library/mps_reader.c - third_party/github/ARMmbed/mbedtls - Git at Google

 /*
  *  Message Processing Stack, Reader implementation
  *
  *  Copyright The Mbed TLS Contributors
  *  SPDX-License-Identifier: Apache-2.0 OR GPL-2.0-or-later
  */

 #include "common.h"

 #if defined(MBEDTLS_SSL_PROTO_TLS1_3)

 #include "mps_reader.h"
 #include "mps_common.h"
 #include "mps_trace.h"

 #include <string.h>

 #if defined(MBEDTLS_MPS_ENABLE_TRACE)
 static int mbedtls_mps_trace_id = MBEDTLS_MPS_TRACE_BIT_READER;
 #endif /* MBEDTLS_MPS_ENABLE_TRACE */

 /*
  * GENERAL NOTE ON CODING STYLE
  *
  * The following code intentionally separates memory loads
  * and stores from other operations (arithmetic or branches).
  * This leads to the introduction of many local variables
  * and significantly increases the C-code line count, but
  * should not increase the size of generated assembly.
  *
  * The reason for this is twofold:
  * (1) It will ease verification efforts using the VST
  *     (Verified Software Toolchain)
  *     whose program logic cannot directly reason
  *     about instructions containing a load or store in
  *     addition to other operations (e.g. *p = *q or
  *     tmp = *p + 42).
  * (2) Operating on local variables and writing the results
  *     back to the target contexts on success only
  *     allows to maintain structure invariants even
  *     on failure - this in turn has two benefits:
  *     (2.a) If for some reason an error code is not caught
  *           and operation continues, functions are nonetheless
  *           called with sane contexts, reducing the risk
  *           of dangerous behavior.
  *     (2.b) Randomized testing is easier if structures
  *           remain intact even in the face of failing
  *           and/or non-sensical calls.
  *     Moreover, it might even reduce code-size because
  *     the compiler need not write back temporary results
  *     to memory in case of failure.
  *
  */

 static inline int mps_reader_is_accumulating(
     mbedtls_mps_reader const *rd)
 {
     mbedtls_mps_size_t acc_remaining;
     if (rd->acc == NULL) {
         return 0;
     }

     acc_remaining = rd->acc_share.acc_remaining;
     return acc_remaining > 0;
 }

 static inline int mps_reader_is_producing(
     mbedtls_mps_reader const *rd)
 {
     unsigned char *frag = rd->frag;
     return frag == NULL;
 }

 static inline int mps_reader_is_consuming(
     mbedtls_mps_reader const *rd)
 {
     return !mps_reader_is_producing(rd);
 }

 static inline mbedtls_mps_size_t mps_reader_get_fragment_offset(
     mbedtls_mps_reader const *rd)
 {
     unsigned char *acc = rd->acc;
     mbedtls_mps_size_t frag_offset;

     if (acc == NULL) {
         return 0;
     }

     frag_offset = rd->acc_share.frag_offset;
     return frag_offset;
 }

 static inline mbedtls_mps_size_t mps_reader_serving_from_accumulator(
     mbedtls_mps_reader const *rd)
 {
     mbedtls_mps_size_t frag_offset, end;

     frag_offset = mps_reader_get_fragment_offset(rd);
     end = rd->end;

     return end < frag_offset;
 }

 static inline void mps_reader_zero(mbedtls_mps_reader *rd)
 {
     /* A plain memset() would likely be more efficient,
      * but the current way of zeroing makes it harder
      * to overlook fields which should not be zero-initialized.
      * It's also more suitable for FV efforts since it
      * doesn't require reasoning about structs being
      * interpreted as unstructured binary blobs. */
     static mbedtls_mps_reader const zero =
     { .frag          = NULL,
       .frag_len      = 0,
       .commit        = 0,
       .end           = 0,
       .pending       = 0,
       .acc           = NULL,
       .acc_len       = 0,
       .acc_available = 0,
       .acc_share     = { .acc_remaining = 0 } };
     *rd = zero;
 }

 int mbedtls_mps_reader_init(mbedtls_mps_reader *rd,
                             unsigned char *acc,
                             mbedtls_mps_size_t acc_len)
 {
     MBEDTLS_MPS_TRACE_INIT("mbedtls_mps_reader_init");
     MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
                       "* Accumulator size: %u bytes", (unsigned) acc_len);
     mps_reader_zero(rd);
     rd->acc = acc;
     rd->acc_len = acc_len;
     MBEDTLS_MPS_TRACE_RETURN(0);
 }

