storage/mozStorageSQLFunctions.cpp
author Jim Blandy <jimb@mozilla.com>
Tue, 12 Feb 2019 08:16:16 +0000
changeset 458932 414b2c238839c321dee78a9d927c968f1e52ae79
parent 457637 466f9c24e749d7b3701b60c5ed424e586634a718
child 468132 7e3dcd57fe92e483bf5bcd063a9b93a6fcdb93f1
permissions -rw-r--r--
Bug 1145201: Replace EnqueuePromiseJobCallback and GetIncumbentGlobalCallback with new JobQueue abstract base class. r=arai,smaug While the behavior of ECMAScript Promises and their associated job queue is covered by the ECMAScript standard, the HTML specification amends that with additional behavior the web platform requires. To support this, SpiderMonkey provides hooks the embedding can set to replace SpiderMonkey's queue with its own implementation. At present, these hooks are C-style function-pointer-and-void-pointer pairs, which are awkward to handle and mistake-prone, as passing a function the wrong void* is not a type error. Later patches in this series must add new hooks, making a bad situation worse. A C++ abstract base class is a well-typed alternative. This introduces a new `JS::JobQueue` abstract class, and adapts SpiderMonkey's internal job queue and Gecko's customization to use it. `GetIncumbentGlobalCallback` and `EnqueuePromiseJobCallback` become virtual methods. Within SpiderMonkey, the patch gathers the various fields of JSContext that implement the internal queue into their own type, js::InternalJobQueue. Various jsfriendapi functions become veneers for calls to methods specific to the derived class. The InternalJobQueue type itself remains private to SpiderMonkey, as it uses types like TraceableFifo, derived from Fifo, that are not part of SpiderMonkey's public API. Within Gecko, CycleCollectedJSContext acquires JS::JobQueue as a private base class, and a few static methods are cleaned up nicely. There are a few other hooks defined in js/public/Promise.h that might make sense to turn into virtual methods on JobQueue. For example, DispatchToEventLoopCallback, used for resolving promises of results from off-main-thread tasks, is probably necessarily connected to the JobQueue implementation in use, so it might not be sensible to set one without the other. But it was left unchanged to reduce this patch's size. Differential Revision: https://phabricator.services.mozilla.com/D17544

/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*-
 * vim: sw=2 ts=2 et lcs=trail\:.,tab\:>~ :
 * This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

#include "mozilla/ArrayUtils.h"

#include "mozStorageSQLFunctions.h"
#include "nsTArray.h"
#include "nsUnicharUtils.h"
#include <algorithm>

namespace mozilla {
namespace storage {

////////////////////////////////////////////////////////////////////////////////
//// Local Helper Functions

namespace {

/**
 * Performs the LIKE comparison of a string against a pattern.  For more detail
 * see http://www.sqlite.org/lang_expr.html#like.
 *
 * @param aPatternItr
 *        An iterator at the start of the pattern to check for.
 * @param aPatternEnd
 *        An iterator at the end of the pattern to check for.
 * @param aStringItr
 *        An iterator at the start of the string to check for the pattern.
 * @param aStringEnd
 *        An iterator at the end of the string to check for the pattern.
 * @param aEscapeChar
 *        The character to use for escaping symbols in the pattern.
 * @return 1 if the pattern is found, 0 otherwise.
 */
int likeCompare(nsAString::const_iterator aPatternItr,
                nsAString::const_iterator aPatternEnd,
                nsAString::const_iterator aStringItr,
                nsAString::const_iterator aStringEnd, char16_t aEscapeChar) {
  const char16_t MATCH_ALL('%');
  const char16_t MATCH_ONE('_');

