Gave up macro Libisofs_new_nm_sl_cE and the old computation of NM, SL, AA size.

This commit is contained in:
Thomas Schmitt 2009-02-14 11:14:27 +01:00
parent c789c23119
commit 0ada61b15e

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@ -7,7 +7,6 @@
* published by the Free Software Foundation. See COPYING file for details. * published by the Free Software Foundation. See COPYING file for details.
*/ */
#define Libisofs_new_nm_sl_cE yes
/* ts A90116 : libisofs.h eventually defines Libisofs_with_aaiP */ /* ts A90116 : libisofs.h eventually defines Libisofs_with_aaiP */
#include "libisofs.h" #include "libisofs.h"
@ -962,15 +961,9 @@ size_t rrip_calc_len(Ecma119Image *t, Ecma119Node *n, int type, size_t space,
#ifdef Libisofs_with_aaiP #ifdef Libisofs_with_aaiP
/* ts A90112 */ /* ts A90112 */
#ifndef Libisofs_new_nm_sl_cE
void *xipt;
size_t num_aapt = 0, sua_free = 0;
#endif /* Libisofs_new_nm_sl_cE */
int ret; int ret;
#else /* Libisofs_with_aaiP */ #else /* Libisofs_with_aaiP */
#ifdef Libisofs_new_nm_sl_cE
int ret; int ret;
#endif
#endif /* ! Libisofs_with_aaiP */ #endif /* ! Libisofs_with_aaiP */
/* space min is 255 - 33 - 37 = 185 /* space min is 255 - 33 - 37 = 185
@ -1022,162 +1015,11 @@ size_t rrip_calc_len(Ecma119Image *t, Ecma119Node *n, int type, size_t space,
if (type == 0) { if (type == 0) {
#ifdef Libisofs_new_nm_sl_cE
/* Try without CE */ /* Try without CE */
ret = susp_calc_nm_sl_aa(t, n, space, &su_size, ce, 0); ret = susp_calc_nm_sl_aa(t, n, space, &su_size, ce, 0);
if (ret == 0) /* Retry with CE */ if (ret == 0) /* Retry with CE */
susp_calc_nm_sl_aa(t, n, space, &su_size, ce, 1); susp_calc_nm_sl_aa(t, n, space, &su_size, ce, 1);
#else /* Libisofs_new_nm_sl_cE */
char *name = get_rr_fname(t, n->node->name);
size_t namelen = strlen(name);
free(name);
/* NM entry */
if (su_size + 5 + namelen <= space) {
/* ok, it fits in System Use Area */
su_size += 5 + namelen;
} else {
/* the NM will be divided in a CE */
namelen = namelen - (space - su_size - 5 - 28);
*ce = 5 + namelen;
su_size = space;
}
if (n->type == ECMA119_SYMLINK) {
/*
* for symlinks, we also need to write the SL
*/
char *dest, *cur, *prev;
size_t sl_len = 5;
int cew = (*ce != 0); /* are we writing to CE? */
dest = get_rr_fname(t, ((IsoSymlink*)n->node)->dest);
prev = dest;
cur = strchr(prev, '/');
while (1) {
size_t clen;
if (cur) {
clen = cur - prev;
} else {
/* last component */
clen = strlen(prev);
}
if (clen == 1 && prev[0] == '.') {
clen = 0;
} else if (clen == 2 && prev[0] == '.' && prev[1] == '.') {
clen = 0;
}
/* flags and len for each component record (RRIP, 4.1.3.1) */
clen += 2;
if (!cew) {
/* we are still writing to the SUA */
if (su_size + sl_len + clen > space) {
/*
* ok, we need a Continuation Area anyway
* TODO this can be handled better, but for now SL
* will be completelly moved into the CA
*/
if (su_size + 28 <= space) {
/* the CE entry fills without reducing NM */
su_size += 28;
} else {
/* we need to reduce NM */
*ce = (28 - (space - su_size)) + 5;
su_size = space;
}
cew = 1;
} else {
sl_len += clen;
}
}
if (cew) {
if (sl_len + clen > 255) {
/* we need an additional SL entry */
if (clen > 250) {
/*
* case 1, component too large to fit in a
* single SL entry. Thus, the component need
* to be divided anyway.
* Note than clen can be up to 255 + 2 = 257.
