// Reads over a boundary and sets start to the position after the end of the
// boundary. Returns false if no boundary is found immediately.
bool
PushOverBoundary(const nsACString& aBoundaryString,
nsACString::const_iterator& aStart,
nsACString::const_iterator& aEnd)
{
// We copy the end iterator to keep the original pointing to the real end
// of the string.
nsACString::const_iterator end(aEnd);
const char* beginning = aStart.get();
if (FindInReadable(aBoundaryString, aStart, end)) {
// We either should find the body immediately, or after 2 chars with the
// 2 chars being '-', everything else is failure.
if ((aStart.get() - beginning) == 0) {
aStart.advance(aBoundaryString.Length());
return true;
}
if ((aStart.get() - beginning) == 2) {
if (*(--aStart) == '-' && *(--aStart) == '-') {
aStart.advance(aBoundaryString.Length() + 2);
return true;
}
}
}
return false;
}
/**
* Reads one table of results from the response. Leaves begin pointing at the
* next table.
*/
nsresult
nsUrlClassifierHashCompleterRequest::HandleTable(nsACString::const_iterator& begin,
const nsACString::const_iterator& end)
{
nsACString::const_iterator iter;
iter = begin;
if (!FindCharInReadable(':', iter, end)) {
// No table line.
NS_WARNING("Received badly-formatted gethash response.");
return NS_ERROR_FAILURE;
}
const nsCSubstring& tableName = Substring(begin, iter);
iter++;
begin = iter;
if (!FindCharInReadable('\n', iter, end)) {
// Unterminated header line.
NS_WARNING("Received badly-formatted gethash response.");
return NS_ERROR_FAILURE;
}
const nsCSubstring& remaining = Substring(begin, iter);
iter++;
begin = iter;
PRUint32 chunkId;
PRInt32 size;
if (PR_sscanf(PromiseFlatCString(remaining).get(),
"%u:%d", &chunkId, &size) != 2) {
NS_WARNING("Received badly-formatted gethash response.");
return NS_ERROR_FAILURE;
}
if (size % COMPLETE_LENGTH != 0) {
NS_WARNING("Unexpected gethash response length");
return NS_ERROR_FAILURE;
}
// begin now refers to the hash data.
if (begin.size_forward() < size) {
NS_WARNING("Response does not match the expected response length.");
return NS_ERROR_FAILURE;
}
for (PRInt32 i = 0; i < (size / COMPLETE_LENGTH); i++) {
// Read the complete hash.
iter.advance(COMPLETE_LENGTH);
nsresult rv = HandleItem(Substring(begin, iter), tableName, chunkId);
NS_ENSURE_SUCCESS(rv, rv);
begin = iter;
}
// begin now points at the end of the hash data.
return NS_OK;
}
// static
bool
FetchUtil::ExtractHeader(nsACString::const_iterator& aStart,
nsACString::const_iterator& aEnd,
nsCString& aHeaderName,
nsCString& aHeaderValue,
bool* aWasEmptyHeader)
{
MOZ_ASSERT(aWasEmptyHeader);
// Set it to a valid value here so we don't forget later.
*aWasEmptyHeader = false;
const char* beginning = aStart.get();
nsACString::const_iterator end(aEnd);
if (!FindCRLF(aStart, end)) {
return false;
}
if (aStart.get() == beginning) {
*aWasEmptyHeader = true;
return true;
}
nsAutoCString header(beginning, aStart.get() - beginning);
nsACString::const_iterator headerStart, iter, headerEnd;
header.BeginReading(headerStart);
header.EndReading(headerEnd);
iter = headerStart;
if (!FindCharInReadable(':', iter, headerEnd)) {
return false;
}
aHeaderName.Assign(StringHead(header, iter - headerStart));
aHeaderName.CompressWhitespace();
if (!NS_IsValidHTTPToken(aHeaderName)) {
return false;
}
aHeaderValue.Assign(Substring(++iter, headerEnd));
if (!NS_IsReasonableHTTPHeaderValue(aHeaderValue)) {
return false;
}
aHeaderValue.CompressWhitespace();
return PushOverLine(aStart, aEnd);
}
// Reads over a CRLF and positions start after it.
