offset;
int length; /* Number of bits to read */
scan_command_t *command; /* Corresponding scan command */
- u8 *buffer;
+ uint8_t *buffer;
} pending_scan_result_t;
#define MAX_PENDING_SCAN_RESULTS 256
static void vsllink_stableclocks_dma(int num_cycles, int tms);
static void vsllink_stableclocks_normal(int num_cycles, int tms);
static void (*vsllink_stableclocks)(int num_cycles, int tms);
-static void vsllink_scan_dma(bool ir_scan, enum scan_type type, u8 *buffer, int scan_size, scan_command_t *command);
-static void vsllink_scan_normal(bool ir_scan, enum scan_type type, u8 *buffer, int scan_size, scan_command_t *command);
-static void (*vsllink_scan)(bool ir_scan, enum scan_type type, u8 *buffer, int scan_size, scan_command_t *command);
+static void vsllink_scan_dma(bool ir_scan, enum scan_type type, uint8_t *buffer, int scan_size, scan_command_t *command);
+static void vsllink_scan_normal(bool ir_scan, enum scan_type type, uint8_t *buffer, int scan_size, scan_command_t *command);
+static void (*vsllink_scan)(bool ir_scan, enum scan_type type, uint8_t *buffer, int scan_size, scan_command_t *command);
static void vsllink_reset(int trst, int srst);
-static void vsllink_simple_command(u8 command);
+static void vsllink_simple_command(uint8_t command);
static int vsllink_connect(void);
static int vsllink_disconnect(void);
static void vsllink_tap_ensure_space_dma(int scans, int length);
static void vsllink_tap_ensure_space_normal(int scans, int length);
static void (*vsllink_tap_ensure_space)(int scans, int length);
-static void vsllink_tap_append_scan_dma(int length, u8 *buffer, scan_command_t *command);
-static void vsllink_tap_append_scan_normal(int length, u8 *buffer, scan_command_t *command, int offset);
+static void vsllink_tap_append_scan_dma(int length, uint8_t *buffer, scan_command_t *command);
+static void vsllink_tap_append_scan_normal(int length, uint8_t *buffer, scan_command_t *command, int offset);
/* VSLLink lowlevel functions */
typedef struct vsllink_jtag
static int vsllink_usb_read(vsllink_jtag_t *vsllink_jtag);
#if defined _DEBUG_USB_COMMS_ || defined _DEBUG_JTAG_IO_
-static void vsllink_debug_buffer(u8 *buffer, int length);
+static void vsllink_debug_buffer(uint8_t *buffer, int length);
#endif
static int vsllink_tms_data_len = 0;
-static u8* vsllink_tms_cmd_pos;
+static uint8_t* vsllink_tms_cmd_pos;
static int tap_length = 0;
static int tap_buffer_size = 0;
-static u8 *tms_buffer = NULL;
-static u8 *tdi_buffer = NULL;
-static u8 *tdo_buffer = NULL;
+static uint8_t *tms_buffer = NULL;
+static uint8_t *tdi_buffer = NULL;
+static uint8_t *tdo_buffer = NULL;
static int last_tms;
static vsllink_jtag_t* vsllink_jtag_handle = NULL;
jtag_command_t *cmd = jtag_command_queue;
int scan_size;
enum scan_type type;
- u8 *buffer;
+ uint8_t *buffer;
DEBUG_JTAG_IO("--------------------------------- vsllink -------------------------------------");
if (vsllink_mode == VSLLINK_MODE_DMA)
{
tap_buffer_size = (VSLLINK_BufferSize - 3) / 2;
- tms_buffer = (u8*)malloc(tap_buffer_size);
- tdi_buffer = (u8*)malloc(tap_buffer_size);
- tdo_buffer = (u8*)malloc(tap_buffer_size);
+ 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");
// length of VSLLINK_CMDJTAGSEQ_TMSBYTE has been set, no need to set it here.
