package e3; import java.util.List; import java.util.regex.Pattern; import kotlin.jvm.internal.Intrinsics; import r3.C0576h; import r3.C0579k; import r3.InterfaceC0577i; /* loaded from: classes3.dex */ public final class D extends M { /* renamed from: e, reason: collision with root package name */ public static final A f6207e; /* renamed from: f, reason: collision with root package name */ public static final A f6208f; /* renamed from: g, reason: collision with root package name */ public static final byte[] f6209g; public static final byte[] h; public static final byte[] i; /* renamed from: a, reason: collision with root package name */ public final C0579k f6210a; /* renamed from: b, reason: collision with root package name */ public final List f6211b; /* renamed from: c, reason: collision with root package name */ public final A f6212c; /* renamed from: d, reason: collision with root package name */ public long f6213d; static { Pattern pattern = A.f6197d; f6207e = z.a("multipart/mixed"); z.a("multipart/alternative"); z.a("multipart/digest"); z.a("multipart/parallel"); f6208f = z.a("multipart/form-data"); f6209g = new byte[]{58, 32}; h = new byte[]{13, 10}; i = new byte[]{45, 45}; } public D(C0579k boundaryByteString, A type, List parts) { Intrinsics.checkNotNullParameter(boundaryByteString, "boundaryByteString"); Intrinsics.checkNotNullParameter(type, "type"); Intrinsics.checkNotNullParameter(parts, "parts"); this.f6210a = boundaryByteString; this.f6211b = parts; Pattern pattern = A.f6197d; this.f6212c = z.a(type + "; boundary=" + boundaryByteString.q()); this.f6213d = -1L; } /* JADX WARN: Multi-variable type inference failed */ public final long a(InterfaceC0577i interfaceC0577i, boolean z3) { C0576h c0576h; InterfaceC0577i interfaceC0577i2; if (z3) { Object obj = new Object(); c0576h = obj; interfaceC0577i2 = obj; } else { c0576h = null; interfaceC0577i2 = interfaceC0577i; } List list = this.f6211b; int size = list.size(); long j4 = 0; int i4 = 0; while (true) { C0579k c0579k = this.f6210a; byte[] bArr = i; byte[] bArr2 = h; if (i4 >= size) { Intrinsics.checkNotNull(interfaceC0577i2); interfaceC0577i2.E(bArr); interfaceC0577i2.F(c0579k); interfaceC0577i2.E(bArr); interfaceC0577i2.E(bArr2); if (!z3) { return j4; } Intrinsics.checkNotNull(c0576h); long j5 = j4 + c0576h.f8284b; c0576h.d(); return j5; } C c4 = (C) list.get(i4); C0334u c0334u = c4.f6205a; Intrinsics.checkNotNull(interfaceC0577i2); interfaceC0577i2.E(bArr); interfaceC0577i2.F(c0579k); interfaceC0577i2.E(bArr2); if (c0334u != null) { int size2 = c0334u.size(); for (int i5 = 0; i5 < size2; i5++) { interfaceC0577i2.Q(c0334u.b(i5)).E(f6209g).Q(c0334u.f(i5)).E(bArr2); } } M m4 = c4.f6206b; A contentType = m4.contentType(); if (contentType != null) { interfaceC0577i2.Q("Content-Type: ").Q(contentType.f6199a).E(bArr2); } long contentLength = m4.contentLength(); if (contentLength != -1) { interfaceC0577i2.Q("Content-Length: ").R(contentLength).E(bArr2); } else if (z3) { Intrinsics.checkNotNull(c0576h); c0576h.d(); return -1L; } interfaceC0577i2.E(bArr2); if (z3) { j4 += contentLength; } else { m4.writeTo(interfaceC0577i2); } interfaceC0577i2.E(bArr2); i4++; } } @Override // e3.M public final long contentLength() { long j4 = this.f6213d; if (j4 != -1) { return j4; } long a2 = a(null, true); this.f6213d = a2; return a2; } @Override // e3.M public final A contentType() { return this.f6212c; } @Override // e3.M public final void writeTo(InterfaceC0577i sink) { Intrinsics.checkNotNullParameter(sink, "sink"); a(sink, false); } }