/*
* Copyright (c) 2004-2010 Mellanox Technologies LTD. All rights reserved.
*
* This software is available to you under a choice of one of two
* licenses. You may choose to be licensed under the terms of the GNU
* General Public License (GPL) Version 2, available from the file
* COPYING in the main directory of this source tree, or the
* OpenIB.org BSD license below:
*
* Redistribution and use in source and binary forms, with or
* without modification, are permitted provided that the following
* conditions are met:
*
* - Redistributions of source code must retain the above
* copyright notice, this list of conditions and the following
* disclaimer.
*
* - Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials
* provided with the distribution.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*
*/
%{
#include <complib/cl_qmap.h>
#include <complib/cl_passivelock.h>
#include <complib/cl_debug.h>
#include <iba/ib_types.h>
#include <opensm/osm_madw.h>
#include <opensm/osm_log.h>
#include <opensm/osm_mad_pool.h>
#include <opensm/osm_msgdef.h>
#include "ibvs.h"
%}
%{
static ibvs_t *p_ibvs_global;
int
ibvs_num_of_multi_max(void)
{
return (IBVS_MULTI_MAX);
}
/*
this function returns the string corresponding to the
read cpu data
*/
char *
ibvs_get_vs_str(
boolean_t is_multi,
boolean_t is_read,
uint8_t num,
uint8_t size,
uint8_t first_data_idx,
ib_vs_t *p_vs_mads
)
{
char *p_res_str = 0;
char buff[1024];
int i,j, extra;
if (p_vs_mads) {
for (i=0;i<num;i++) {
boolean_t space_in_resp = TRUE;
if (p_vs_mads[i].mad_header.method != VENDOR_GET_RESP) {
sprintf(buff,"TARGET_ERROR : Failed to obtain VS mad response");
} else if (ibis_get_mad_status((ib_mad_t*)&p_vs_mads[i]) != 0) {
sprintf(buff,"TARGET_ERROR : Got remote error:0x%x",
ibis_get_mad_status((ib_mad_t*)&p_vs_mads[i]));
} else if (is_read) {
sprintf(buff, "{vendor_key 0x%016" PRIx64 "} ",
cl_ntoh64(p_vs_mads[i].vendor_key));
for (j=0; j < size; j++) {
sprintf(buff,"%s {data%u 0x%x} ",
buff, j, cl_ntoh32(p_vs_mads[i].data[j+first_data_idx]));
}
} else {
// Write response - no data
// Note: The trailing space here is important !
sprintf(buff, "ACK ");
space_in_resp = 0;
}
if (is_multi && space_in_resp)
extra = 3;
else
extra = 0;
if (p_res_str) {
p_res_str =
(char *)realloc(p_res_str,strlen(p_res_str)+strlen(buff) + 1+ extra);
} else {
p_res_str = (char *)malloc(strlen(buff) + 1+ extra);
p_res_str[0] = '\0';
}
/* need an extra list wrap */
if (is_multi && space_in_resp) {
strcat(p_res_str,"{");
strcat(p_res_str, buff);
strcat(p_res_str,"} ");
} else {
strcat(p_res_str, buff);
}
}
}
return(p_res_str);
}
int
ibvs_cpu_read_global(
uint16_t lid,
uint8_t size,
uint8_t cpu_traget_size,
uint32_t address,
char **pp_new_cpu_str)
{
ib_api_status_t status;
ib_vs_t vs_mads[1];
status =