  bool lastWasEscape = false;
  while (aPatternItr != aPatternEnd) {
    /**
     * What we do in here is take a look at each character from the input
     * pattern, and do something with it.  There are 4 possibilities:
     * 1) character is an un-escaped match-all character
     * 2) character is an un-escaped match-one character
     * 3) character is an un-escaped escape character
     * 4) character is not any of the above
     */
    if (!lastWasEscape && *aPatternItr == MATCH_ALL) {
      // CASE 1
      /**
       * Now we need to skip any MATCH_ALL or MATCH_ONE characters that follow a
       * MATCH_ALL character.  For each MATCH_ONE character, skip one character
       * in the pattern string.
       */
      while (*aPatternItr == MATCH_ALL || *aPatternItr == MATCH_ONE) {
        if (*aPatternItr == MATCH_ONE) {
          // If we've hit the end of the string we are testing, no match
          if (aStringItr == aStringEnd) return 0;
          aStringItr++;
        }
        aPatternItr++;
      }

      // If we've hit the end of the pattern string, match
      if (aPatternItr == aPatternEnd) return 1;

      while (aStringItr != aStringEnd) {
        if (likeCompare(aPatternItr, aPatternEnd, aStringItr, aStringEnd,
                        aEscapeChar)) {
          // we've hit a match, so indicate this
          return 1;
        }
        aStringItr++;
      }

      // No match
      return 0;
    } else if (!lastWasEscape && *aPatternItr == MATCH_ONE) {
      // CASE 2
      if (aStringItr == aStringEnd) {
        // If we've hit the end of the string we are testing, no match
        return 0;
      }
      aStringItr++;
      lastWasEscape = false;
    } else if (!lastWasEscape && *aPatternItr == aEscapeChar) {
      // CASE 3
      lastWasEscape = true;
    } else {
      // CASE 4
      if (::ToUpperCase(*aStringItr) != ::ToUpperCase(*aPatternItr)) {
        // If we've hit a point where the strings don't match, there is no match
        return 0;
      }
      aStringItr++;
      lastWasEscape = false;
    }

    aPatternItr++;
  }

  return aStringItr == aStringEnd;
}

/**
 * Compute the Levenshtein Edit Distance between two strings.
 *
 * @param aStringS
 *        a string
 * @param aStringT
 *        another string
 * @param _result
 *        an outparam that will receive the edit distance between the arguments
 * @return a Sqlite result code, e.g. SQLITE_OK, SQLITE_NOMEM, etc.
 */
int levenshteinDistance(const nsAString &aStringS, const nsAString &aStringT,
                        int *_result) {
  // Set the result to a non-sensical value in case we encounter an error.
  *_result = -1;

  const uint32_t sLen = aStringS.Length();
  const uint32_t tLen = aStringT.Length();

  if (sLen == 0) {
    *_result = tLen;
    return SQLITE_OK;
  }
  if (tLen == 0) {
    *_result = sLen;
    return SQLITE_OK;
  }

  // Notionally, Levenshtein Distance is computed in a matrix.  If we
  // assume s = "span" and t = "spam", the matrix would look like this:
  //    s -->
  //  t          s   p   a   n
  //  |      0   1   2   3   4
  //  V  s   1   *   *   *   *
  //     p   2   *   *   *   *
  //     a   3   *   *   *   *
  //     m   4   *   *   *   *
  //
  // Note that the row width is sLen + 1 and the column height is tLen + 1,
  // where sLen is the length of the string "s" and tLen is the length of "t".
  // The first row and the first column are initialized as shown, and
  // the algorithm computes the remaining cells row-by-row, and
  // left-to-right within each row.  The computation only requires that
  // we be able to see the current row and the previous one.

