fis-gtm/sr_port/dump_record.c

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/****************************************************************
* *
* Copyright 2001, 2011 Fidelity Information Services, Inc *
* *
* This source code contains the intellectual property *
* of its copyright holder(s), and is made available *
* under a license. If you do not know the terms of *
* the license, please stop and do not read further. *
* *
****************************************************************/
#include "mdef.h"
#include "gtm_string.h"
#include <signal.h>
#include "gtmctype.h"
#include "gdsroot.h"
#include "gtm_facility.h"
#include "fileinfo.h"
#include "gdsbt.h"
#include "gdsfhead.h"
#include "gdsblk.h"
#include "cli.h"
#include "copy.h"
#include "min_max.h" /* needed for init_root_gv.h */
#include "init_root_gv.h"
#include "util.h"
#include "dse.h"
#include "print_target.h"
#include "op.h"
#ifdef GTM_TRIGGER
#include "hashtab_mname.h"
#include "rtnhdr.h" /* needed for gv_trigger.h */
#include "gv_trigger.h" /* needed for INIT_ROOT_GVT */
#include "targ_alloc.h"
#endif
#ifdef UNICODE_SUPPORTED
#include "gtm_icu_api.h"
#include "gtm_utf8.h"
#endif
GBLDEF bool wide_out;
GBLDEF char patch_comp_key[MAX_KEY_SZ + 1];
GBLDEF unsigned char patch_comp_count;
GBLDEF int patch_rec_counter;
GBLREF sgmnt_addrs *cs_addrs;
GBLREF VSIG_ATOMIC_T util_interrupt;
GBLREF mval curr_gbl_root;
GBLREF int patch_is_fdmp;
GBLREF int patch_fdmp_recs;
GBLREF gv_key *gv_currkey;
GBLREF gv_namehead *gv_target;
LITREF mval literal_hasht;
#define MAX_UTIL_LEN 80
#define NUM_BYTES_PER_LINE 20
sm_uc_ptr_t dump_record(sm_uc_ptr_t rp, block_id blk, sm_uc_ptr_t bp, sm_uc_ptr_t b_top)
{
sm_uc_ptr_t r_top, key_top, cptr0, cptr1, cptr_top, cptr_base = NULL, cptr_next = NULL;
char key_buf[MAX_KEY_SZ + 1], *temp_ptr, *temp_key, util_buff[MAX_UTIL_LEN];
char *prefix_str, *space_str, *dot_str, *format_str;
unsigned char cc;
short int size;
int4 util_len, head;
uint4 ch;
int buf_len, field_width,fastate, chwidth = 0;
ssize_t chlen;
block_id blk_id;
boolean_t rechdr_displayed = FALSE;
sgmnt_addrs *csa;
if (rp >= b_top)
return NULL;
head = cli_present("HEADER");
GET_SHORT(size, &((rec_hdr_ptr_t)rp)->rsiz);
cc = ((rec_hdr_ptr_t)rp)->cmpc;
if ((CLI_NEGATED != head) && !patch_is_fdmp)
{
MEMCPY_LIT(util_buff, "Rec:");
util_len = SIZEOF("Rec:") - 1;
util_len += i2hex_nofill(patch_rec_counter, (uchar_ptr_t)&util_buff[util_len], 4);
MEMCPY_LIT(&util_buff[util_len], " Blk ");
util_len += SIZEOF(" Blk ") - 1;
util_len += i2hex_nofill(blk, (uchar_ptr_t)&util_buff[util_len], 8);
MEMCPY_LIT(&util_buff[util_len], " Off ");
util_len += SIZEOF(" Off ") - 1;
util_len += i2hex_nofill((int)(rp - bp), (uchar_ptr_t)&util_buff[util_len], 4);
MEMCPY_LIT(&util_buff[util_len], " Size ");
util_len += SIZEOF(" Size ") - 1;
util_len += i2hex_nofill(size, (uchar_ptr_t)&util_buff[util_len], 4);
MEMCPY_LIT(&util_buff[util_len], " Cmpc ");
util_len += SIZEOF(" Cmpc ") - 1;
util_len += i2hex_nofill(cc, (uchar_ptr_t)&util_buff[util_len], 2);
MEMCPY_LIT(&util_buff[util_len], " ");
util_len += SIZEOF(" ") - 1;
util_buff[util_len] = 0;
util_out_print(util_buff, FALSE);
}
r_top = rp + size;
if (r_top > b_top)
r_top = b_top;
else if (r_top < rp + SIZEOF(rec_hdr))
r_top = rp + SIZEOF(rec_hdr);
if (cc > patch_comp_count)
cc = patch_comp_count;
if (((blk_hdr_ptr_t)bp)->levl)
key_top = r_top - SIZEOF(block_id);
else
{
for (key_top = rp + SIZEOF(rec_hdr); key_top < r_top;)
if (!*key_top++ && !*key_top++)
break;
}
size = key_top - rp - SIZEOF(rec_hdr);
if (size > SIZEOF(patch_comp_key) - 2 - cc)
size = SIZEOF(patch_comp_key) - 2 - cc;
if (size < 0)
size = 0;
memcpy(&patch_comp_key[cc], rp + SIZEOF(rec_hdr), size);
patch_comp_count = cc + size;