ibvs_cpu_read(p_ibvs_global,lid,size,cpu_traget_size,address,vs_mads);
if (status) {
ibis_set_tcl_error("ERROR : Fail to obtain port counters");
} else {
*pp_new_cpu_str =
ibvs_get_vs_str(FALSE, TRUE, 1, IBVS_DATA_MAX, VS_CPU_DATA_OFFSET, vs_mads);
}
return(status);
}
int
ibvs_cpu_write_global(
uint16_t lid,
uint8_t size,
uint8_t cpu_traget_size,
uint32_t data[],
uint32_t address)
{
ib_api_status_t status;
status =
ibvs_cpu_write(p_ibvs_global,lid,size,cpu_traget_size,data,address);
if (status)
ibis_set_tcl_error("ERROR : Fail to clear port counters");
return(status);
}
int
ibvs_i2c_read_global(
uint16_t lid,
uint8_t port_num,
uint8_t device_id,
uint8_t size,
uint32_t address,
char **pp_new_i2c_str)
{
ib_api_status_t status;
ib_vs_t vs_mads[1];
status =
ibvs_i2c_read(
p_ibvs_global,lid,port_num,size,device_id,address,vs_mads);
if (status) {
ibis_set_tcl_error("ERROR : Fail to obtain port counters");
} else {
*pp_new_i2c_str =
ibvs_get_vs_str(FALSE, TRUE, 1, size / 4, VS_I2C_DATA_OFFSET, vs_mads);
}
return(status);
}
int
ibvs_multi_i2c_read_global(
uint8_t num,
uint16_t lid_list[],
uint8_t port_num,
uint8_t device_id,
uint8_t size,
uint32_t address,
char **pp_new_i2c_str)
{
ib_api_status_t status;
ib_vs_t vs_mads[IBVS_MULTI_MAX];
status =
ibvs_multi_i2c_read(p_ibvs_global,num,lid_list,port_num,size,device_id,address,vs_mads);
if (status) {
ibis_set_tcl_error("ERROR : Failed reading multiple i2c");
} else {
*pp_new_i2c_str =
ibvs_get_vs_str(TRUE, TRUE, num, size / 4, VS_I2C_DATA_OFFSET, vs_mads);
}
return(status);
}
int
ibvs_multi_i2c_write_global(
uint8_t num,
uint16_t lid_list[],
uint8_t port_num,
uint8_t device_id,
uint8_t size,
uint32_t address,
uint32_t data[],
char **pp_new_i2c_str)
{
ib_api_status_t status;
ib_vs_t vs_mads[IBVS_MULTI_MAX];
status =
ibvs_multi_i2c_write(p_ibvs_global,num,lid_list,port_num,size,device_id,data,address,vs_mads);
if (status) {
ibis_set_tcl_error("ERROR : Failed writing multiple i2c");
} else {
*pp_new_i2c_str =
ibvs_get_vs_str(TRUE, FALSE, num, size / 4, VS_I2C_DATA_OFFSET, vs_mads);
}
return(status);
}
int
ibvs_i2c_write_global(
uint16_t lid,
uint8_t port_num,
uint8_t device_id,
uint8_t size,
uint32_t address,
uint32_t data[])
{
ib_api_status_t status;
status = ibvs_i2c_write(p_ibvs_global,lid,port_num,size,device_id,data,address);
if (status)
ibis_set_tcl_error("ERROR : Fail to write i2c");
return(status);
}
int
ibvs_gpio_read_global(
IN uint16_t lid,
OUT char **pp_new_gpio_str)
{
ib_api_status_t status;
ib_vs_t vs_mads[1];
status = ibvs_gpio_read(p_ibvs_global,lid,vs_mads);
if (status) {
ibis_set_tcl_error("ERROR : Fail to read gpio");
} else {
*pp_new_gpio_str =
ibvs_get_vs_str(TRUE, TRUE, 1, IBVS_DATA_MAX, VS_GPIO_DATA_OFFSET, vs_mads);
}
return(status);
}
int