 int mbedtls_mps_reader_free(mbedtls_mps_reader *rd)
 {
     MBEDTLS_MPS_TRACE_INIT("mbedtls_mps_reader_free");
     mps_reader_zero(rd);
     MBEDTLS_MPS_TRACE_RETURN(0);
 }

 int mbedtls_mps_reader_feed(mbedtls_mps_reader *rd,
                             unsigned char *new_frag,
                             mbedtls_mps_size_t new_frag_len)
 {
     mbedtls_mps_size_t copy_to_acc;
     MBEDTLS_MPS_TRACE_INIT("mbedtls_mps_reader_feed");
     MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
                       "* Fragment length: %u bytes", (unsigned) new_frag_len);

     if (new_frag == NULL) {
         MBEDTLS_MPS_TRACE_RETURN(MBEDTLS_ERR_MPS_READER_INVALID_ARG);
     }

     MBEDTLS_MPS_STATE_VALIDATE_RAW(mps_reader_is_producing(
                                        rd),
                                    "mbedtls_mps_reader_feed() requires reader to be in producing mode");

     if (mps_reader_is_accumulating(rd)) {
         unsigned char *acc    = rd->acc;
         mbedtls_mps_size_t acc_remaining = rd->acc_share.acc_remaining;
         mbedtls_mps_size_t acc_available = rd->acc_available;

         /* Skip over parts of the accumulator that have already been filled. */
         acc += acc_available;

         copy_to_acc = acc_remaining;
         if (copy_to_acc > new_frag_len) {
             copy_to_acc = new_frag_len;
         }

         /* Copy new contents to accumulator. */
         memcpy(acc, new_frag, copy_to_acc);

         MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
                           "Copy new data of size %u of %u into accumulator at offset %u",
                           (unsigned) copy_to_acc, (unsigned) new_frag_len,
                           (unsigned) acc_available);

         /* Check if, with the new fragment, we have enough data. */
         acc_remaining -= copy_to_acc;
         if (acc_remaining > 0) {
             /* We need to accumulate more data. Stay in producing mode. */
             acc_available += copy_to_acc;
             rd->acc_share.acc_remaining = acc_remaining;
             rd->acc_available = acc_available;
             MBEDTLS_MPS_TRACE_RETURN(MBEDTLS_ERR_MPS_READER_NEED_MORE);
         }

         /* We have filled the accumulator: Move to consuming mode. */

         MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
                           "Enough data available to serve user request");

         /* Remember overlap of accumulator and fragment. */
         rd->acc_share.frag_offset = acc_available;
         acc_available += copy_to_acc;
         rd->acc_available = acc_available;
     } else { /* Not accumulating */
         rd->acc_share.frag_offset = 0;
     }

     rd->frag = new_frag;
     rd->frag_len = new_frag_len;
     rd->commit = 0;
     rd->end = 0;
     MBEDTLS_MPS_TRACE_RETURN(0);
 }


 int mbedtls_mps_reader_get(mbedtls_mps_reader *rd,
                            mbedtls_mps_size_t desired,
                            unsigned char **buffer,
                            mbedtls_mps_size_t *buflen)
 {
     unsigned char *frag;
     mbedtls_mps_size_t frag_len, frag_offset, end, frag_fetched, frag_remaining;
     MBEDTLS_MPS_TRACE_INIT("mbedtls_mps_reader_get");
     MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
                       "* Bytes requested: %u", (unsigned) desired);

     MBEDTLS_MPS_STATE_VALIDATE_RAW(mps_reader_is_consuming(
                                        rd),
                                    "mbedtls_mps_reader_get() requires reader to be in consuming mode");

     end = rd->end;
     frag_offset = mps_reader_get_fragment_offset(rd);