static void vsllink_append_tms(void)
{
- u8 tms_scan = VSLLINK_TAP_MOVE(tap_get_state(), tap_get_end_state());
+ uint8_t tms_scan = VSLLINK_TAP_MOVE(tap_get_state(), tap_get_end_state());
u16 tms2;
insert_insignificant_operation_t *insert = \
&VSLLINK_TAP_MOVE_INSERT_INSIGNIFICANT[tap_move_ndx(tap_get_state())][tap_move_ndx(tap_get_end_state())];
int i, insert_length = (tap_length % 8) ? (8 - (tap_length % 8)) : 0;
insert_insignificant_operation_t *insert = \
&VSLLINK_TAP_MOVE_INSERT_INSIGNIFICANT[tap_move_ndx(tap_get_state())][tap_move_ndx(tap_get_end_state())];
- u8 tms_scan = VSLLINK_TAP_MOVE(tap_get_state(), tap_get_end_state());
+ uint8_t tms_scan = VSLLINK_TAP_MOVE(tap_get_state(), tap_get_end_state());
if (tap_get_state() == TAP_RESET)
{
// just add to vsllink_tms_data_len
// same result if tun through
//vsllink_tms_data_len += num_cycles;
- vsllink_usb_out_buffer[vsllink_usb_out_buffer_idx] |= (u8)(tms_append_byte & 0xFF);
+ vsllink_usb_out_buffer[vsllink_usb_out_buffer_idx] |= (uint8_t)(tms_append_byte & 0xFF);
}
else if (tms_len == 8)
{
// end last tms shift command
// just reduce it, and append last tms byte
(*vsllink_tms_cmd_pos)--;
- vsllink_usb_out_buffer[vsllink_usb_out_buffer_idx++] |= (u8)(tms_append_byte & 0xFF);
+ vsllink_usb_out_buffer[vsllink_usb_out_buffer_idx++] |= (uint8_t)(tms_append_byte & 0xFF);
}
else if (tms_len < 16)
{
// there is enought tms length in the current tms shift command
// increase the tms byte length by 1 and set the last byte to 0
(*vsllink_tms_cmd_pos)++;
- vsllink_usb_out_buffer[vsllink_usb_out_buffer_idx++] |= (u8)(tms_append_byte & 0xFF);
- vsllink_usb_out_buffer[vsllink_usb_out_buffer_idx] = (u8)(tms_append_byte >> 8);
+ vsllink_usb_out_buffer[vsllink_usb_out_buffer_idx++] |= (uint8_t)(tms_append_byte & 0xFF);
+ vsllink_usb_out_buffer[vsllink_usb_out_buffer_idx] = (uint8_t)(tms_append_byte >> 8);
}
else
{
// first decrease byte length of last tms shift command
(*vsllink_tms_cmd_pos)--;
// append last tms byte and move the command pointer to the next empty position
- vsllink_usb_out_buffer[vsllink_usb_out_buffer_idx++] |= (u8)(tms_append_byte & 0xFF);
+ vsllink_usb_out_buffer[vsllink_usb_out_buffer_idx++] |= (uint8_t)(tms_append_byte & 0xFF);
// add new command(3 bytes)
vsllink_tap_ensure_space(0, 3);
vsllink_tms_cmd_pos = &vsllink_usb_out_buffer[vsllink_usb_out_buffer_idx];
vsllink_usb_out_buffer[vsllink_usb_out_buffer_idx++] = VSLLINK_CMDJTAGSEQ_TMSBYTE | 1;
- vsllink_usb_out_buffer[vsllink_usb_out_buffer_idx] = (u8)(tms_append_byte >> 8);
+ vsllink_usb_out_buffer[vsllink_usb_out_buffer_idx] = (uint8_t)(tms_append_byte >> 8);
}
}
else if (tms_len == 16)
{
// end last tms shift command
- vsllink_usb_out_buffer[vsllink_usb_out_buffer_idx++] |= (u8)(tms_append_byte & 0xFF);
- vsllink_usb_out_buffer[vsllink_usb_out_buffer_idx++] = (u8)(tms_append_byte >> 8);
+ vsllink_usb_out_buffer[vsllink_usb_out_buffer_idx++] |= (uint8_t)(tms_append_byte & 0xFF);
+ vsllink_usb_out_buffer[vsllink_usb_out_buffer_idx++] = (uint8_t)(tms_append_byte >> 8);