ibvs_gpio_write_global(
IN uint16_t lid,
IN uint64_t gpio_mask,
IN uint64_t gpio_data)
{
ib_api_status_t status;
status = ibvs_gpio_write(p_ibvs_global,lid,gpio_mask,gpio_data );
if (status)
ibis_set_tcl_error("ERROR : Fail to write gpio");
return(status);
}
int
ibvs_multi_sw_reset_global(
uint8_t num,
uint16_t lid_list[])
{
ib_api_status_t status;
status = ibvs_multi_sw_reset(p_ibvs_global,num,lid_list);
if (status)
ibis_set_tcl_error("ERROR : Fail to reset");
return(status);
}
int
ibvs_multi_flash_open_global(
uint8_t num,
uint16_t lid_list[],
uint32_t last,
uint8_t size,
uint32_t address,
uint32_t data[],
char **pp_new_flash_str)
{
ib_api_status_t status;
ib_vs_t vs_mads[IBVS_MULTI_MAX];
status =
ibvs_multi_flash_open(
p_ibvs_global,num,lid_list,last,size,data,address,vs_mads);
if (status) {
ibis_set_tcl_error("ERROR : Fail to open flash");
} else {
*pp_new_flash_str =
ibvs_get_vs_str(TRUE, TRUE, num, 4, VS_FLASH_DATA_OFFSET, vs_mads);
}
return(status);
}
int
ibvs_multi_flash_close_global(
uint8_t num,
uint16_t lid_list[],
uint32_t force,
char **pp_new_flash_str)
{
ib_api_status_t status;
ib_vs_t vs_mads[IBVS_MULTI_MAX];
status =
ibvs_multi_flash_close(
p_ibvs_global,num,lid_list,force,vs_mads);
if (status) {
ibis_set_tcl_error("ERROR : Fail to close flash");
} else {
*pp_new_flash_str =
ibvs_get_vs_str(TRUE, TRUE, num, 4, VS_FLASH_DATA_OFFSET, vs_mads);
}
return(status);
}
int
ibvs_multi_flash_set_bank_global(
uint8_t num,
uint16_t lid_list[],
uint32_t address,
char **pp_new_flash_str)
{
ib_api_status_t status;
ib_vs_t vs_mads[IBVS_MULTI_MAX];
status =
ibvs_multi_flash_set_bank(
p_ibvs_global, num, lid_list, address, vs_mads);
if (status) {
ibis_set_tcl_error("ERROR : Fail to set flash bank");
} else {
*pp_new_flash_str =
ibvs_get_vs_str(TRUE, TRUE, num, 4, VS_FLASH_DATA_OFFSET, vs_mads);
}
return(status);
}
int
ibvs_multi_flash_erase_global(
uint8_t num,
uint16_t lid_list[],
uint32_t address,
char **pp_new_flash_str)
{
ib_api_status_t status;
ib_vs_t vs_mads[IBVS_MULTI_MAX];
status =
ibvs_multi_flash_erase(
p_ibvs_global, num, lid_list, address, vs_mads);
if (status) {
ibis_set_tcl_error("ERROR : Fail to erase flash sector");
} else {
*pp_new_flash_str =
ibvs_get_vs_str(TRUE, TRUE, num, 4, VS_FLASH_DATA_OFFSET, vs_mads);
}
return(status);
}
int
ibvs_multi_flash_read_global(
uint8_t num,
uint16_t lid_list[],
uint8_t size,
uint32_t address,
char **pp_new_flash_str)
{
ib_api_status_t status;
ib_vs_t vs_mads[IBVS_MULTI_MAX];
status =
ibvs_multi_flash_read(
p_ibvs_global, num, lid_list, size, address, vs_mads);
if (status) {
ibis_set_tcl_error("ERROR : Fail to read flash");
} else {
*pp_new_flash_str =
ibvs_get_vs_str(TRUE, TRUE, num, size / 4, VS_FLASH_DATA_OFFSET, vs_mads);
}
return(status);
}
int
ibvs_multi_flash_write_global(