     /* Check if we're still serving from the accumulator. */
     if (mps_reader_serving_from_accumulator(rd)) {
         /* Illustration of supported and unsupported cases:
          *
          * - Allowed #1
          *
          *                          +-----------------------------------+
          *                          |               frag                |
          *                          +-----------------------------------+
          *
          *             end end+desired
          *              |       |
          *        +-----v-------v-------------+
          *        |          acc              |
          *        +---------------------------+
          *                          |         |
          *                     frag_offset  acc_available
          *
          * - Allowed #2
          *
          *                          +-----------------------------------+
          *                          |               frag                |
          *                          +-----------------------------------+
          *
          *                  end          end+desired
          *                   |                |
          *        +----------v----------------v
          *        |          acc              |
          *        +---------------------------+
          *                          |         |
          *                   frag_offset acc_available
          *
          * - Not allowed #1 (could be served, but we don't actually use it):
          *
          *                      +-----------------------------------+
          *                      |               frag                |
          *                      +-----------------------------------+
          *
          *              end        end+desired
          *               |             |
          *        +------v-------------v------+
          *        |          acc              |
          *        +---------------------------+
          *                      |             |
          *                frag_offset   acc_available
          *
          *
          * - Not allowed #2 (can't be served with a contiguous buffer):
          *
          *                      +-----------------------------------+
          *                      |               frag                |
          *                      +-----------------------------------+
          *
          *              end                 end + desired
          *               |                        |
          *        +------v--------------------+   v
          *        |            acc            |
          *        +---------------------------+
          *                      |             |
          *                frag_offset   acc_available
          *
          * In case of Allowed #2 we're switching to serve from
          * `frag` starting from the next call to mbedtls_mps_reader_get().
          */

         unsigned char *acc;

         MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
                           "Serve the request from the accumulator");
         if (frag_offset - end < desired) {
             mbedtls_mps_size_t acc_available;
             acc_available = rd->acc_available;
             if (acc_available - end != desired) {
                 /* It might be possible to serve some of these situations by
                  * making additional space in the accumulator, removing those
                  * parts that have already been committed.
                  * On the other hand, this brings additional complexity and
                  * enlarges the code size, while there doesn't seem to be a use
                  * case where we don't attempt exactly the same `get` calls when
                  * resuming on a reader than what we tried before pausing it.
                  * If we believe we adhere to this restricted usage throughout
                  * the library, this check is a good opportunity to
                  * validate this. */
                 MBEDTLS_MPS_TRACE_RETURN(
                     MBEDTLS_ERR_MPS_READER_INCONSISTENT_REQUESTS);
             }
         }

         acc = rd->acc;
         acc += end;

         *buffer = acc;
         if (buflen != NULL) {
             *buflen = desired;
         }

         end += desired;
         rd->end = end;
         rd->pending = 0;

         MBEDTLS_MPS_TRACE_RETURN(0);
     }

     /* Attempt to serve the request from the current fragment */
     MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
                       "Serve the request from the current fragment.");

     frag_len = rd->frag_len;
     frag_fetched = end - frag_offset; /* The amount of data from the current
                                        * fragment that has already been passed
                                        * to the user. */
     frag_remaining = frag_len - frag_fetched; /* Remaining data in fragment */

     /* Check if we can serve the read request from the fragment. */
     if (frag_remaining < desired) {
         MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
                           "There's not enough data in the current fragment "
                           "to serve the request.");
         /* There's not enough data in the current fragment,
          * so either just RETURN what we have or fail. */
         if (buflen == NULL) {
             if (frag_remaining > 0) {
                 rd->pending = desired - frag_remaining;
                 MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
                                   "Remember to collect %u bytes before re-opening",
                                   (unsigned) rd->pending);
             }
             MBEDTLS_MPS_TRACE_RETURN(MBEDTLS_ERR_MPS_READER_OUT_OF_DATA);
         }

         desired = frag_remaining;
     }

     /* There's enough data in the current fragment to serve the
      * (potentially modified) read request. */

     frag = rd->frag;
     frag += frag_fetched;

     *buffer = frag;
     if (buflen != NULL) {
         *buflen = desired;
     }

     end += desired;
     rd->end = end;
     rd->pending = 0;
     MBEDTLS_MPS_TRACE_RETURN(0);
 }

 int mbedtls_mps_reader_commit(mbedtls_mps_reader *rd)
 {
     mbedtls_mps_size_t end;
     MBEDTLS_MPS_TRACE_INIT("mbedtls_mps_reader_commit");
     MBEDTLS_MPS_STATE_VALIDATE_RAW(mps_reader_is_consuming(
                                        rd),
                                    "mbedtls_mps_reader_commit() requires reader to be in consuming mode");

     end = rd->end;
     rd->commit = end;