}
vsllink_tms_data_len = tms_len & 7;
else
{
// more shifts will be needed
- vsllink_usb_out_buffer[vsllink_usb_out_buffer_idx++] |= (u8)(tms_append_byte & 0xFF);
- vsllink_usb_out_buffer[vsllink_usb_out_buffer_idx++] = (u8)(tms_append_byte >> 8);
+ vsllink_usb_out_buffer[vsllink_usb_out_buffer_idx++] |= (uint8_t)(tms_append_byte & 0xFF);
+ vsllink_usb_out_buffer[vsllink_usb_out_buffer_idx++] = (uint8_t)(tms_append_byte >> 8);
num_cycles -= 16 - vsllink_tms_data_len;
vsllink_tms_data_len = 0;
}
}
-static void vsllink_scan_normal(bool ir_scan, enum scan_type type, u8 *buffer, int scan_size, scan_command_t *command)
+static void vsllink_scan_normal(bool ir_scan, enum scan_type type, uint8_t *buffer, int scan_size, scan_command_t *command)
{
tap_state_t saved_end_state;
- u8 bits_left, tms_tmp, tdi_len;
+ uint8_t bits_left, tms_tmp, tdi_len;
int i;
if (0 == scan_size )
tap_set_state(tap_get_end_state());
}
-static void vsllink_scan_dma(bool ir_scan, enum scan_type type, u8 *buffer, int scan_size, scan_command_t *command)
+static void vsllink_scan_dma(bool ir_scan, enum scan_type type, uint8_t *buffer, int scan_size, scan_command_t *command)
{
tap_state_t saved_end_state;
}
}
-static void vsllink_simple_command(u8 command)
+static void vsllink_simple_command(uint8_t command)
{
int result;
if (index < tap_buffer_size)
{
int bit_index = tap_length % 8;
- u8 bit = 1 << bit_index;
+ uint8_t bit = 1 << bit_index;
if (tms)
{
}
}
-static void vsllink_tap_append_scan_normal(int length, u8 *buffer, scan_command_t *command, int offset)
+static void vsllink_tap_append_scan_normal(int length, uint8_t *buffer, scan_command_t *command, int offset)
{
pending_scan_result_t *pending_scan_result = &pending_scan_results_buffer[pending_scan_results_length];
int i;
pending_scan_results_length++;
}
-static void vsllink_tap_append_scan_dma(int length, u8 *buffer, scan_command_t *command)
+static void vsllink_tap_append_scan_dma(int length, uint8_t *buffer, scan_command_t *command)
{
pending_scan_result_t *pending_scan_result;
int len_tmp, len_all, i;
for (i = 0; i < pending_scan_results_length; i++)
{
pending_scan_result_t *pending_scan_result = &pending_scan_results_buffer[i];
- u8 *buffer = pending_scan_result->buffer;
+ uint8_t *buffer = pending_scan_result->buffer;
int length = pending_scan_result->length;
int offset = pending_scan_result->offset;
scan_command_t *command = pending_scan_result->command;
for (i = 0; i < pending_scan_results_length; i++)
{
pending_scan_result_t *pending_scan_result = &pending_scan_results_buffer[i];
- u8 *buffer = pending_scan_result->buffer;
+ uint8_t *buffer = pending_scan_result->buffer;
int length = pending_scan_result->length;
int first = pending_scan_result->offset;
#define BYTES_PER_LINE 16
#if defined _DEBUG_USB_COMMS_ || defined _DEBUG_JTAG_IO_
-static void vsllink_debug_buffer(u8 *buffer, int length)
+static void vsllink_debug_buffer(uint8_t *buffer, int length)
{
char line[81];
char s[4];
}
#endif
-extern int jtag_check_value(u8 *captured, void *priv);