uint8_t num,
uint16_t lid_list[],
uint8_t size,
uint32_t address,
uint32_t data[])
{
ib_api_status_t status;
status =
ibvs_multi_flash_write(
p_ibvs_global, num, lid_list, size, data, address);
if (status) {
ibis_set_tcl_error("ERROR : Fail to write flash");
}
return(status);
}
int
ibvs_mirror_read_global(
IN uint16_t lid,
OUT char **pp_new_mirror_str)
{
ib_api_status_t status;
ib_vs_t vs_mads[1];
status = ibvs_mirror_read(p_ibvs_global,lid,vs_mads);
if (status) {
ibis_set_tcl_error("ERROR : Fail to read mirror");
} else {
*pp_new_mirror_str =
ibvs_get_vs_str(FALSE, TRUE, 1, IBVS_DATA_MAX, VS_MIRROR_DATA_OFFSET, vs_mads);
}
return(status);
}
int
ibvs_mirror_write_global(
IN uint16_t lid,
IN uint32_t rx_mirror,
IN uint32_t tx_mirror)
{
ib_api_status_t status;
status = ibvs_mirror_write(p_ibvs_global,lid,rx_mirror,tx_mirror );
if (status)
ibis_set_tcl_error("ERROR : Fail to write mirror");
return(status);
}
int
ibvs_plft_map_get_global(
IN uint16_t lid,
IN uint8_t upper_ports,
OUT char **pp_new_plft_map_str)
{
ib_api_status_t status;
ib_vs_t vs_mads[1];
char * buff;
ib_vs_plft_map_t *p_map = (ib_vs_plft_map_t *)&vs_mads[0];
status = ibvs_plft_map_get(p_ibvs_global,lid,upper_ports,vs_mads);
if (status) {
ibis_set_tcl_error("ERROR : Fail to get private LFT map");
*pp_new_plft_map_str = NULL;
} else {
buff = (char *)malloc(1024);
*pp_new_plft_map_str = buff;
sprintf(buff,
"{ib_port0 0x%x} "
"{shared_plft_port0 0x%x} "
"{size0 0x%x} "
"{ib_port1 0x%x} "
"{shared_plft_port1 0x%x} "
"{size1 0x%x} "
"{ib_port2 0x%x} "
"{shared_plft_port2 0x%x} "
"{size2 0x%x} "
"{ib_port3 0x%x} "
"{shared_plft_port3 0x%x} "
"{size3 0x%x} "
"{ib_port4 0x%x} "
"{shared_plft_port4 0x%x} "
"{size4 0x%x} "
"{ib_port5 0x%x} "
"{shared_plft_port5 0x%x} "
"{size5 0x%x} "
"{ib_port6 0x%x} "
"{shared_plft_port6 0x%x} "
"{size6 0x%x} "
"{ib_port7 0x%x} "
"{shared_plft_port7 0x%x} "
"{reserved7 0x%x} "
"{size7 0x%x} "
"{ib_port8 0x%x} "
"{shared_plft_port8 0x%x} "
"{size8 0x%x} "
"{ib_port9 0x%x} "
"{shared_plft_port9 0x%x} "
"{reserved9 0x%x} "
"{size9 0x%x} "
"{ib_port10 0x%x} "
"{shared_plft_port10 0x%x} "
"{size10 0x%x} "
"{ib_port11 0x%x} "
"{shared_plft_port11 0x%x} "
"{size11 0x%x} "
"{ib_port12 0x%x} "
"{shared_plft_port12 0x%x} "
"{size12 0x%x}",
p_map->ib_port0,
p_map->shared_plft_port0,
p_map->size0,
p_map->ib_port1,
p_map->shared_plft_port1,
p_map->size1,
p_map->ib_port2,
p_map->shared_plft_port2,
p_map->size2,
p_map->ib_port3,
p_map->shared_plft_port3,
p_map->size3,
p_map->ib_port4,
p_map->shared_plft_port4,
p_map->size4,
p_map->ib_port5,
p_map->shared_plft_port5,
p_map->size5,
p_map->ib_port6,
p_map->shared_plft_port6,
p_map->size6,
p_map->ib_port7,
p_map->shared_plft_port7,
p_map->reserved7,
p_map->size7,
p_map->ib_port8,