     MBEDTLS_MPS_TRACE_RETURN(0);
 }

 int mbedtls_mps_reader_reclaim(mbedtls_mps_reader *rd,
                                int *paused)
 {
     unsigned char *frag, *acc;
     mbedtls_mps_size_t pending, commit;
     mbedtls_mps_size_t acc_len, frag_offset, frag_len;
     MBEDTLS_MPS_TRACE_INIT("mbedtls_mps_reader_reclaim");

     if (paused != NULL) {
         *paused = 0;
     }

     MBEDTLS_MPS_STATE_VALIDATE_RAW(mps_reader_is_consuming(
                                        rd),
                                    "mbedtls_mps_reader_reclaim() requires reader to be in consuming mode");

     frag     = rd->frag;
     acc      = rd->acc;
     pending  = rd->pending;
     commit   = rd->commit;
     frag_len = rd->frag_len;

     frag_offset = mps_reader_get_fragment_offset(rd);

     if (pending == 0) {
         MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
                           "No unsatisfied read-request has been logged.");

         /* Check if there's data left to be consumed. */
         if (commit < frag_offset || commit - frag_offset < frag_len) {
             MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
                               "There is data left to be consumed.");
             rd->end = commit;
             MBEDTLS_MPS_TRACE_RETURN(MBEDTLS_ERR_MPS_READER_DATA_LEFT);
         }

         rd->acc_available = 0;
         rd->acc_share.acc_remaining = 0;

         MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
                           "Fragment has been fully processed and committed.");
     } else {
         int overflow;

         mbedtls_mps_size_t acc_backup_offset;
         mbedtls_mps_size_t acc_backup_len;
         mbedtls_mps_size_t frag_backup_offset;
         mbedtls_mps_size_t frag_backup_len;

         mbedtls_mps_size_t backup_len;
         mbedtls_mps_size_t acc_len_needed;

         MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
                           "There has been an unsatisfied read with %u bytes overhead.",
                           (unsigned) pending);

         if (acc == NULL) {
             MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
                               "No accumulator present");
             MBEDTLS_MPS_TRACE_RETURN(
                 MBEDTLS_ERR_MPS_READER_NEED_ACCUMULATOR);
         }
         acc_len = rd->acc_len;

         /* Check if the upper layer has already fetched
          * and committed the contents of the accumulator. */
         if (commit < frag_offset) {
             /* No, accumulator is still being processed. */
             frag_backup_offset = 0;
             frag_backup_len = frag_len;
             acc_backup_offset = commit;
             acc_backup_len = frag_offset - commit;
         } else {
             /* Yes, the accumulator is already processed. */
             frag_backup_offset = commit - frag_offset;
             frag_backup_len = frag_len - frag_backup_offset;
             acc_backup_offset = 0;
             acc_backup_len = 0;
         }

         backup_len = acc_backup_len + frag_backup_len;
         acc_len_needed = backup_len + pending;

         overflow  = 0;
         overflow |= (backup_len     < acc_backup_len);
         overflow |= (acc_len_needed < backup_len);

         if (overflow || acc_len < acc_len_needed) {
             /* Except for the different return code, we behave as if
              * there hadn't been a call to mbedtls_mps_reader_get()
              * since the last commit. */
             rd->end = commit;
             rd->pending = 0;
             MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_ERROR,
                               "The accumulator is too small to handle the backup.");
             MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_ERROR,
                               "* Size: %u", (unsigned) acc_len);
             MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_ERROR,
                               "* Needed: %u (%u + %u)",
                               (unsigned) acc_len_needed,
                               (unsigned) backup_len, (unsigned) pending);
             MBEDTLS_MPS_TRACE_RETURN(
                 MBEDTLS_ERR_MPS_READER_ACCUMULATOR_TOO_SMALL);
         }

         MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
                           "Fragment backup: %u", (unsigned) frag_backup_len);
         MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
                           "Accumulator backup: %u", (unsigned) acc_backup_len);

         /* Move uncommitted parts from the accumulator to the front
          * of the accumulator. */
         memmove(acc, acc + acc_backup_offset, acc_backup_len);

         /* Copy uncommitted parts of the current fragment to the
          * accumulator. */
         memcpy(acc + acc_backup_len,
                frag + frag_backup_offset, frag_backup_len);

         rd->acc_available = backup_len;
         rd->acc_share.acc_remaining = pending;

         if (paused != NULL) {
             *paused = 1;
         }
     }

     rd->frag     = NULL;
     rd->frag_len = 0;

     rd->commit  = 0;
     rd->end     = 0;
     rd->pending = 0;

     MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
                       "Final state: aa %u, al %u, ar %u",
                       (unsigned) rd->acc_available, (unsigned) rd->acc_len,
                       (unsigned) rd->acc_share.acc_remaining);
     MBEDTLS_MPS_TRACE_RETURN(0);
 }

