rt-thread-stm32f072/rt-thread/components/utilities/var_export/var_export.c

245 lines
6.9 KiB
C

/*
* Copyright (c) 2006-2022, RT-Thread Development Team
*
* SPDX-License-Identifier: Apache-2.0
*
* Change Logs:
* Date Author Notes
* 2021-06-04 WillianChan first version
* 2021-06-08 WillianChan support to MS VC++ compiler
*/
#include <var_export.h>
static const ve_exporter_t *ve_exporter_table = RT_NULL;
static rt_size_t ve_exporter_num = 0;
/* for IAR compiler */
#if defined(__ICCARM__) || defined(__ICCRX__)
#pragma section="VarExpTab"
#endif
/* for ARM C and IAR Compiler */
#if defined(__ARMCC_VERSION) || defined (__ICCARM__) || defined(__ICCRX__)
static RT_USED const struct ve_exporter __ve_table_start
RT_SECTION("0.""VarExpTab") = {"ve_start", "ve_start", 0};
static RT_USED const struct ve_exporter __ve_table_end
RT_SECTION("2.""VarExpTab") = {"ve_end", "ve_end", 2};
#endif
/* for MS VC++ compiler */
#if defined(_MSC_VER)
#pragma section("VarExpTab$a", read)
__declspec(allocate("VarExpTab$a"))
RT_USED const struct ve_exporter __ve_table_start = { "ve_start", "ve_start", 0};
#pragma section("VarExpTab$z", read)
__declspec(allocate("VarExpTab$z"))
RT_USED const struct ve_exporter __ve_table_end = { "ve_end", "ve_end", 2};
/* Find var objects in VarExpTab segments */
static int ve_init_find_obj(unsigned int *begin, unsigned int *end, ve_exporter_t *table)
{
int obj_count = 0;
while (begin < end)
{
if (*begin != RT_NULL)
{
*table++ = *((struct ve_exporter *)begin);
begin += sizeof(struct ve_exporter) / sizeof(unsigned int);
obj_count += 1;
}
else
{
begin++;
}
}
return obj_count;
}
#endif /* _MSC_VER */
/* initialize var export */
int var_export_init(void)
{
/* initialize the var export table.*/
#if defined(__ARMCC_VERSION) /* for ARM C Compiler */
ve_exporter_table = &__ve_table_start + 1;
ve_exporter_num = &__ve_table_end - &__ve_table_start;
#elif defined (__IAR_SYSTEMS_ICC__) /* for IAR Compiler */
ve_exporter_table = &__ve_table_start + 1;
ve_exporter_num = &__ve_table_end - &__ve_table_start - 1;
#elif defined (__GNUC__) /* for GCC Compiler */
extern const int __ve_table_start;
extern const int __ve_table_end;
ve_exporter_table = (const ve_exporter_t *)&__ve_table_start;
ve_exporter_num = (const ve_exporter_t *)&__ve_table_end - ve_exporter_table;
#elif defined (_MSC_VER) /* for MS VC++ compiler */
unsigned int *ptr_begin = (unsigned int *)&__ve_table_start;
unsigned int *ptr_end = (unsigned int *)&__ve_table_end;
static ve_exporter_t ve_exporter_tab[2048];
static char __vexp_strbuf1[1024];
static char __vexp_strbuf2[1024];
ve_exporter_t ve_exporter_temp;
rt_size_t index_i, index_j;
/* past the three members in first ptr_begin */
ptr_begin += (sizeof(struct ve_exporter) / sizeof(unsigned int));
while (*ptr_begin == 0) ptr_begin++;
do ptr_end--; while (*ptr_end == 0);
/* Find var objects in custom segments to solve the problem of holes in objects in different files */
ve_exporter_num = ve_init_find_obj(ptr_begin, ptr_end, ve_exporter_tab);