p_map->shared_plft_port8,
p_map->size8,
p_map->ib_port9,
p_map->shared_plft_port9,
p_map->reserved9,
p_map->size9,
p_map->ib_port10,
p_map->shared_plft_port10,
p_map->size10,
p_map->ib_port11,
p_map->shared_plft_port11,
p_map->size11,
p_map->ib_port12,
p_map->shared_plft_port12,
p_map->size12
);
}
return(status);
}
int
ibvs_general_info_get_global(
IN uint16_t lid,
OUT char **pp_gen_info_str)
{
ib_api_status_t status;
ib_vs_t vs_mads[1];
char * buff;
char psid[17];
ib_vs_gen_info_t *p_info = (ib_vs_gen_info_t *)&vs_mads[0];
status = ibvs_general_info_get(p_ibvs_global,lid,vs_mads);
if (status) {
ibis_set_tcl_error("ERROR : Fail to get general info");
*pp_gen_info_str = 0;
} else {
buff = (char *)malloc(1024);
*pp_gen_info_str = buff;
strncpy(psid, (char *)p_info->fw_psid, 16);
psid[16] = '\0';
sprintf(buff,
"{hw_rev 0x%x} "
"{hw_devid 0x%x} "
"{hw_uptime 0x%x} "
"{fw_major 0x%x} "
"{fw_minor 0x%x} "
"{fw_sub_minor 0x%x} "
"{fw_build_id 0x%x} "
"{fw_month 0x%x} "
"{fw_day 0x%x} "
"{fw_year 0x%x} "
"{fw_hour 0x%x} "
"{fw_psid \"%s\"} "
"{fw_ini_ver 0x%x} "
"{sw_major 0x%x} "
"{sw_minor 0x%x} "
"{sw_sub_minor 0x%x}",
cl_ntoh16(p_info->hw_rev),
cl_ntoh16(p_info->hw_devid),
cl_ntoh32(p_info->hw_uptime),
p_info->fw_major,
p_info->fw_minor,
p_info->fw_sub_minor,
cl_ntoh32(p_info->fw_build_id),
p_info->fw_month,
p_info->fw_day,
cl_ntoh16(p_info->fw_year),
cl_ntoh16(p_info->fw_hour),
psid,
cl_ntoh32(p_info->fw_ini_ver),
p_info->sw_major,
p_info->sw_minor,
p_info->sw_sub_minor);
}
return(status);
}
%}
%{
#define uint16_vs_arr_t uint16_t
%}
%typemap(tcl8,in) uint16_vs_arr_t *(uint16_t temp[IBVS_MULTI_MAX]) {
char *str;
char *str_tcl;
int i;
char *loc_buf;
char *str_token = NULL;
str_tcl = Tcl_GetStringFromObj($source,NULL);
loc_buf = (char *)malloc((strlen(str_tcl)+1)*sizeof(char));
strcpy(loc_buf,str_tcl);
str = strtok_r(loc_buf," ", &str_token);
for (i=0;i<IBVS_MULTI_MAX;i++) {
if (str == NULL) {
break;
}
temp[i] = atoi(str);
str = strtok_r(NULL," ",&str_token);
}
$target = temp;
free(loc_buf);
}
%{
#define uint32_vs_data_arr_t uint32_t
%}
%typemap(tcl8,in) uint32_vs_data_arr_t *(uint32_t temp[IBVS_DATA_MAX]) {
char *str;
char *str_tcl;
int i;
char *loc_buf;
char *str_token = NULL;
str_tcl = Tcl_GetStringFromObj($source,NULL);
loc_buf = (char *)malloc((strlen(str_tcl)+1)*sizeof(char));
strcpy(loc_buf,str_tcl);
str = strtok_r(loc_buf," ", &str_token);
for (i=0;i<IBVS_DATA_MAX;i++) {
if (str == NULL) {
break;
}
temp[i] = (uint32_t)strtoll(str, (char **)NULL, 0);
str = strtok_r(NULL," ",&str_token);
}
$target = temp;
free(loc_buf);
}
//
// IBVS MAD TYPE MAPS
//
%section "IB Vendor Specific Functions",pre
/* IBVS UI functions */
%text %{
This section provide the details about the functions IBVS exposes.
They all return 0 on succes.