+extern int jtag_check_value(uint8_t *captured, void *priv);
static __inline void scanFields(int num_fields, scan_field_t *fields, tap_state_t shiftState, tap_state_t end_state)
{
{
cyg_uint32 value;
- static u8 *in_buff=NULL; /* pointer to buffer for scanned data */
+ static uint8_t *in_buff=NULL; /* pointer to buffer for scanned data */
static int in_buff_size=0;
- u8 *inBuffer=NULL;
+ uint8_t *inBuffer=NULL;
// figure out where to store the input data
if (!found)
{
/* if a device isn't listed, set it to BYPASS */
- u8 ones[]={0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff};
+ uint8_t ones[]={0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff};
scan_field_t tmp;
memset(&tmp, 0, sizeof(tmp));
tap_state_t t=TAP_IDLE;
/* test manual drive code on any target */
int tms;
- u8 tms_scan = tap_get_tms_path(t, state);
+ uint8_t tms_scan = tap_get_tms_path(t, state);
int tms_count = tap_get_tms_path_len(tap_get_state(), tap_get_end_state());
for (i = 0; i < tms_count; i++)
-void embeddedice_write_dcc(jtag_tap_t *tap, int reg_addr, u8 *buffer, int little, int count)
+void embeddedice_write_dcc(jtag_tap_t *tap, int reg_addr, uint8_t *buffer, int little, int count)
{
// static int const reg_addr=0x5;
tap_state_t end_state=jtag_get_end_state();
{
virtex2_pld_device_t *virtex2_info = pld_device->driver_priv;
scan_field_t scan_field;
- u8 *values;
+ uint8_t *values;
int i;
values = malloc(num_words * 4);
return ERROR_OK;
}
-static __inline__ void virtexflip32(u8 *in)
+static __inline__ void virtexflip32(uint8_t *in)
{
*((u32 *)in) = flip_u32(le_to_h_u32(in), 32);
}
while (num_words--)
{
- scan_field.in_value = (u8 *)words;
+ scan_field.in_value = (uint8_t *)words;
jtag_add_dr_scan(1, &scan_field, jtag_set_end_state(TAP_DRPAUSE));
- jtag_add_callback(virtexflip32, (u8 *)words);
+ jtag_add_callback(virtexflip32, (uint8_t *)words);
words++;;
}
static int read_section(FILE *input_file, int length_size, char section,
- u32 *buffer_length, u8 **buffer)
+ u32 *buffer_length, uint8_t **buffer)
{
- u8 length_buffer[4];
+ uint8_t length_buffer[4];
int length;
char section_char;
int read_count;
typedef struct xilinx_bit_file_s
{
- u8 unknown_header[13];
- u8 *source_file;
- u8 *part_name;
- u8 *date;
- u8 *time;
+ uint8_t unknown_header[13];
+ uint8_t *source_file;
+ uint8_t *part_name;
+ uint8_t *date;
+ uint8_t *time;
u32 length;
- u8 *data;
+ uint8_t *data;
} xilinx_bit_file_t;
int xilinx_read_bit_file(xilinx_bit_file_t *bit_file, char *filename);
return ERROR_OK;
}
-void gdb_send_error(connection_t *connection, u8 the_error)
+void gdb_send_error(connection_t *connection, uint8_t the_error)
{
char err[4];
snprintf(err, 4, "E%2.2X", the_error );
{
int i;
- u8 *buf;
+ uint8_t *buf;
int buf_len;
buf = reg->value;
buf_len = CEIL(reg->size, 8);
}
/* copy over in register buffer */
-void gdb_target_to_reg(target_t *target, char *tstr, int str_len, u8 *bin)
+void gdb_target_to_reg(target_t *target, char *tstr, int str_len, uint8_t *bin)
{
if (str_len % 2)