*
* First, we check how many bytes fit in current
* SL field
*/
int fit = 255 - sl_len - 2;
if (clen - 250 <= fit) {
/*
* the component can be divided between this
* and another SL entry
*/
*ce += 255; /* this SL, full */
sl_len = 5 + (clen - fit);
} else {
/*
* the component will need a 2rd SL entry in
* any case, so we prefer to don't write
* anything in this SL
*/
*ce += sl_len + 255;
sl_len = 5 + (clen - 250) + 2;
}
} else {
/* case 2, create a new SL entry */
*ce += sl_len;
sl_len = 5 + clen;
}
} else {
sl_len += clen;
}
}
if (!cur || cur[1] == '\0') {
/* cur[1] can be \0 if dest ends with '/' */
break;
}
prev = cur + 1;
cur = strchr(prev, '/');
}
free(dest);
/* and finally write the pending SL field */
if (!cew) {
/* the whole SL fits into the SUA */
su_size += sl_len;
} else {
*ce += sl_len;
}
}
#ifdef Libisofs_with_aaiP
/* ts A90112 */
xipt = NULL;
/* obtain num_aapt from node */
num_aapt = 0;
if (t->aaip) {
ret = iso_node_get_xinfo(n->node, aaip_xinfo_func, &xipt);
if (ret == 1) {
num_aapt = aaip_count_bytes((unsigned char *) xipt, 0);
}
}
/* let the expert decide where to add num_aapt */
if (num_aapt > 0) {
sua_free = space - su_size;
aaip_add_AA(t, NULL, NULL, num_aapt, &sua_free, ce, 1);
su_size = space - sua_free;
}
#endif /* Libisofs_with_aaiP */
#endif /* ! Libisofs_new_nm_sl_cE */
} else { } else {
/* "." or ".." entry */ /* "." or ".." entry */
@ -1263,11 +1105,8 @@ int rrip_get_susp_fields(Ecma119Image *t, Ecma119Node *n, int type,
size_t num_aapt= 0; size_t num_aapt= 0;
#endif #endif
size_t aaip_er_len= 0; size_t aaip_er_len= 0;
#ifdef Libisofs_new_nm_sl_cE
size_t su_size_pd, ce_len_pd; /* predicted sizes of SUA and CA */ size_t su_size_pd, ce_len_pd; /* predicted sizes of SUA and CA */
int ce_is_predicted = 0; int ce_is_predicted = 0;
#endif
if (t == NULL || n == NULL || info == NULL) { if (t == NULL || n == NULL || info == NULL) {
return ISO_NULL_POINTER; return ISO_NULL_POINTER;
@ -1374,7 +1213,6 @@ int rrip_get_susp_fields(Ecma119Image *t, Ecma119Node *n, int type,
sua_free = space - info->suf_len; sua_free = space - info->suf_len;
#ifdef Libisofs_new_nm_sl_cE
/* ts A90117 */ /* ts A90117 */
/* Try whether NM, SL, AA will fit into SUA */ /* Try whether NM, SL, AA will fit into SUA */
su_size_pd = info->suf_len; su_size_pd = info->suf_len;
@ -1386,8 +1224,6 @@ int rrip_get_susp_fields(Ecma119Image *t, Ecma119Node *n, int type,
ce_is_predicted = 1; ce_is_predicted = 1;
} }
#endif /* ! Libisofs_new_nm_sl_cE */
/* NM entry */ /* NM entry */
if (5 + namelen <= sua_free) { if (5 + namelen <= sua_free) {
/* ok, it fits in System Use Area */ /* ok, it fits in System Use Area */
@ -1396,13 +1232,7 @@ int rrip_get_susp_fields(Ecma119Image *t, Ecma119Node *n, int type,
} else { } else {
/* the NM will be divided in a CE */ /* the NM will be divided in a CE */
nm_type = 1; nm_type = 1;
#ifdef Libisofs_new_nm_sl_cE
namelen = namelen - (sua_free - 5); namelen = namelen - (sua_free - 5);
#else
namelen = namelen - (sua_free - 5 - 28);
#endif
ce_len = 5 + namelen; ce_len = 5 + namelen;
sua_free = 0; sua_free = 0;
} }
@ -1451,28 +1281,10 @@ int rrip_get_susp_fields(Ecma119Image *t, Ecma119Node *n, int type,
* will be completelly moved into the CA * will be completelly moved into the CA
*/ */
#ifdef Libisofs_new_nm_sl_cE
/* ts A90117 */ /* ts A90117 */
/* sua_free, ce_len, nm_type already account for CE */ /* sua_free, ce_len, nm_type already account for CE */
cew = 1; cew = 1;
#else /* Libisofs_new_nm_sl_cE */
if (28 <= sua_free) {
/* the CE entry fills without reducing NM */
sua_free -= 28;
cew = 1;
} else {
/* we need to reduce NM */
nm_type = 1;
ce_len = (28 - sua_free) + 5;
sua_free = 0;
cew = 1;
}
#endif /* ! Libisofs_new_nm_sl_cE */
} else { } else {
/* add the component */ /* add the component */
ret = rrip_SL_append_comp(&n_comp, &comps, prev, ret = rrip_SL_append_comp(&n_comp, &comps, prev,
@ -1590,32 +1402,16 @@ int rrip_get_susp_fields(Ecma119Image *t, Ecma119Node *n, int type,
* entry and NM in the continuation area is added below * entry and NM in the continuation area is added below
*/ */
#ifdef Libisofs_new_nm_sl_cE
namelen = space - info->suf_len - 28 * (!!ce_is_predicted) - 5; namelen = space - info->suf_len - 28 * (!!ce_is_predicted) - 5;
#else
namelen = space - info->suf_len - 28 - 5;
#endif
ret = rrip_add_NM(t, info, name, namelen, 1, 0); ret = rrip_add_NM(t, info, name, namelen, 1, 0);
if (ret < 0) { if (ret < 0) {
goto add_susp_cleanup; goto add_susp_cleanup;
} }
} }
#ifdef Libisofs_new_nm_sl_cE
if (ce_is_predicted) { if (ce_is_predicted) {
/* Add the CE entry */ /* Add the CE entry */
ret = susp_add_CE(t, ce_len_pd, info); ret = susp_add_CE(t, ce_len_pd, info);
#else /* Libisofs_new_nm_sl_cE */
if (ce_len > 0) {
/* Add the CE entry */
ret = susp_add_CE(t, ce_len, info);
#endif /* ! Libisofs_new_nm_sl_cE */
if (ret < 0) { if (ret < 0) {
goto add_susp_cleanup; goto add_susp_cleanup;
} }