/* check if the ve_exporter_num is out of bounds */
RT_ASSERT(ve_exporter_num < (sizeof(ve_exporter_tab) / sizeof(ve_exporter_t)));
/* bubble sort algorithms */
for (index_i = 0; index_i < (ve_exporter_num - 1); index_i++)
{
for (index_j = 0; index_j < ((ve_exporter_num - 1) - index_i); index_j++)
{
/* splice ve_exporter's module and ve_exporter's identifier into a complete string */
rt_snprintf(__vexp_strbuf1,
sizeof(__vexp_strbuf1),
"%s%s",
ve_exporter_tab[index_j].module,
ve_exporter_tab[index_j].identifier);
rt_snprintf(__vexp_strbuf2,
sizeof(__vexp_strbuf2),
"%s%s",
ve_exporter_tab[index_j + 1].module,
ve_exporter_tab[index_j + 1].identifier);
if (rt_strcmp(__vexp_strbuf1, __vexp_strbuf2) > 0)
{
ve_exporter_temp = ve_exporter_tab[index_j];
ve_exporter_tab[index_j] = ve_exporter_tab[index_j + 1];
ve_exporter_tab[index_j + 1] = ve_exporter_temp;
}
}
}
ve_exporter_table = ve_exporter_tab;
#endif /* __ARMCC_VERSION */
return ve_exporter_num;
}
INIT_PREV_EXPORT(var_export_init);
/* initialize module */
int ve_module_init(ve_module_t *mod, const char *module)
{
const ve_exporter_t *exporter = ve_exporter_table;
rt_bool_t first_exist = RT_FALSE;
rt_size_t found_index;
for (found_index = 0; found_index < ve_exporter_num; found_index++)
{
if (!rt_strcmp(exporter->module, module))
{
if (first_exist == RT_FALSE)
{
mod->begin = exporter;
first_exist = RT_TRUE;
}
mod->end = exporter;
}
exporter++;
}
if (first_exist == RT_FALSE)
{
return -RT_ERROR;
}
return RT_EOK;
}
/* initialize iterator */
void ve_iter_init(ve_module_t *mod, ve_iterator_t *iter)
{
if (iter)
{
iter->exp_index = mod->begin;
iter->exp_end = mod->end;
}
}
/* iterate backward */
const ve_exporter_t *ve_iter_next(ve_iterator_t *iter)
{
if (iter->exp_index <= iter->exp_end)
{
return iter->exp_index++;
}
else
{
return RT_NULL;
}
}
/* binary search based on identifier */
const ve_exporter_t *ve_binary_search(ve_module_t *mod, const char *identifier)
{
int ve_low_num = 0;
int ve_high_num = mod->end - mod->begin;
int ve_mid_num = 0;
int strcmp_rst = 0;
while ((ve_low_num <= ve_high_num) && (ve_high_num >= 0) && (ve_low_num >= 0))
{
ve_mid_num = (ve_high_num + ve_low_num) / 2;
strcmp_rst = rt_strcmp(mod->begin[ve_mid_num].identifier, identifier);
if (strcmp_rst == 0)
{
return &mod->begin[ve_mid_num];
}
else if (strcmp_rst > 0)
{
ve_high_num = ve_mid_num - 1;
}
else
{
ve_low_num = ve_mid_num + 1;
}
}
return RT_NULL;
}
/* get the value by identifier */
rt_base_t ve_value_get(ve_module_t *mod, const char *identifier)
{
const ve_exporter_t *exporter = ve_binary_search(mod, identifier);
if (exporter)
{
return exporter->value;
}
else
{
return VE_NOT_FOUND;
}
}
/* check if this value exists in the module*/
rt_bool_t ve_value_exist(ve_module_t *mod, const char *identifier)
{
if (ve_binary_search(mod, identifier))
{
return RT_TRUE;
}
else
{
return RT_FALSE;
}
}
rt_size_t ve_value_count(ve_module_t *mod)
{
return mod->end - mod->begin + 1;
}