 #endif /* MBEDTLS_SSL_PROTO_TLS1_3 */
	/*
	* Message Processing Stack, Reader implementation
	*
	* Copyright The Mbed TLS Contributors
	* SPDX-License-Identifier: Apache-2.0 OR GPL-2.0-or-later
	*/

	#include "common.h"

	#if defined(MBEDTLS_SSL_PROTO_TLS1_3)

	#include "mps_reader.h"
	#include "mps_common.h"
	#include "mps_trace.h"

	#include <string.h>

	#if defined(MBEDTLS_MPS_ENABLE_TRACE)
	static int mbedtls_mps_trace_id = MBEDTLS_MPS_TRACE_BIT_READER;
	#endif /* MBEDTLS_MPS_ENABLE_TRACE */

	/*
	* GENERAL NOTE ON CODING STYLE
	*
	* The following code intentionally separates memory loads
	* and stores from other operations (arithmetic or branches).
	* This leads to the introduction of many local variables
	* and significantly increases the C-code line count, but
	* should not increase the size of generated assembly.
	*
	* The reason for this is twofold:
	* (1) It will ease verification efforts using the VST
	* (Verified Software Toolchain)
	* whose program logic cannot directly reason
	* about instructions containing a load or store in
	* addition to other operations (e.g. p = q or
	* tmp = *p + 42).
	* (2) Operating on local variables and writing the results
	* back to the target contexts on success only
	* allows to maintain structure invariants even
	* on failure - this in turn has two benefits:
	* (2.a) If for some reason an error code is not caught
	* and operation continues, functions are nonetheless
	* called with sane contexts, reducing the risk
	* of dangerous behavior.
	* (2.b) Randomized testing is easier if structures
	* remain intact even in the face of failing
	* and/or non-sensical calls.
	* Moreover, it might even reduce code-size because
	* the compiler need not write back temporary results
	* to memory in case of failure.
	*
	*/

	static inline int mps_reader_is_accumulating(
	mbedtls_mps_reader const *rd)
	{
	mbedtls_mps_size_t acc_remaining;
	if (rd->acc == NULL) {
	return 0;
	}

	acc_remaining = rd->acc_share.acc_remaining;
	return acc_remaining > 0;
	}

	static inline int mps_reader_is_producing(
	mbedtls_mps_reader const *rd)
	{
	unsigned char *frag = rd->frag;
	return frag == NULL;
	}

	static inline int mps_reader_is_consuming(
	mbedtls_mps_reader const *rd)
	{
	return !mps_reader_is_producing(rd);
	}

	static inline mbedtls_mps_size_t mps_reader_get_fragment_offset(
	mbedtls_mps_reader const *rd)
	{
	unsigned char *acc = rd->acc;
	mbedtls_mps_size_t frag_offset;

	if (acc == NULL) {
	return 0;
	}

	frag_offset = rd->acc_share.frag_offset;
	return frag_offset;
	}

	static inline mbedtls_mps_size_t mps_reader_serving_from_accumulator(
	mbedtls_mps_reader const *rd)
	{
	mbedtls_mps_size_t frag_offset, end;

	frag_offset = mps_reader_get_fragment_offset(rd);
	end = rd->end;

	return end < frag_offset;
	}

	static inline void mps_reader_zero(mbedtls_mps_reader *rd)
	{
	/* A plain memset() would likely be more efficient,
	* but the current way of zeroing makes it harder
	* to overlook fields which should not be zero-initialized.
	* It's also more suitable for FV efforts since it
	* doesn't require reasoning about structs being
	* interpreted as unstructured binary blobs. */
	static mbedtls_mps_reader const zero =
	{ .frag = NULL,
	.frag_len = 0,
	.commit = 0,
	.end = 0,
	.pending = 0,
	.acc = NULL,
	.acc_len = 0,
	.acc_available = 0,
	.acc_share = { .acc_remaining = 0 } };
	*rd = zero;
	}

	int mbedtls_mps_reader_init(mbedtls_mps_reader *rd,
	unsigned char *acc,
	mbedtls_mps_size_t acc_len)
	{
	MBEDTLS_MPS_TRACE_INIT("mbedtls_mps_reader_init");
	MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
	"* Accumulator size: %u bytes", (unsigned) acc_len);
	mps_reader_zero(rd);
	rd->acc = acc;
	rd->acc_len = acc_len;
	MBEDTLS_MPS_TRACE_RETURN(0);
	}