bool
PushOverLine(nsACString::const_iterator& aStart)
{
if (*aStart == nsCRT::CR && (aStart.size_forward() > 1) && *(++aStart) == nsCRT::LF) {
++aStart; // advance to after CRLF
return true;
}
return false;
}
inline PRBool
nsSMILParserUtils::ParseMetricMultiplicand(nsACString::const_iterator& aSpec,
const nsACString::const_iterator& aEnd,
PRInt32& multiplicand)
{
PRBool result = PR_FALSE;
size_t len = aEnd.get() - aSpec.get();
nsACString::const_iterator spec(aSpec);
if (len) {
switch (*spec++)
{
case 'h':
multiplicand = MSEC_PER_HOUR;
result = PR_TRUE;
break;
case 'm':
if (len >= 2) {
if (*spec == 's') {
++spec;
multiplicand = 1;
result = PR_TRUE;
} else if (len >= 3 && *spec++ == 'i' && *spec++ == 'n') {
multiplicand = MSEC_PER_MIN;
result = PR_TRUE;
}
}
break;
case 's':
multiplicand = MSEC_PER_SEC;
result = PR_TRUE;
break;
}
}
if (result) {
aSpec = spec;
}
return result;
}
inline PRBool
nsSMILParserUtils::ConsumeSubstring(nsACString::const_iterator& aIter,
const nsACString::const_iterator& aIterEnd,
const char *aSubstring)
{
size_t substrLen = PL_strlen(aSubstring);
typedef nsACString::const_iterator::difference_type diff_type;
if (aIterEnd.get() - aIter.get() < static_cast<diff_type>(substrLen))
return PR_FALSE;
PRBool result = PR_FALSE;
if (PL_strstr(aIter.get(), aSubstring) == aIter.get()) {
aIter.advance(substrLen);
result = PR_TRUE;
}
return result;
}
PRBool
nsSMILParserUtils::ParseClockComponent(nsACString::const_iterator& aSpec,
const nsACString::const_iterator& aEnd,
double& aResult,
PRBool& aIsReal,
PRBool& aCouldBeMin,
PRBool& aCouldBeSec)
{
nsresult rv;
char const *begin = aSpec.get();
double value = GetFloat(aSpec, aEnd, &rv);
// Check a number was found
if (NS_FAILED(rv))
return PR_FALSE;
// Check it's not expressed in exponential form
size_t len = aSpec.get() - begin;
PRBool isExp = (PL_strnpbrk(begin, "eE", len) != nsnull);
if (isExp)
return PR_FALSE;
// Don't allow real numbers of the form "23."
if (*(aSpec.get() - 1) == '.')
return PR_FALSE;
// Number looks good
aResult = value;
// Set some flags so we can check this number is valid once we know
// whether it's an hour, minute string etc.
aIsReal = (PL_strnchr(begin, '.', len) != nsnull);
aCouldBeMin = (value < 60.0 && (len == 2));
aCouldBeSec = (value < 60.0 ||
(value == 60.0 && begin[0] == '5')); // Take care of rounding error
aCouldBeSec &= (len >= 2 &&
(begin[2] == '\0' || begin[2] == '.' || IsSpace(begin[2])));
return PR_TRUE;
}
inline double
nsSMILParserUtils::GetFloat(nsACString::const_iterator& aIter,
const nsACString::const_iterator& aIterEnd,
nsresult *aErrorCode)
{
char *end;
const char *start = aIter.get();
double value = PR_strtod(start, &end);
nsresult rv = NS_OK;
if (end == start || end > aIterEnd.get()) {
rv = NS_ERROR_FAILURE;
} else {
aIter.advance(end - start);
}
if (aErrorCode) {
*aErrorCode = rv;
}
return value;
}
bool
FindCharInReadable( char aChar, nsACString::const_iterator& aSearchStart, const nsACString::const_iterator& aSearchEnd )
{
int32_t fragmentLength = aSearchEnd.get() - aSearchStart.get();
const char* charFoundAt = nsCharTraits<char>::find(aSearchStart.get(), fragmentLength, aChar);
if ( charFoundAt ) {
aSearchStart.advance( charFoundAt - aSearchStart.get() );
return true;
}
aSearchStart.advance(fragmentLength);
return false;
}
// The end of a body is marked by a CRLF followed by the boundary. So the
// CRLF is part of the boundary and not the body, but any prior CRLFs are
// part of the body. This will position the iterator at the beginning of the
// boundary (after the CRLF).
bool
ParseBody(const nsACString& aBoundaryString,
nsACString::const_iterator& aStart,
nsACString::const_iterator& aEnd)
{
const char* beginning = aStart.get();
// Find the boundary marking the end of the body.