  // Allocate memory for two rows.
  AutoTArray<int, nsAutoString::kStorageSize> row1;
  AutoTArray<int, nsAutoString::kStorageSize> row2;

  // Declare the raw pointers that will actually be used to access the memory.
  int *prevRow = row1.AppendElements(sLen + 1);
  int *currRow = row2.AppendElements(sLen + 1);

  // Initialize the first row.
  for (uint32_t i = 0; i <= sLen; i++) prevRow[i] = i;

  const char16_t *s = aStringS.BeginReading();
  const char16_t *t = aStringT.BeginReading();

  // Compute the empty cells in the "matrix" row-by-row, starting with
  // the second row.
  for (uint32_t ti = 1; ti <= tLen; ti++) {
    // Initialize the first cell in this row.
    currRow[0] = ti;

    // Get the character from "t" that corresponds to this row.
    const char16_t tch = t[ti - 1];

    // Compute the remaining cells in this row, left-to-right,
    // starting at the second column (and first character of "s").
    for (uint32_t si = 1; si <= sLen; si++) {
      // Get the character from "s" that corresponds to this column,
      // compare it to the t-character, and compute the "cost".
      const char16_t sch = s[si - 1];
      int cost = (sch == tch) ? 0 : 1;

      // ............ We want to calculate the value of cell "d" from
      // ...ab....... the previously calculated (or initialized) cells
      // ...cd....... "a", "b", and "c", where d = min(a', b', c').
      // ............
      int aPrime = prevRow[si - 1] + cost;
      int bPrime = prevRow[si] + 1;
      int cPrime = currRow[si - 1] + 1;
      currRow[si] = std::min(aPrime, std::min(bPrime, cPrime));
    }

    // Advance to the next row.  The current row becomes the previous
    // row and we recycle the old previous row as the new current row.
    // We don't need to re-initialize the new current row since we will
    // rewrite all of its cells anyway.
    int *oldPrevRow = prevRow;
    prevRow = currRow;
    currRow = oldPrevRow;
  }

  // The final result is the value of the last cell in the last row.
  // Note that that's now in the "previous" row, since we just swapped them.
  *_result = prevRow[sLen];
  return SQLITE_OK;
}

// This struct is used only by registerFunctions below, but ISO C++98 forbids
// instantiating a template dependent on a locally-defined type.  Boo-urns!
struct Functions {
  const char *zName;
  int nArg;
  int enc;
  void *pContext;
  void (*xFunc)(::sqlite3_context *, int, sqlite3_value **);
};

}  // namespace

////////////////////////////////////////////////////////////////////////////////
//// Exposed Functions

int registerFunctions(sqlite3 *aDB) {
  Functions functions[] = {
      {"lower", 1, SQLITE_UTF16, 0, caseFunction},
      {"lower", 1, SQLITE_UTF8, 0, caseFunction},
      {"upper", 1, SQLITE_UTF16, (void *)1, caseFunction},
      {"upper", 1, SQLITE_UTF8, (void *)1, caseFunction},

      {"like", 2, SQLITE_UTF16, 0, likeFunction},
      {"like", 2, SQLITE_UTF8, 0, likeFunction},
      {"like", 3, SQLITE_UTF16, 0, likeFunction},
      {"like", 3, SQLITE_UTF8, 0, likeFunction},

      {"levenshteinDistance", 2, SQLITE_UTF16, 0, levenshteinDistanceFunction},
      {"levenshteinDistance", 2, SQLITE_UTF8, 0, levenshteinDistanceFunction},

      {"utf16Length", 1, SQLITE_UTF16, 0, utf16LengthFunction},
      {"utf16Length", 1, SQLITE_UTF8, 0, utf16LengthFunction},
  };

  int rv = SQLITE_OK;
  for (size_t i = 0; SQLITE_OK == rv && i < ArrayLength(functions); ++i) {
    struct Functions *p = &functions[i];
    rv = ::sqlite3_create_function(aDB, p->zName, p->nArg, p->enc, p->pContext,
                                   p->xFunc, nullptr, nullptr);
  }

  return rv;
}

////////////////////////////////////////////////////////////////////////////////
//// SQL Functions

void caseFunction(sqlite3_context *aCtx, int aArgc, sqlite3_value **aArgv) {
  NS_ASSERTION(1 == aArgc, "Invalid number of arguments!");

  nsAutoString data(
      static_cast<const char16_t *>(::sqlite3_value_text16(aArgv[0])));
  bool toUpper = ::sqlite3_user_data(aCtx) ? true : false;

  if (toUpper)
    ::ToUpperCase(data);
  else
    ::ToLowerCase(data);