	int mbedtls_mps_reader_free(mbedtls_mps_reader *rd)
	{
	MBEDTLS_MPS_TRACE_INIT("mbedtls_mps_reader_free");
	mps_reader_zero(rd);
	MBEDTLS_MPS_TRACE_RETURN(0);
	}

	int mbedtls_mps_reader_feed(mbedtls_mps_reader *rd,
	unsigned char *new_frag,
	mbedtls_mps_size_t new_frag_len)
	{
	mbedtls_mps_size_t copy_to_acc;
	MBEDTLS_MPS_TRACE_INIT("mbedtls_mps_reader_feed");
	MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
	"* Fragment length: %u bytes", (unsigned) new_frag_len);

	if (new_frag == NULL) {
	MBEDTLS_MPS_TRACE_RETURN(MBEDTLS_ERR_MPS_READER_INVALID_ARG);
	}

	MBEDTLS_MPS_STATE_VALIDATE_RAW(mps_reader_is_producing(
	rd),
	"mbedtls_mps_reader_feed() requires reader to be in producing mode");

	if (mps_reader_is_accumulating(rd)) {
	unsigned char *acc = rd->acc;
	mbedtls_mps_size_t acc_remaining = rd->acc_share.acc_remaining;
	mbedtls_mps_size_t acc_available = rd->acc_available;

	/* Skip over parts of the accumulator that have already been filled. */
	acc += acc_available;

	copy_to_acc = acc_remaining;
	if (copy_to_acc > new_frag_len) {
	copy_to_acc = new_frag_len;
	}

	/* Copy new contents to accumulator. */
	memcpy(acc, new_frag, copy_to_acc);

	MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
	"Copy new data of size %u of %u into accumulator at offset %u",
	(unsigned) copy_to_acc, (unsigned) new_frag_len,
	(unsigned) acc_available);

	/* Check if, with the new fragment, we have enough data. */
	acc_remaining -= copy_to_acc;
	if (acc_remaining > 0) {
	/* We need to accumulate more data. Stay in producing mode. */
	acc_available += copy_to_acc;
	rd->acc_share.acc_remaining = acc_remaining;
	rd->acc_available = acc_available;
	MBEDTLS_MPS_TRACE_RETURN(MBEDTLS_ERR_MPS_READER_NEED_MORE);
	}

	/* We have filled the accumulator: Move to consuming mode. */

	MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
	"Enough data available to serve user request");

	/* Remember overlap of accumulator and fragment. */
	rd->acc_share.frag_offset = acc_available;
	acc_available += copy_to_acc;
	rd->acc_available = acc_available;
	} else { /* Not accumulating */
	rd->acc_share.frag_offset = 0;
	}

	rd->frag = new_frag;
	rd->frag_len = new_frag_len;
	rd->commit = 0;
	rd->end = 0;
	MBEDTLS_MPS_TRACE_RETURN(0);
	}


	int mbedtls_mps_reader_get(mbedtls_mps_reader *rd,
	mbedtls_mps_size_t desired,
	unsigned char **buffer,
	mbedtls_mps_size_t *buflen)
	{
	unsigned char *frag;
	mbedtls_mps_size_t frag_len, frag_offset, end, frag_fetched, frag_remaining;
	MBEDTLS_MPS_TRACE_INIT("mbedtls_mps_reader_get");
	MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
	"* Bytes requested: %u", (unsigned) desired);

	MBEDTLS_MPS_STATE_VALIDATE_RAW(mps_reader_is_consuming(
	rd),
	"mbedtls_mps_reader_get() requires reader to be in consuming mode");

	end = rd->end;
	frag_offset = mps_reader_get_fragment_offset(rd);