nsACString::const_iterator end(aEnd);
if (!FindInReadable(aBoundaryString, aStart, end)) {
return false;
}
// We found a boundary, strip the just prior CRLF, and consider
// everything else the body section.
if (aStart.get() - beginning < 2) {
// Only the first entry can have a boundary right at the beginning. Even
// an empty body will have a CRLF before the boundary. So this is
// a failure.
return false;
}
// Check that there is a CRLF right before the boundary.
aStart.advance(-2);
// Skip optional hyphens.
if (*aStart == '-' && *(aStart.get()+1) == '-') {
if (aStart.get() - beginning < 2) {
return false;
}
aStart.advance(-2);
}
if (*aStart != nsCRT::CR || *(aStart.get()+1) != nsCRT::LF) {
return false;
}
nsAutoCString body(beginning, aStart.get() - beginning);
// Restore iterator to after the \r\n as we promised.
// We do not need to handle the extra hyphens case since our boundary
// parser in PushOverBoundary()
aStart.advance(2);
if (!mFormData) {
mFormData = new nsFormData();
}
NS_ConvertUTF8toUTF16 name(mName);
if (mFilename.IsVoid()) {
mFormData->Append(name, NS_ConvertUTF8toUTF16(body));
} else {
// Unfortunately we've to copy the data first since all our strings are
// going to free it. We also need fallible alloc, so we can't just use
// ToNewCString().
char* copy = static_cast<char*>(moz_xmalloc(body.Length()));
if (!copy) {
NS_WARNING("Failed to copy File entry body.");
return false;
}
nsCString::const_iterator bodyIter, bodyEnd;
body.BeginReading(bodyIter);
body.EndReading(bodyEnd);
char *p = copy;
while (bodyIter != bodyEnd) {
*p++ = *bodyIter++;
}
p = nullptr;
nsRefPtr<Blob> file =
File::CreateMemoryFile(mParentObject,
reinterpret_cast<void *>(copy), body.Length(),
NS_ConvertUTF8toUTF16(mFilename),
NS_ConvertUTF8toUTF16(mContentType), /* aLastModifiedDate */ 0);
Optional<nsAString> dummy;
mFormData->Append(name, *file, dummy);
}
return true;
}
bool
ParseHeader(nsACString::const_iterator& aStart,
nsACString::const_iterator& aEnd,
bool* aWasEmptyHeader)
{
MOZ_ASSERT(aWasEmptyHeader);
// Set it to a valid value here so we don't forget later.
*aWasEmptyHeader = false;
const char* beginning = aStart.get();
nsACString::const_iterator end(aEnd);
if (!FindCRLF(aStart, end)) {
return false;
}
if (aStart.get() == beginning) {
*aWasEmptyHeader = true;
return true;
}
nsAutoCString header(beginning, aStart.get() - beginning);
nsACString::const_iterator headerStart, headerEnd;
header.BeginReading(headerStart);
header.EndReading(headerEnd);
if (!FindCharInReadable(':', headerStart, headerEnd)) {
return false;
}
nsAutoCString headerName(StringHead(header, headerStart.size_backward()));
headerName.CompressWhitespace();
if (!NS_IsValidHTTPToken(headerName)) {
return false;
}
nsAutoCString headerValue(Substring(++headerStart, headerEnd));
if (!NS_IsReasonableHTTPHeaderValue(headerValue)) {
return false;
}
headerValue.CompressWhitespace();
if (headerName.LowerCaseEqualsLiteral("content-disposition")) {
nsCCharSeparatedTokenizer tokenizer(headerValue, ';');
bool seenFormData = false;
while (tokenizer.hasMoreTokens()) {
const nsDependentCSubstring& token = tokenizer.nextToken();
if (token.IsEmpty()) {
continue;
}
if (token.EqualsLiteral("form-data")) {
seenFormData = true;
continue;
}
if (seenFormData &&
StringBeginsWith(token, NS_LITERAL_CSTRING("name="))) {
mName = StringTail(token, token.Length() - 5);
mName.Trim(" \"");
continue;
}
if (seenFormData &&
StringBeginsWith(token, NS_LITERAL_CSTRING("filename="))) {
mFilename = StringTail(token, token.Length() - 9);
mFilename.Trim(" \"");
continue;
}
}
if (mName.IsVoid()) {
// Could not parse a valid entry name.
return false;
}
} else if (headerName.LowerCaseEqualsLiteral("content-type")) {
mContentType = headerValue;
}
return true;
}