{
int i;
for (i = 0; i < str_len; i+=2)
{
- u8 t = hextoint(tstr[i])<<4;
+ uint8_t t = hextoint(tstr[i])<<4;
t |= hextoint(tstr[i+1]);
int j = gdb_reg_pos(target, i/2, str_len/2);
packet_p = packet;
for (i = 0; i < reg_list_size; i++)
{
- u8 *bin_buf;
+ uint8_t *bin_buf;
int chars = (CEIL(reg_list[i]->size, 8) * 2);
if (packet_p + chars > packet + packet_size)
int gdb_set_register_packet(connection_t *connection, target_t *target, char *packet, int packet_size)
{
char *separator;
- u8 *bin_buf;
+ uint8_t *bin_buf;
int reg_num = strtoul(packet + 1, &separator, 16);
reg_t **reg_list;
int reg_list_size;
u32 addr = 0;
u32 len = 0;
- u8 *buffer;
+ uint8_t *buffer;
char *hex_buffer;
int retval = ERROR_OK;
u32 i;
for (i = 0; i < len; i++)
{
- u8 t = buffer[i];
+ uint8_t t = buffer[i];
hex_buffer[2 * i] = DIGITS[(t >> 4) & 0xf];
hex_buffer[2 * i + 1] = DIGITS[t & 0xf];
}
u32 addr = 0;
u32 len = 0;
- u8 *buffer;
+ uint8_t *buffer;
u32 i;
int retval;
{
LOG_DEBUG("addr: 0x%8.8x, len: 0x%8.8x", addr, len);
- retval = target_write_buffer(target, addr, len, (u8*)separator);
+ retval = target_write_buffer(target, addr, len, (uint8_t*)separator);
}
if (retval == ERROR_OK)
}
/* create new section with content from packet buffer */
- if((retval = image_add_section(gdb_connection->vflash_image, addr, length, 0x0, (u8*)parse)) != ERROR_OK)
+ if((retval = image_add_section(gdb_connection->vflash_image, addr, length, 0x0, (uint8_t*)parse)) != ERROR_OK)
{
return retval;
}
{
int len;
int data_mask;
- u8 *tdi;
- u8 *tdo;
- u8 *mask;
- u8 *smask;
+ uint8_t *tdi;
+ uint8_t *tdo;
+ uint8_t *mask;
+ uint8_t *smask;
}svf_xxr_para_t;
typedef struct
static int svf_read_command_from_file(int fd);
static int svf_check_tdo(void);
-static int svf_add_check_para(u8 enabled, int buffer_offset, int bit_len);
+static int svf_add_check_para(uint8_t enabled, int buffer_offset, int bit_len);
static int svf_run_command(struct command_context_s *cmd_ctx, char *cmd_str);
static int handle_svf_command(struct command_context_s *cmd_ctx, char *cmd, char **args, int argc);
static jtag_tap_t *tap = NULL;
#define SVF_MAX_BUFFER_SIZE_TO_COMMIT (4 * 1024)
-static u8 *svf_tdi_buffer = NULL, *svf_tdo_buffer = NULL, *svf_mask_buffer = NULL;
+static uint8_t *svf_tdi_buffer = NULL, *svf_tdo_buffer = NULL, *svf_mask_buffer = NULL;
static int svf_buffer_index = 0, svf_buffer_size = 0;
static int svf_quiet = 0;
static int svf_add_statemove(tap_state_t state_to)
{
tap_state_t state_from = cmd_queue_cur_state;
- u8 index;
+ uint8_t index;
for (index = 0; index < dimof(svf_statemoves); index++)
{
// in case current command cannot be commited, and next command is a bit scan command
// here is 32K bits for this big scan command, it should be enough
// buffer will be reallocated if buffer size is not enough
- svf_tdi_buffer = (u8 *)malloc(2 * SVF_MAX_BUFFER_SIZE_TO_COMMIT);
+ svf_tdi_buffer = (uint8_t *)malloc(2 * SVF_MAX_BUFFER_SIZE_TO_COMMIT);
if (NULL == svf_tdi_buffer)
{
LOG_ERROR("not enough memory");
ret = ERROR_FAIL;
goto free_all;