	/* Check if we're still serving from the accumulator. */
	if (mps_reader_serving_from_accumulator(rd)) {
	/* Illustration of supported and unsupported cases:
	*
	* - Allowed #1
	*
	* +-----------------------------------+
	* \| frag \|
	* +-----------------------------------+
	*
	* end end+desired
	* \| \|
	* +-----v-------v-------------+
	* \| acc \|
	* +---------------------------+
	* \| \|
	* frag_offset acc_available
	*
	* - Allowed #2
	*
	* +-----------------------------------+
	* \| frag \|
	* +-----------------------------------+
	*
	* end end+desired
	* \| \|
	* +----------v----------------v
	* \| acc \|
	* +---------------------------+
	* \| \|
	* frag_offset acc_available
	*
	* - Not allowed #1 (could be served, but we don't actually use it):
	*
	* +-----------------------------------+
	* \| frag \|
	* +-----------------------------------+
	*
	* end end+desired
	* \| \|
	* +------v-------------v------+
	* \| acc \|
	* +---------------------------+
	* \| \|
	* frag_offset acc_available
	*
	*
	* - Not allowed #2 (can't be served with a contiguous buffer):
	*
	* +-----------------------------------+
	* \| frag \|
	* +-----------------------------------+
	*
	* end end + desired
	* \| \|
	* +------v--------------------+ v
	* \| acc \|
	* +---------------------------+
	* \| \|
	* frag_offset acc_available
	*
	* In case of Allowed #2 we're switching to serve from
	* `frag` starting from the next call to mbedtls_mps_reader_get().
	*/

	unsigned char *acc;

	MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
	"Serve the request from the accumulator");
	if (frag_offset - end < desired) {
	mbedtls_mps_size_t acc_available;
	acc_available = rd->acc_available;
	if (acc_available - end != desired) {
	/* It might be possible to serve some of these situations by
	* making additional space in the accumulator, removing those
	* parts that have already been committed.
	* On the other hand, this brings additional complexity and
	* enlarges the code size, while there doesn't seem to be a use
	* case where we don't attempt exactly the same `get` calls when
	* resuming on a reader than what we tried before pausing it.
	* If we believe we adhere to this restricted usage throughout
	* the library, this check is a good opportunity to
	* validate this. */
	MBEDTLS_MPS_TRACE_RETURN(
	MBEDTLS_ERR_MPS_READER_INCONSISTENT_REQUESTS);
	}
	}

	acc = rd->acc;
	acc += end;

	*buffer = acc;
	if (buflen != NULL) {
	*buflen = desired;
	}

	end += desired;
	rd->end = end;
	rd->pending = 0;

	MBEDTLS_MPS_TRACE_RETURN(0);
	}

	/* Attempt to serve the request from the current fragment */
	MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
	"Serve the request from the current fragment.");

	frag_len = rd->frag_len;
	frag_fetched = end - frag_offset; /* The amount of data from the current
	* fragment that has already been passed
	* to the user. */
	frag_remaining = frag_len - frag_fetched; /* Remaining data in fragment */

	/* Check if we can serve the read request from the fragment. */
	if (frag_remaining < desired) {
	MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
	"There's not enough data in the current fragment "
	"to serve the request.");
	/* There's not enough data in the current fragment,
	* so either just RETURN what we have or fail. */
	if (buflen == NULL) {
	if (frag_remaining > 0) {
	rd->pending = desired - frag_remaining;
	MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
	"Remember to collect %u bytes before re-opening",
	(unsigned) rd->pending);
	}
	MBEDTLS_MPS_TRACE_RETURN(MBEDTLS_ERR_MPS_READER_OUT_OF_DATA);
	}

	desired = frag_remaining;
	}

	/* There's enough data in the current fragment to serve the
	* (potentially modified) read request. */

	frag = rd->frag;
	frag += frag_fetched;

	*buffer = frag;
	if (buflen != NULL) {
	*buflen = desired;
	}

	end += desired;
	rd->end = end;
	rd->pending = 0;
	MBEDTLS_MPS_TRACE_RETURN(0);
	}

	int mbedtls_mps_reader_commit(mbedtls_mps_reader *rd)
	{
	mbedtls_mps_size_t end;
	MBEDTLS_MPS_TRACE_INIT("mbedtls_mps_reader_commit");
	MBEDTLS_MPS_STATE_VALIDATE_RAW(mps_reader_is_consuming(
	rd),
	"mbedtls_mps_reader_commit() requires reader to be in consuming mode");

	end = rd->end;
	rd->commit = end;

	MBEDTLS_MPS_TRACE_RETURN(0);
	}

	int mbedtls_mps_reader_reclaim(mbedtls_mps_reader *rd,
	int *paused)
	{
	unsigned char frag, acc;
	mbedtls_mps_size_t pending, commit;
	mbedtls_mps_size_t acc_len, frag_offset, frag_len;
	MBEDTLS_MPS_TRACE_INIT("mbedtls_mps_reader_reclaim");

	if (paused != NULL) {
	*paused = 0;
	}

	MBEDTLS_MPS_STATE_VALIDATE_RAW(mps_reader_is_consuming(
	rd),
	"mbedtls_mps_reader_reclaim() requires reader to be in consuming mode");

	frag = rd->frag;
	acc = rd->acc;
	pending = rd->pending;
	commit = rd->commit;
	frag_len = rd->frag_len;

	frag_offset = mps_reader_get_fragment_offset(rd);

	if (pending == 0) {
	MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
	"No unsatisfied read-request has been logged.");