  // Set the result.
  ::sqlite3_result_text16(aCtx, data.get(), -1, SQLITE_TRANSIENT);
}

/**
 * This implements the like() SQL function.  This is used by the LIKE operator.
 * The SQL statement 'A LIKE B' is implemented as 'like(B, A)', and if there is
 * an escape character, say E, it is implemented as 'like(B, A, E)'.
 */
void likeFunction(sqlite3_context *aCtx, int aArgc, sqlite3_value **aArgv) {
  NS_ASSERTION(2 == aArgc || 3 == aArgc, "Invalid number of arguments!");

  if (::sqlite3_value_bytes(aArgv[0]) > SQLITE_MAX_LIKE_PATTERN_LENGTH) {
    ::sqlite3_result_error(aCtx, "LIKE or GLOB pattern too complex",
                           SQLITE_TOOBIG);
    return;
  }

  if (!::sqlite3_value_text16(aArgv[0]) || !::sqlite3_value_text16(aArgv[1]))
    return;

  nsDependentString A(
      static_cast<const char16_t *>(::sqlite3_value_text16(aArgv[1])));
  nsDependentString B(
      static_cast<const char16_t *>(::sqlite3_value_text16(aArgv[0])));
  NS_ASSERTION(!B.IsEmpty(), "LIKE string must not be null!");

  char16_t E = 0;
  if (3 == aArgc)
    E = static_cast<const char16_t *>(::sqlite3_value_text16(aArgv[2]))[0];

  nsAString::const_iterator itrString, endString;
  A.BeginReading(itrString);
  A.EndReading(endString);
  nsAString::const_iterator itrPattern, endPattern;
  B.BeginReading(itrPattern);
  B.EndReading(endPattern);
  ::sqlite3_result_int(
      aCtx, likeCompare(itrPattern, endPattern, itrString, endString, E));
}

void levenshteinDistanceFunction(sqlite3_context *aCtx, int aArgc,
                                 sqlite3_value **aArgv) {
  NS_ASSERTION(2 == aArgc, "Invalid number of arguments!");

  // If either argument is a SQL NULL, then return SQL NULL.
  if (::sqlite3_value_type(aArgv[0]) == SQLITE_NULL ||
      ::sqlite3_value_type(aArgv[1]) == SQLITE_NULL) {
    ::sqlite3_result_null(aCtx);
    return;
  }

  int aLen = ::sqlite3_value_bytes16(aArgv[0]) / sizeof(char16_t);
  const char16_t *a =
      static_cast<const char16_t *>(::sqlite3_value_text16(aArgv[0]));

  int bLen = ::sqlite3_value_bytes16(aArgv[1]) / sizeof(char16_t);
  const char16_t *b =
      static_cast<const char16_t *>(::sqlite3_value_text16(aArgv[1]));

  // Compute the Levenshtein Distance, and return the result (or error).
  int distance = -1;
  const nsDependentString A(a, aLen);
  const nsDependentString B(b, bLen);
  int status = levenshteinDistance(A, B, &distance);
  if (status == SQLITE_OK) {
    ::sqlite3_result_int(aCtx, distance);
  } else if (status == SQLITE_NOMEM) {
    ::sqlite3_result_error_nomem(aCtx);
  } else {
    ::sqlite3_result_error(aCtx, "User function returned error code", -1);
  }
}

void utf16LengthFunction(sqlite3_context *aCtx, int aArgc,
                         sqlite3_value **aArgv) {
  NS_ASSERTION(1 == aArgc, "Invalid number of arguments!");

  nsDependentString data(
      static_cast<const char16_t *>(::sqlite3_value_text16(aArgv[0])));

  int len = data.Length();

  // Set the result.
  ::sqlite3_result_int(aCtx, len);
}

}  // namespace storage
}  // namespace mozilla