}
- svf_tdo_buffer = (u8 *)malloc(2 * SVF_MAX_BUFFER_SIZE_TO_COMMIT);
+ svf_tdo_buffer = (uint8_t *)malloc(2 * SVF_MAX_BUFFER_SIZE_TO_COMMIT);
if (NULL == svf_tdo_buffer)
{
LOG_ERROR("not enough memory");
ret = ERROR_FAIL;
goto free_all;
}
- svf_mask_buffer = (u8 *)malloc(2 * SVF_MAX_BUFFER_SIZE_TO_COMMIT);
+ svf_mask_buffer = (uint8_t *)malloc(2 * SVF_MAX_BUFFER_SIZE_TO_COMMIT);
if (NULL == svf_mask_buffer)
{
LOG_ERROR("not enough memory");
return 0xFF;
}
-static int svf_adjust_array_length(u8 **arr, int orig_bit_len, int new_bit_len)
+static int svf_adjust_array_length(uint8_t **arr, int orig_bit_len, int new_bit_len)
{
int new_byte_len = (new_bit_len + 7) >> 3;
free(*arr);
*arr = NULL;
}
- *arr = (u8*)malloc(new_byte_len);
+ *arr = (uint8_t*)malloc(new_byte_len);
if (NULL == *arr)
{
LOG_ERROR("not enough memory");
return ERROR_OK;
}
-static int svf_copy_hexstring_to_binary(char *str, u8 **bin, int orig_bit_len, int bit_len)
+static int svf_copy_hexstring_to_binary(char *str, uint8_t **bin, int orig_bit_len, int bit_len)
{
int i, str_len = strlen(str), str_byte_len = (bit_len + 3) >> 2, loop_cnt;
- u8 ch, need_write = 1;
+ uint8_t ch, need_write = 1;
if (ERROR_OK != svf_adjust_array_length(bin, orig_bit_len, bit_len))
{
return ERROR_OK;
}
-static int svf_add_check_para(u8 enabled, int buffer_offset, int bit_len)
+static int svf_add_check_para(uint8_t enabled, int buffer_offset, int bit_len)
{
if (svf_check_tdo_para_index >= SVF_CHECK_TDO_PARA_SIZE)
{
float min_time, max_time;
// for XXR
svf_xxr_para_t *xxr_para_tmp;
- u8 **pbuffer_tmp;
+ uint8_t **pbuffer_tmp;
scan_field_t field;
// for STATE
tap_state_t *path = NULL, state;
LOG_ERROR("buffer is not enough, report to author");
return ERROR_FAIL;
#else
- u8 *buffer_tmp;
+ uint8_t *buffer_tmp;
// reallocate buffer
- buffer_tmp = (u8 *)malloc(svf_buffer_index + ((i + 7) >> 3));
+ buffer_tmp = (uint8_t *)malloc(svf_buffer_index + ((i + 7) >> 3));
if (NULL == buffer_tmp)
{
LOG_ERROR("not enough memory");
free(svf_tdi_buffer);
svf_tdi_buffer = buffer_tmp;
- buffer_tmp = (u8 *)malloc(svf_buffer_index + ((i + 7) >> 3));
+ buffer_tmp = (uint8_t *)malloc(svf_buffer_index + ((i + 7) >> 3));
if (NULL == buffer_tmp)
{
LOG_ERROR("not enough memory");
free(svf_tdo_buffer);
svf_tdo_buffer = buffer_tmp;
- buffer_tmp = (u8 *)malloc(svf_buffer_index + ((i + 7) >> 3));
+ buffer_tmp = (uint8_t *)malloc(svf_buffer_index + ((i + 7) >> 3));
if (NULL == buffer_tmp)
{
LOG_ERROR("not enough memory");
LOG_ERROR("buffer is not enough, report to author");
return ERROR_FAIL;
#else
- u8 *buffer_tmp;
+ uint8_t *buffer_tmp;
// reallocate buffer
- buffer_tmp = (u8 *)malloc(svf_buffer_index + ((i + 7) >> 3));
+ buffer_tmp = (uint8_t *)malloc(svf_buffer_index + ((i + 7) >> 3));
if (NULL == buffer_tmp)
{
LOG_ERROR("not enough memory");
free(svf_tdi_buffer);
svf_tdi_buffer = buffer_tmp;
- buffer_tmp = (u8 *)malloc(svf_buffer_index + ((i + 7) >> 3));
+ buffer_tmp = (uint8_t *)malloc(svf_buffer_index + ((i + 7) >> 3));
if (NULL == buffer_tmp)
{