	/* Check if there's data left to be consumed. */
	if (commit < frag_offset \|\| commit - frag_offset < frag_len) {
	MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
	"There is data left to be consumed.");
	rd->end = commit;
	MBEDTLS_MPS_TRACE_RETURN(MBEDTLS_ERR_MPS_READER_DATA_LEFT);
	}

	rd->acc_available = 0;
	rd->acc_share.acc_remaining = 0;

	MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
	"Fragment has been fully processed and committed.");
	} else {
	int overflow;

	mbedtls_mps_size_t acc_backup_offset;
	mbedtls_mps_size_t acc_backup_len;
	mbedtls_mps_size_t frag_backup_offset;
	mbedtls_mps_size_t frag_backup_len;

	mbedtls_mps_size_t backup_len;
	mbedtls_mps_size_t acc_len_needed;

	MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
	"There has been an unsatisfied read with %u bytes overhead.",
	(unsigned) pending);

	if (acc == NULL) {
	MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
	"No accumulator present");
	MBEDTLS_MPS_TRACE_RETURN(
	MBEDTLS_ERR_MPS_READER_NEED_ACCUMULATOR);
	}
	acc_len = rd->acc_len;

	/* Check if the upper layer has already fetched
	* and committed the contents of the accumulator. */
	if (commit < frag_offset) {
	/* No, accumulator is still being processed. */
	frag_backup_offset = 0;
	frag_backup_len = frag_len;
	acc_backup_offset = commit;
	acc_backup_len = frag_offset - commit;
	} else {
	/* Yes, the accumulator is already processed. */
	frag_backup_offset = commit - frag_offset;
	frag_backup_len = frag_len - frag_backup_offset;
	acc_backup_offset = 0;
	acc_backup_len = 0;
	}

	backup_len = acc_backup_len + frag_backup_len;
	acc_len_needed = backup_len + pending;

	overflow = 0;
	overflow \|= (backup_len < acc_backup_len);
	overflow \|= (acc_len_needed < backup_len);

	if (overflow \|\| acc_len < acc_len_needed) {
	/* Except for the different return code, we behave as if
	* there hadn't been a call to mbedtls_mps_reader_get()
	* since the last commit. */
	rd->end = commit;
	rd->pending = 0;
	MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_ERROR,
	"The accumulator is too small to handle the backup.");
	MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_ERROR,
	"* Size: %u", (unsigned) acc_len);
	MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_ERROR,
	"* Needed: %u (%u + %u)",
	(unsigned) acc_len_needed,
	(unsigned) backup_len, (unsigned) pending);
	MBEDTLS_MPS_TRACE_RETURN(
	MBEDTLS_ERR_MPS_READER_ACCUMULATOR_TOO_SMALL);
	}

	MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
	"Fragment backup: %u", (unsigned) frag_backup_len);
	MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
	"Accumulator backup: %u", (unsigned) acc_backup_len);

	/* Move uncommitted parts from the accumulator to the front
	* of the accumulator. */
	memmove(acc, acc + acc_backup_offset, acc_backup_len);

	/* Copy uncommitted parts of the current fragment to the
	* accumulator. */
	memcpy(acc + acc_backup_len,
	frag + frag_backup_offset, frag_backup_len);

	rd->acc_available = backup_len;
	rd->acc_share.acc_remaining = pending;

	if (paused != NULL) {
	*paused = 1;
	}
	}

	rd->frag = NULL;
	rd->frag_len = 0;

	rd->commit = 0;
	rd->end = 0;
	rd->pending = 0;

	MBEDTLS_MPS_TRACE(MBEDTLS_MPS_TRACE_TYPE_COMMENT,
	"Final state: aa %u, al %u, ar %u",
	(unsigned) rd->acc_available, (unsigned) rd->acc_len,
	(unsigned) rd->acc_share.acc_remaining);
	MBEDTLS_MPS_TRACE_RETURN(0);
	}

	#endif /* MBEDTLS_SSL_PROTO_TLS1_3 */