patch_comp_key[patch_comp_count] = patch_comp_key[patch_comp_count + 1] = 0;
if (patch_is_fdmp)
{
if (dse_fdmp(key_top, (int)(r_top - key_top)))
patch_fdmp_recs++;
} else
{
if (r_top - SIZEOF(block_id) >= key_top)
{
GET_LONG(blk_id, key_top);
if ((((blk_hdr_ptr_t)bp)->levl) || (blk_id <= cs_addrs->ti->total_blks))
{
MEMCPY_LIT(util_buff, "Ptr ");
util_len = SIZEOF("Ptr ") - 1;
util_len += i2hex_nofill(blk_id, (uchar_ptr_t)&util_buff[util_len], SIZEOF(blk_id) * 2);
MEMCPY_LIT(&util_buff[util_len], " ");
util_len += SIZEOF(" ") - 1;
util_buff[util_len] = 0;
util_out_print(util_buff, FALSE);
}
}
util_out_print("Key ", FALSE);
if (r_top == b_top
&& ((blk_hdr_ptr_t)bp)->levl && !((rec_hdr_ptr_t)rp)->cmpc
&& r_top - rp == SIZEOF(rec_hdr) + SIZEOF(block_id))
util_out_print("*", FALSE);
else if (patch_comp_key[0])
{
util_out_print("^", FALSE);
csa = cs_addrs;
RETRIEVE_ROOT_VAL(patch_comp_key, key_buf, temp_ptr, temp_key, buf_len);
INIT_ROOT_GVT(key_buf, buf_len, curr_gbl_root);
}
print_target((uchar_ptr_t)patch_comp_key);
util_out_print(0, TRUE);
if (CLI_PRESENT != head)
{
prefix_str = " |";
if (wide_out)
{
format_str = " !AD";
dot_str = " .";
space_str = " ";
field_width = 4;
} else
{
format_str = " !AD";
dot_str = " .";
space_str = " ";
field_width = 3;
}
fastate = 0;
for (cptr0 = rp; cptr0 < r_top; cptr0 += NUM_BYTES_PER_LINE)
{
if (util_interrupt)
{ /* return, rather than signal ERR_CTRLC so that the calling routine
can deal with that signal and do the appropriate cleanup */
return NULL;
}
util_len = 8;
i2hex_blkfill((int)(cptr0 - bp), (uchar_ptr_t)util_buff, 8);
MEMCPY_LIT(&util_buff[util_len], " : |");
util_len += SIZEOF(" : |") - 1;
util_buff[util_len] = 0;
util_out_print(util_buff, FALSE);
/* Dump hexadecimal byte values */
for (cptr1 = cptr0; cptr1 < (cptr0 + NUM_BYTES_PER_LINE); cptr1++)
{
if (cptr1 < r_top)
{
i2hex_blkfill(*(sm_uc_ptr_t)cptr1, (uchar_ptr_t)util_buff, field_width);
util_buff[field_width] = 0;
util_out_print(util_buff, FALSE);
} else
util_out_print(space_str, FALSE);
}
util_out_print("|", TRUE);
util_out_print(prefix_str, FALSE);
/* Display character/wide-character glyphs */
for (cptr1 = cptr0, cptr_top = cptr0 + NUM_BYTES_PER_LINE; cptr1 < cptr_top; cptr1++)
{
if (!rechdr_displayed && (cptr1 == (rp + SIZEOF(rec_hdr))))
rechdr_displayed = TRUE;
assert(rechdr_displayed || (cptr1 < (rp + SIZEOF(rec_hdr))));
assert(!rechdr_displayed || (cptr1 >= (rp + SIZEOF(rec_hdr))));
switch (fastate)
{
case 0: /* prints single-byte characters or intepret
multi-byte characters */
if (cptr1 >= r_top)
util_out_print(space_str, FALSE);
else if (!gtm_utf8_mode || IS_ASCII(*cptr1) || !rechdr_displayed)
{ /* single-byte characters */
if (PRINTABLE(*(sm_uc_ptr_t)cptr1))
util_out_print(format_str, FALSE, 1, cptr1);
else
util_out_print(dot_str, FALSE);
}
#ifdef UNICODE_SUPPORTED
else { /* multi-byte characters */
cptr_next = UTF8_MBTOWC(cptr1, r_top, ch);
chlen = cptr_next - cptr1;
if (WEOF == ch || !U_ISPRINT(ch))
{ /* illegal or non-printable characters */
cptr1--;
fastate = 1;
} else
{ /* multi-byte printable characters */
cptr_base = cptr1;
chwidth = UTF8_WCWIDTH(ch);
assert(chwidth >= 0 && chwidth <= 2);
cptr1--;
fastate = 2;
}
}
#endif
break;
case 1: /* illegal or non-printable characters */
util_out_print(dot_str, FALSE);
if (--chlen <= 0)
fastate = 0;
break;
case 2: /* printable multi-byte characters */
if (chlen-- > 1) /* fill leading bytes with spaces */
util_out_print(space_str, FALSE);
else
{
util_out_print("!AD", FALSE, field_width - chwidth, space_str);
if (0 < chwidth)
util_out_print("!AD", FALSE, cptr_next - cptr_base, cptr_base);
fastate = 0;
}
break;
}
}
util_out_print("|", TRUE);
}
}
if (CLI_NEGATED != head)
util_out_print(0, TRUE);
}
return (r_top == b_top) ? NULL : r_top;
}