%}
%name(vsMultiMaxGet) ibvs_num_of_multi_max();
%typemap (tcl8, ignore) char **p_out_str (char *p_c) {
$target = &p_c;
}
%typemap (tcl8, argout) char **p_out_str {
Tcl_SetStringObj($target,*$source,strlen(*$source));
if (*$source) free(*$source);
}
%apply char **p_out_str {char **pp_new_cpu_str};
%name(vsCpuRead) int ibvs_cpu_read_global(
uint16_t lid,
uint8_t size,
uint8_t cpu_traget_size,
uint32_t address,
char **pp_new_cpu_str);
%name(vsCpuWrite) int ibvs_cpu_write_global(
uint16_t lid,
uint8_t size,
uint8_t cpu_traget_size,
uint32_vs_data_arr_t data[],
uint32_t address);
%apply char **p_out_str {char **pp_new_i2c_str};
%name(vsI2cRead) int ibvs_i2c_read_global(
uint16_t lid,
uint8_t port_num,
uint8_t device_id,
uint8_t size,
uint32_t address,
char **pp_new_i2c_str);
%name(vsI2cWrite) int ibvs_i2c_write_global(
uint16_t lid,
uint8_t port_num,
uint8_t device_id,
uint8_t size,
uint32_t address,
uint32_vs_data_arr_t data[]);
%name(vsI2cReadMulti) int ibvs_multi_i2c_read_global(
uint8_t num,
uint16_vs_arr_t lid_list[],
uint8_t port_num,
uint8_t device_id,
uint8_t size,
uint32_t address,
char **pp_new_i2c_str);
%name(vsI2cWriteMulti) int ibvs_multi_i2c_write_global(
uint8_t num,
uint16_vs_arr_t lid_list[],
uint8_t port_num,
uint8_t device_id,
uint8_t size,
uint32_t address,
uint32_vs_data_arr_t data[],
char **pp_new_i2c_str);
%apply char **p_out_str {char **pp_new_gpio_str};
%name(vsGpioRead) int ibvs_gpio_read_global(
uint16_t lid,
char **pp_new_gpio_str);
%name(vsGpioWrite) int ibvs_gpio_write_global(
uint16_t lid,
uint64_t gpio_mask,
uint64_t gpio_data);
%name(vsSWReset) int ibvs_multi_sw_reset_global(
uint8_t num,
uint16_vs_arr_t lid_list[]);
%apply char **p_out_str {char **pp_new_flash_str};
%name(vsFlashStartMulti) int ibvs_multi_flash_open_global(
uint8_t num,
uint16_vs_arr_t lid_list[],
uint32_t last,
uint8_t size,
uint32_t address,
uint32_vs_data_arr_t data[],
char **pp_new_flash_str);
%name(vsFlashStopMulti) int ibvs_multi_flash_close_global(
uint8_t num,
uint16_vs_arr_t lid_list[],
uint32_t force,
char **pp_new_flash_str);
%name(vsFlashSetBankMulti) int ibvs_multi_flash_set_bank_global(
uint8_t num,
uint16_vs_arr_t lid_list[],
uint32_t address,
char **pp_new_flash_str);
%name(vsFlashEraseSectorMulti) int ibvs_multi_flash_erase_global(
uint8_t num,
uint16_vs_arr_t lid_list[],
uint32_t address,
char **pp_new_flash_str);
%name(vsFlashReadSectorMulti) int ibvs_multi_flash_read_global(
uint8_t num,
uint16_vs_arr_t lid_list[],
uint8_t size,
uint32_t address,
char **pp_new_flash_str);
%name(vsFlashWriteSectorMulti) int ibvs_multi_flash_write_global(
uint8_t num,
uint16_vs_arr_t lid_list[],
uint8_t size,
uint32_t address,
uint32_vs_data_arr_t data[]);
%name(vsMirrorRead) int ibvs_mirror_read_global(
uint16_t lid,
char **pp_new_gpio_str);
%name(vsMirrorWrite) int ibvs_mirror_write_global(
uint16_t lid,
uint32_t rx_mirror,
uint32_t tx_mirror);
%apply char **p_out_str {char **pp_gen_info_str};
%name(vsGetGeneralInfo) int ibvs_general_info_get_global(
uint16_t lid,
char **pp_gen_info_str);
%apply char **p_out_str {char **pp_new_plft_map_str};
%name(vsGetPrivateLFTMap) int ibvs_plft_map_get_global(
uint16_t lid,
uint8_t upper_ports,
char **pp_new_plft_map_str);