LOG_ERROR("not enough memory");
free(svf_tdo_buffer);
svf_tdo_buffer = buffer_tmp;
- buffer_tmp = (u8 *)malloc(svf_buffer_index + ((i + 7) >> 3));
+ buffer_tmp = (uint8_t *)malloc(svf_buffer_index + ((i + 7) >> 3));
if (NULL == buffer_tmp)
{
LOG_ERROR("not enough memory");
return ERROR_OK;
}
-static int xsvf_read_buffer(int num_bits, int fd, u8* buf)
+static int xsvf_read_buffer(int num_bits, int fd, uint8_t* buf)
{
int num_bytes;
static int handle_xsvf_command(struct command_context_s *cmd_ctx, char *cmd, char **args, int argc)
{
- u8 *dr_out_buf = NULL; /* from host to device (TDI) */
- u8 *dr_in_buf = NULL; /* from device to host (TDO) */
- u8 *dr_in_mask = NULL;
+ uint8_t *dr_out_buf = NULL; /* from host to device (TDI) */
+ uint8_t *dr_in_buf = NULL; /* from device to host (TDO) */
+ uint8_t *dr_in_mask = NULL;
int xsdrsize = 0;
int xruntest = 0; /* number of TCK cycles OR microseconds */
tap_state_t xendir = TAP_IDLE; /* see page 8 of the SVF spec, initial xendir to be TAP_IDLE */
tap_state_t xenddr = TAP_IDLE;
- u8 opcode;
- u8 uc;
+ uint8_t opcode;
+ uint8_t uc;
long file_offset = 0;
int loop_count = 0;
case XRUNTEST:
{
- u8 xruntest_buf[4];
+ uint8_t xruntest_buf[4];
if (read(xsvf_fd, xruntest_buf, 4) < 0)
{
case XREPEAT:
{
- u8 myrepeat;
+ uint8_t myrepeat;
if (read(xsvf_fd, &myrepeat, 1) < 0)
do_abort = 1;
case XSDRSIZE:
{
- u8 xsdrsize_buf[4];
+ uint8_t xsdrsize_buf[4];
if (read(xsvf_fd, xsdrsize_buf, 4) < 0)
{
case XSTATE:
{
tap_state_t mystate;
- u8 uc;
+ uint8_t uc;
if (read(xsvf_fd, &uc, 1) < 0)
{
case XSIR:
case XSIR2:
{
- u8 short_buf[2];
- u8* ir_buf;
+ uint8_t short_buf[2];
+ uint8_t* ir_buf;
int bitcount;
tap_state_t my_end_state = xruntest ? TAP_IDLE : xendir;
case XWAIT:
{
/* expected in stream:
- XWAIT <u8 wait_state> <u8 end_state> <u32 usecs>
+ XWAIT <uint8_t wait_state> <uint8_t end_state> <u32 usecs>
*/
- u8 wait;
- u8 end;
- u8 delay_buf[4];
+ uint8_t wait;
+ uint8_t end;
+ uint8_t delay_buf[4];
tap_state_t wait_state;
tap_state_t end_state;
case XWAITSTATE:
{
/* expected in stream:
- XWAITSTATE <u8 wait_state> <u8 end_state> <u32 clock_count> <u32 usecs>
+ XWAITSTATE <uint8_t wait_state> <uint8_t end_state> <u32 clock_count> <u32 usecs>
*/
- u8 clock_buf[4];
- u8 usecs_buf[4];
- u8 wait;
- u8 end;
+ uint8_t clock_buf[4];
+ uint8_t usecs_buf[4];
+ uint8_t wait;
+ uint8_t end;
tap_state_t wait_state;
tap_state_t end_state;
int clock_count;
/* expected in stream:
LCOUNT <u32 loop_count>
*/
- u8 count_buf[4];
+ uint8_t count_buf[4];
if ( read(xsvf_fd, count_buf, 4) < 0 )
{
case LDELAY:
{
/* expected in stream:
- LDELAY <u8 wait_state> <u32 clock_count> <u32 usecs_to_sleep>
+ LDELAY <uint8_t wait_state> <u32 clock_count> <u32 usecs_to_sleep>
*/
- u8 state;
- u8 clock_buf[4];
- u8 usecs_buf[4];
+ uint8_t state;
+ uint8_t clock_buf[4];
+ uint8_t usecs_buf[4];
if ( read(xsvf_fd, &state, 1) < 0
|| read(xsvf_fd, clock_buf, 4) < 0
case XTRST:
{
- u8 trst_mode;
+ uint8_t trst_mode;
if (read(xsvf_fd, &trst_mode, 1) < 0)
{
projects / openocd / commitdiff